CN217298195U - Glove machine with electronic needle selection function - Google Patents

Abstract

The utility model discloses a glove machine with electronic needle selection function, belonging to the technical field of glove machines, comprising a frame, a needle plate, a machine head guiding device, a fork knife transmission mechanism, a top rod transmission mechanism and a scissors transmission mechanism, a front electronic needle selector and a rear electronic needle selector which are connected with the driving mechanism and arranged in a swinging way are arranged below the needle plate, the frame is provided with a pattern setting system which is connected with the front electronic needle selector and the rear electronic needle selector and is used for setting the needle selection actions of the front electronic needle selector and the rear electronic needle selector, compared with the prior art, the utility model discloses a style accessible touch-sensitive screen sets for the district at the style and directly sets for and modify, and is both simple and convenient, has improved the wholeness ability of glove knitting machine, has apparent innovation dynamics, has adopted main joint bearing subassembly to drive the structure of inferior joint bearing subassembly simultaneously, improves the production efficiency of glove knitting machine, increases the design of weaving gloves.

Description

Glove machine with electronic needle selection function

[ technical field ] A method for producing a semiconductor device

The utility model relates to a glove machine technical field, especially a glove machine with needle function is selected to electron.

[ background of the invention ]

The needle selecting mechanism of the common computer glove knitting machine comprises a worm, a worm wheel, a needle selecting roller and the like, wherein the worm wheel is divided into a front worm wheel and a rear worm wheel, the needle selecting roller is divided into a front needle selecting roller and a rear needle selecting roller, the worm can simultaneously drive the front worm wheel and the rear worm wheel to rotate relatively, the front worm wheel and the front needle selecting roller synchronously rotate, the rear worm wheel and the rear needle selecting roller synchronously rotate, a pin arranged on the front needle selecting roller and the rear needle selecting roller is used for pressing or not pressing a bird sheet, then the bird sheet is used for pushing or not pushing a needle jack and a knitting needle, so that the purpose of selecting or not selecting the needle is achieved, because only one set of pins for knitting the colors of the gloves can be arranged on the front needle selecting roller and the rear needle selecting roller at one time, when the colors of the gloves need to be changed, the front needle selecting roller and the rear needle selecting roller can only be taken down from the glove knitting machine, then the pin is taken down from the front needle selecting roller and the needle selecting roller firstly, then the pin which needs to be changed is sleeved on the front needle selecting roller and the rear needle selecting roller, therefore, time and labor are wasted, the production efficiency of the glove machine is affected, the pin and the needle selecting roller are loosely matched after the needle selecting roller is replaced for multiple times, the working precision of the needle selecting roller is affected, and the pin falls off from the needle selecting roller in serious conditions, so that the glove machine cannot be woven normally.

To the above-mentioned problem, the state intellectual property office has disclosed 2018.03.20 a utility model patent of an authorization notice number CN207121691U selects needle device for glove knitting machine, select the needle device to include that the electron selects needle ware and axis of rotation in this patent, the electron is selected and is provided with tens of needle head subassemblies on the needle ware, select the needle head subassembly to include selecting the needle head body, select needle head body bottom to offer a rotation shaft hole of horizontal setting, the below in rotation shaft hole is provided with magnet and coil, be equipped with tens of through-holes with above-mentioned rotation shaft hole one-to-one on the needle ware, both connect through the axis of rotation cooperation, magnet includes N utmost point and S utmost point, N utmost point and S utmost point are located the both sides in rotation shaft hole respectively. The needle selection head body is deflected through the attraction of the coil and the N pole or S pole of the magnet, so that the needle selection or needle non-selection of the needle selection head component of the electronic needle selector is realized, and the needle selection requirement for knitting different glove colors is met by selecting needles randomly in the patent; in order to match with the above patent, a driving mechanism of the electronic needle selector is indispensable, and a simple and reasonable driving mechanism can not only improve the production efficiency of the glove knitting machine, but also prolong the service life of the glove knitting machine. Meanwhile, in order to match with the electronic needle selector, a driving mechanism and a pattern setting system which can be communicated with the electronic needle selector are required to be designed for setting the patterns of the required woven gloves.

Based on this, the present application is proposed.

[ Utility model ] content

The utility model aims at solving the problem among the prior art, provide a glove machine with electron selects needle function to improve the production efficiency of glove machine, reduce the manufacturing cost of glove machine, increase the design and the flower type of weaving gloves, improve the added value of the product of weaving gloves.

In order to achieve the above object, the utility model provides a glove knitting machine with electron selects needle function, including the frame, set up in a pair of side curb plates of frame, set up in the faller between this pair of side curb plates, set up in the aircraft nose on faller upper portion and set up in the bird's nest of faller, be equipped with aircraft nose guider and the fork sword drive mechanism that is located curb plate one side in the frame, the curb plate opposite side is equipped with ejector pin drive mechanism and scissors drive mechanism, the faller below has the preceding electron that is connected with actuating mechanism and is swing setting up and selects the needle ware with the back electron, be equipped with in the frame and select the style setting system that the needle action was selected to both with preceding electron and back electron and select the needle ware to be connected and be used for setting up both and select the style of selecting the needle action with the electron to select the needle ware with the back electron and select the needle ware under the faller reciprocal swing, the back swing preceding electron select the needle ware with the back electron and select the needle ware so that both select the needle tool bit to shift out the scope of action of bird's nest of action And performs the needle selection action of the needle selection tool bit.

Preferably, the pattern setting system includes a pattern setting area connected to the main controller, the pattern setting area being composed of vertically and horizontally crossing grids and used for inputting and displaying the needle selection pattern, the needle selection pattern after setting being displayed on the grids of the pattern setting area in a color other than the ground color of the grids, a state display area, an operation area, and a grid number indication area provided in correspondence with the vertically and horizontally grids of the pattern setting area.

Preferably, the pattern setting area is arranged in the middle of the pattern setting system, the operation area is arranged at the bottom of the pattern setting system, the state display area is arranged between the pattern setting area and the operation area, the pattern setting area is a touch screen, and the pattern setting area directly sets and modifies the needle selection pattern through the touch screen.

Preferably, the pattern setting area is capable of displaying and inputting a needle selection pattern to be executed by the pre-electronic selector or the post-electronic selector, respectively, and the operation area is provided with a switching button for switching a display state of the pattern setting area.

Preferably, the pattern setting area is capable of displaying the needle selection pattern in a partial manner and displaying it in a rolling manner, the operation area is provided with operation buttons for controlling the pattern setting area in the up, down, left, and right directions to adjust the partial display range of the needle selection pattern and displaying it in a rolling manner, and the state display area is capable of displaying the number of lines, the number of columns, and the rolling range in which the state of the needle selection pattern is displayed.

Preferably, a pair of mounting seats is arranged between the side plates, and two ends of the front electronic needle selector and the rear electronic needle selector are rotatably connected with the mounting seats and the side plates through mounting shafts;

the driving mechanism comprises a sliding block positioned between the front electronic needle selector and the rear electronic needle selector and a motor which is in transmission connection with the sliding block and provides power for the reciprocating lifting of the sliding block, two sides of the sliding block are in transmission connection with the front electronic needle selector and the rear electronic needle selector respectively, and the lifting sliding block can stir the front electronic needle selector and the rear electronic needle selector to reciprocate oppositely or reversely swing along the mounting shaft.

Preferably, the driving mechanism further comprises a main joint bearing assembly, the lower end of the main joint bearing assembly is eccentrically and rotatably connected with a driving shaft of the motor, the upper end of the main joint bearing assembly is in transmission connection with the sliding block, and the driving shaft of the motor is rotated to drive the sliding block to reciprocate.

Preferably, two sides of the sliding block are respectively in transmission connection with the front electronic needle selector and the rear electronic needle selector through two secondary joint bearing assemblies, one end of each secondary joint bearing assembly is connected with the sliding block, the other end of each secondary joint bearing assembly is connected with the front electronic needle selector and the rear electronic needle selector, and the sliding block can be lifted and lowered to synchronously shift the front electronic needle selector and the rear electronic needle selector to swing through the secondary joint bearing assemblies.

Preferably, a sliding block shaft hole is formed in the sliding block, a shaft seat is arranged on the mounting seat, a vertically-distributed sliding shaft is fixedly arranged on the shaft seat, the sliding block is sleeved on the sliding shaft through the sliding block shaft hole, and the sliding block can lift along the sliding shaft in a reciprocating mode.

Preferably, the motor is arranged on the mounting seat through a motor bottom plate, a driving shaft of the motor is connected with a driving shaft sleeve, an eccentric screw hole is formed in the driving shaft sleeve, and the lower end of the main joint bearing assembly is connected with the eccentric screw hole.

The utility model has the advantages that:

1) the design of the pattern setting system can be matched with front and rear electronic needle selectors for use, the patterns can be directly set and modified in the pattern setting area through the touch screen, the pattern setting system is simple and convenient, a needle selecting mechanism does not need to be detached from the whole machine and installed and debugged again when the patterns are modified, real electronic needle selection is realized, the overall performance of the glove knitting machine is improved, and remarkable innovation is achieved;

2) because the driving mechanism of the electronic needle selector of the glove knitting machine adopts the structure that the main joint bearing assembly simultaneously drives the secondary joint bearing assembly and is matched with the driving shaft sleeve, the shaft seat, the slide block, the sliding shaft and the like, a motor can drive the front electronic needle selector and the rear electronic needle selector to simultaneously swing oppositely or reversely, and the height and the position of the top end of the needle selecting tool bit are adjusted so as to be matched with the pattern setting system to select or not select needles, thereby simplifying the mechanical structure of the driving mechanism;

3) the eccentric screw hole is designed on the driving shaft sleeve, the eccentric screw hole of the driving shaft sleeve is positioned at the lowest position when the driving shaft of the motor is at 0 degree, and the needle selection tool bit of the electronic needle selector in the working state is positioned at the position of jacking the bird's nest; when the driving shaft of the motor drives the eccentric screw hole of the shaft sleeve to be at the highest position at 180 degrees, the electronic needle selector is pushed away outwards, and the selection of the working state of the needle selecting cutter head is facilitated;

4) can improve the production efficiency of the glove knitting machine and increase the design and color of the knitted gloves.

The features and advantages of the present invention will be described in detail by embodiments with reference to the accompanying drawings.

[ description of the drawings ]

Fig. 1 is a schematic structural diagram of the present invention;

FIG. 2 is a schematic structural diagram of the middle driving mechanism of the present invention

FIG. 3 is a partial schematic view of FIG. 2;

fig. 4 is an exploded view of the drive mechanism of the present invention;

FIG. 5 is a page diagram of the operation of the pattern setting system of the present invention;

in the figure: 1. a frame; 2. an electronic needle selection mechanism; 3. a direct drive mechanism; 4. a fork-knife transmission mechanism; 5. a right side plate; 6. a handpiece guide; 7. a front machine head; 8. a rear machine head; 9. a jack rod transmission mechanism; 10. a scissors drive mechanism; 11. a needle plate; 12. a left side plate; 13. a pattern setting system; 131. a pattern setting area; 132. a status display area; 133. an operation area; 134. a grid indication area; 135. selecting a needle pattern; 21. a left mounting base; 21A, a first shaft hole of the left mounting seat; 21B, a second shaft hole of the left mounting seat; 21C, a third shaft hole of the left mounting seat; 21D, a fourth shaft hole of the left mounting seat; 22. a first front electronic needle selector; 23. a second front electronic needle selector; 24. a left front mounting shaft; 24A, a middle shaft stop of a left front mounting shaft; 25. a left front connecting seat; 25A, a left front connecting seat shaft hole; 26. a front connecting rod; 27. a primary joint bearing assembly; 28. a right front connecting seat; 28A, a shaft hole of the right front connecting seat; 29. a shaft seat; 29A, shaft seat shaft holes; 210. a right front mounting shaft; 210A, a middle shaft stop of a right front mounting shaft; 211. a primary joint bearing assembly; 212. a drive shaft sleeve; 213. a motor; 213A, a drive shaft; 214. a motor base plate; 215. a slider; 215A, a slide block shaft hole; 216. a sliding shaft; 217. A right mounting base; 217A and a first shaft hole of the right mounting seat; 217B and a second shaft hole of the right mounting seat; 217C, a third shaft hole of the right mounting seat; 217D and a fourth shaft hole of the right mounting seat; 219. a right rear mounting shaft; 219A, a middle shaft stop of the right rear mounting shaft; 220. a right rear connecting seat; 220A, a shaft hole of the right rear connecting seat; 221. a rear connecting rod; 222. a first rear electronic needle selector; 223. a left rear connecting seat; 223A, a left rear connecting seat shaft hole; 224. A second rear electronic needle selector; 225. a left rear mounting shaft; 225A, a middle shaft stop of a left rear mounting shaft; 227. a posterior joint bearing assembly; 31. a front electronic needle selector; 32. and a rear electronic needle selector.

[ detailed description ] embodiments

Referring to fig. 1 to 5, the present embodiment includes:

the automatic cutting machine comprises a rack 1, a pair of side plates arranged on the upper side of the rack 1, a needle plate 11 arranged between the side plates, a front machine head 7 and a rear machine head 8 arranged on the upper part of the needle plate 11, and a bird sheet arranged on the needle plate, wherein a machine head guide device 6 and a fork knife transmission mechanism 4 are arranged on one side of the side plates on the rack 1, and a ejector rod transmission mechanism 9 and a scissors transmission mechanism 10 are arranged on the other side of the side plates; the side plates of the pair of sides are divided into a left side plate 12 and a right side plate 5, and the rack 1 is provided with a direct drive mechanism 3 for driving a front machine head 7 and a rear machine head 8; in the embodiment, the connection relationship among the frame 1, the left side plate 12, the right side plate 5, the front machine head 7, the rear machine head 8, the fork knife transmission mechanism 4, the ejector rod transmission mechanism 9, the scissors transmission mechanism 10, the direct drive mechanism 3 and each mechanism is the prior art, and reference can be made to a utility model patent of a computer knitting glove machine with a patent number zl201920889868.x, which is not described herein too much; the structure and connection relation of the handpiece guide device 6 in the embodiment are the prior art, and specific reference can be made to a utility model patent of 'handpiece guide device for glove machine' with the patent number ZL201921738374.8, and too much description is not made here;

the needle plate 11 is provided with a front electronic needle selector 31 and a rear electronic needle selector 32 which are connected with a driving mechanism and arranged in a swinging manner, the front electronic needle selector 31, the rear electronic needle selector 32 and the driving mechanism are also called as an electronic needle selecting mechanism 2, the rack 1 is provided with a pattern setting system 13 which is connected with the front electronic needle selector 31 and the rear electronic needle selector 32 and used for setting the needle selecting actions of the front electronic needle selector 31 and the rear electronic needle selector 32, the driving mechanism can drive the front electronic needle selector 31 and the rear electronic needle selector 32 to swing in a reciprocating manner in the opposite direction or in the back direction below the needle plate 11, and the front electronic needle selector 31 and the rear electronic needle selector 32 swing in the back direction so that the needle selecting bit of the front electronic needle selector and the rear electronic needle selector move out of the action range of the bird's nest and execute the needle selecting action of the needle selecting bit. The front electronic needle selector 31 and the rear electronic needle selector 32 in the embodiment are prior art, and reference may be made to a utility model patent with patent number zl201721021241.x "needle selecting device for glove knitting machine", which is not described herein too much; after the front electronic needle selector 31 and the rear electronic needle selector 32 are swung in opposite directions, they are in the inner side state of the "figure eight", and after they are swung in opposite directions, they are in the outer side state of the "figure eight", and the driving mechanism drives the front electronic needle selector 31 and the rear electronic needle selector 32 to repeatedly switch between the inner side state and the outer side state, and when they are in the outer side state, the needle selection operation is executed for the needle selection pattern 135 set in the pattern setting system 13.

Specifically, the pattern setting system 13 includes a pattern setting area 131, a state display area 132, an operation area 133, and a mesh number indication area 134 connected to a main controller (not shown), the pattern setting area 131 is formed of vertical and horizontal crossing meshes and used for inputting and displaying the needle selection pattern 135, the set needle selection pattern 135 is displayed on the meshes of the pattern setting area 131 in a non-mesh background color, and the mesh number indication area 134 is provided in correspondence with the vertical and horizontal meshes of the pattern setting area 131. The main controller is a programmable controller and is used for receiving and processing the needle selection pattern 135 signals of the pattern setting system 13, organizing control signals and simultaneously transmitting the control signals to the electronic needle selection mechanism 2, the front electronic needle selector 31 and the rear electronic needle selector 32 can receive the control signals, and the main controller controls and drives the needle selection tool bits to perform offset action.

Specifically, the pattern setting area 131 is disposed in the middle of the pattern setting system 13, the operation area 133 is disposed at the bottom of the pattern setting system 13, the status display area 132 is disposed between the pattern setting area 131 and the operation area 133, the pattern setting area 131 is a touch screen, and the pattern setting area 131 directly sets and modifies the needle selection pattern 135 via the touch screen.

Specifically, the pattern setting area 131 can display and input the needle selection patterns 135 to be executed by the front electronic selector 31 or the rear electronic selector 32, that is, the front plate or the rear plate needle selection patterns: the operation area 133 is provided with a switching button for switching the pattern setting area 131 to display the needle selection pattern 135 of the front plate or the rear plate. The switch button is (front plate) or (back plate).

Specifically, the pattern setting area 131 can display the partial needle selection pattern 135 in a rolling manner, and the operation area 133 is provided with operation buttons for controlling the range adjustment and the rolling display of the partial needle selection pattern 135 displayed by the pattern setting area 131 in the vertical, horizontal, and right directions. The operation buttons are respectively corresponding to the control of up, down, left and right directions and rolling display, and the operation buttons also have the functions of up moving, down moving, left moving, right moving and rolling display

And the button is used for exiting the setting. The [ front panel ] button is pressed, the pattern setting area 131 displays the needle selection pattern 135 matched with the front electronic needle selector 31, the partial display of the whole pattern and the direct modification of the touch screen can be performed through the [ up ] button, the [ down ] button, the [ left ] button and the [ right ] button, the [ rear panel ] button is pressed, the pattern setting area 131 displays the needle selection pattern 135 matched with the rear electronic needle selector 32, the partial display of the whole pattern and the direct modification of the touch screen can be performed through the [ up ] button, the [ down ] button, the [ left ] button and the [ right ] button, and the state display area 132 can display the line number, the column number and the rolling range of the needle selection pattern 135 in the state display.

Specifically, a left mounting seat 21 and a right mounting seat 217 are arranged between the left side plate 12 and the right side plate 5, and two ends of the front electronic needle selector 31 and the rear electronic needle selector 32 are rotatably connected with the mounting seats and the side plates through mounting shafts; the left front mounting shaft 24 and the right front mounting shaft 210 are connected with the two ends of the front electronic needle selector 31 in the mounting shafts, and the left rear mounting shaft 225 and the right rear mounting shaft 219 are connected with the two ends of the rear electronic needle selector 32 in the mounting shafts;

the driving mechanism comprises a sliding block 215 positioned between the front electronic needle selector 31 and the rear electronic needle selector 32 and a motor 213 which is in transmission connection with the sliding block 215 and provides power for the reciprocating lifting, the two sides of the sliding block 215 are respectively in transmission connection with the front electronic needle selector 31 and the rear electronic needle selector 32, and the lifting sliding block 215 can stir the front electronic needle selector 31 and the rear electronic needle selector 32 to reciprocate along a mounting shaft to swing oppositely or reversely so as to switch the height and the position of the top ends of the needle selecting heads of the front electronic needle selector 31 and the rear electronic needle selector 32, so that the needle selecting action is controlled. In the embodiment, the power is provided by the motor 213 to control the sliding block 215 to move up and down, and in the moving up and down process, the poking action on the front electronic needle selector 31 and the rear electronic needle selector 32 is completed, so that the front electronic needle selector 31 and the rear electronic needle selector are swung in the opposite direction or the opposite direction.

Specifically, the driving mechanism further comprises a main joint bearing assembly 211, the transmission between the motor 213 and the sliding block 215 is completed by the main joint bearing assembly 211, the main joint bearing assembly 211 is integrally long-shaped, the lower end of the main joint bearing assembly 211 is eccentrically and rotatably connected with a driving shaft 213A of the motor 213, the upper end of the main joint bearing assembly 211 is in transmission connection with the sliding block 215, and the driving shaft 213A of the motor 213 can be rotated to drive the sliding block 215 to reciprocate by the main joint bearing assembly 211. The eccentric transmission mode is adopted, so that the rotary motion can be converted into linear motion, and the sliding block 215 is driven.

Specifically, two sides of the slider 215 are respectively in transmission connection with the front electronic needle selector 31 and the rear electronic needle selector 32 through two secondary joint bearing assemblies, wherein the two secondary joint bearing assemblies are respectively a front secondary joint bearing assembly 27 and a rear secondary joint bearing assembly 227, the lower end of the front secondary joint bearing assembly 27 is connected with the front lower side portion of the slider 215, the lower end of the rear secondary joint bearing assembly 227 is connected with the rear lower side portion of the slider 215, the other end of the rear secondary joint bearing assembly is connected with the front electronic needle selector 31 and the rear electronic needle selector 32, and the lifting slider 215 can synchronously shift the front electronic needle selector 31 and the rear electronic needle selector 32 to swing through the front secondary joint bearing assembly 27 and the rear secondary joint bearing assembly 227.

Specifically, a sliding block shaft hole 215A is formed in the sliding block 215, the shaft seat 29 is arranged on the left side of the right mounting seat 217, the vertically-distributed sliding shaft 216 is fixedly arranged on the shaft seat 29, the upper portion of the sliding shaft 216 is fixedly connected with the shaft seat shaft hole 29A formed in the middle of the shaft seat 29, the shaft seat shaft hole 29A is exposed out of the lower portion of the sliding shaft 216, the sliding block 215 is sleeved on the sliding shaft 216 through the sliding block shaft hole 215A, and the sliding block 215 can reciprocate along the sliding shaft 216.

Specifically, the motor 213 is fixedly arranged on the motor base plate 214, the motor base plate 14 is fixedly arranged at the bottom of the lower right side of the right mounting seat 217, the driving shaft 213A of the motor 213 is combined with the right side of the driving shaft sleeve 212 after being arranged in the shaft hole of the motor base plate 14, the driving shaft sleeve 212 is provided with an eccentric screw hole, and the lower end of the main joint bearing assembly 211 is connected with the eccentric screw hole.

Specifically, the front electronic needle selector 31 and the rear electronic needle selector 32 are respectively provided with a connecting seat, and are divided into a left front connecting seat 25, a right front connecting seat 28, a left rear connecting seat 223 and a right rear connecting seat 220 according to the arrangement position, the connecting seats are provided with connecting seat shaft holes, the mounting shaft is assembled with the connecting seat shaft holes, and the other end of the secondary joint bearing assembly is mounted on the connecting seats in a transmission manner so as to stir the front electronic needle selector 31 and the rear electronic needle selector 32 to swing. The upper end of the front sub-joint bearing assembly 27 is connected to the right front connecting seat 28, and the upper end of the rear sub-joint bearing assembly 227 is connected to the right rear connecting seat 220.

The left and right ends of the front connecting rod 26 are respectively matched with the left mounting seat second shaft hole 21B of the left mounting seat 21 and the right mounting seat second shaft hole 217B of the right mounting seat 217, and the left and right ends of the rear connecting rod 221 are respectively matched with the left mounting seat third shaft hole 21C of the left mounting seat 21 and the right mounting seat third shaft hole 217C of the right mounting seat 217;

a left shaft stop of the left front mounting shaft 24 is arranged in a front shaft hole of the left side plate 12, a right shaft stop of the left front mounting shaft 24 is combined with a left front connecting seat shaft hole 25A of the left front connecting seat 25 after passing through a left mounting seat first shaft hole 21A, and a middle shaft stop 24A of the left front mounting shaft is matched with the left mounting seat first shaft hole 21A; the right side shaft bumper of the right front mounting shaft 210 is arranged in the front shaft hole of the right side plate 5, the left side shaft bumper of the right front mounting shaft 210 is combined with the right front connecting seat shaft hole 28A of the right front connecting seat 28 after passing through the right mounting seat first shaft hole 217A, and the middle shaft bumper 210A of the right front mounting shaft is matched with the right mounting seat first shaft hole 217A; a left side shaft bumper of the left rear mounting shaft 225 is arranged in a rear shaft hole of the left side plate 12, a right side shaft bumper of the left rear mounting shaft 225 is combined with a left rear connecting seat shaft hole 223A of the left rear connecting seat 223 after passing through a left mounting seat fourth shaft hole 21D, and a middle shaft bumper 225A of the left rear mounting shaft is matched with the left mounting seat fourth shaft hole 21D; the right side axle bumper of right back installation axle 219 sets up in the rear shaft hole of right curb plate 5, and the left side axle bumper of right back installation axle 219 combines with the right back connecting seat shaft hole 220A of right back connecting seat 220 behind right mount pad fourth shaft hole 217D, and the middle axle bumper 219A and the right mount pad fourth shaft hole 217D cooperation of right back installation axle.

In order to improve the rigidity and strength of the left and right mounting seats 21 and 217, the left and right mounting seats 21 and 217 are fixed by the front and rear connecting rods 26 and 221.

Specifically, the front electronic needle selector 31 includes a first front electronic needle selector 22 and a second front electronic needle selector 23 which are folded and combined together, and the back electronic needle selector 32 includes a first back electronic needle selector 222 and a second back electronic needle selector 224 which are folded and combined together.

The working principle of the embodiment is as follows: according to the design of the glove to be knitted, firstly, a button of a front plate or a rear plate is pressed down in a design setting system 13, a needle selection design 135 of the front plate or the rear plate matched with the glove to be knitted is set, and after the setting of the needle selection design 135 is finished, the glove to be knitted is pressed

The button exits the pattern setting system 13, then the fork knife transmission mechanism 4, the machine head guide device 6, the ejector rod transmission mechanism 9, the scissors transmission mechanism 10, the electronic needle selection mechanism 2 and other mechanisms return to zero positions, then the machine starts, and the direct drive mechanism 3 drives the front machine head 7 and the rear machine head 8 to respectively arrange along the edgesThe front and rear sliding shafts arranged between the left side plate 12 and the right side plate 5 move, and simultaneously the moving head guide device 6 is also driven to move, the pattern setting system 13 is used in cooperation with the electronic needle selecting mechanism 2, the electronic needle selectors (the first front electronic needle selector 22 and the second front electronic needle selector 23 form the front electronic needle selector 31, and the first rear electronic needle selector 222 and the second rear electronic needle selector 224 form the rear electronic needle selector 32) in the electronic needle selecting mechanism 2 act according to the needle selection pattern 135 set in the pattern setting system 13, when the driving shaft sleeve 212 is positioned at 0 degree (360 degrees), the front and rear electronic needle selectors are positioned at the inner side, and the electronic needle selector in the working state lifts the corresponding bird's butt to enable the corresponding bird's butt and needle jack to be in the working state, and drives the corresponding knitting needles arranged in the needle groove of the needle plate 11 to participate in the work; when the knitting needle needs to be reselected, the driving shaft 213A of the motor 213 drives the driving shaft sleeve 212 to rotate, the driving shaft sleeve 212 also drives the main joint bearing assembly 211 to move upwards, and simultaneously pushes the slide block 215 to make the slide block shaft hole 215A move upwards along the slide shaft 216, the front sub joint bearing assembly 27 and the rear sub joint bearing assembly 227 connected with the front and rear lower sides of the slide block 215 move synchronously, the front electronic needle selector 31 (the first front electronic needle selector 22, the second front electronic needle selector 23) and the rear electronic needle selector 32 (the first rear electronic needle selector 222 and the second rear electronic needle selector 224) are respectively pushed outwards by the right front connecting seat 28 and the right rear connecting seat 220 until the driving shaft 213A of the motor 213 rotates to 180 degrees, and then the front electronic needle selector 31 (the first front electronic needle selector 22, the second front electronic needle selector 23) and the rear electronic needle selector 32 (the first rear electronic needle selector 222, the second rear electronic needle selector 224), The second rear electronic needle selector 224) performs the operation or non-operation selection of the relevant needle selector according to the setting requirement of the needle selection pattern 135 in the pattern setting system 13, and then the driving shaft 213A of the motor 213 continuously rotates to 360 ° (0 °) in the original direction, through the transmission of the mechanism, the right front connecting seat 28 and the right rear connecting seat 220 respectively push the front electronic needle selector 31 (the first front electronic needle selector 22, the second front electronic needle selector 23) and the rear electronic needle selector 32 (the first rear electronic needle selector 222, the second rear electronic needle selector 224) inward, at this time, the needle selector of the electronic needle selector generally has two states, one needle selection state is the needle selection stateThe other non-needle selection state is that the bird sheet does not move along the needle selection tool bit, and the corresponding needle jack and the corresponding knitting needle do not participate in the work; each time the needle is selected, the drive shaft 213A of the motor 213 rotates one revolution; then the driving mechanism repeats the actions and is matched with the fork knife transmission mechanism 4, the machine head guide device 6, the mandril transmission mechanism 9, the scissors transmission mechanism 10, the triangular weaving mechanisms and the sinker triangular weaving mechanisms which are arranged on the front machine head and the rear machine head until the preset gloves are woven.

The above-mentioned embodiment is right the utility model discloses an explanation, it is not right the utility model discloses a limited, any right the scheme after the simple transform of the utility model all belongs to the protection scope of the utility model.

Claims (10)

1. The utility model provides a glove knitting machine with needle function is selected to electron, includes frame (1), sets up in a pair of curb plate of frame (1), sets up faller (11) between this pair of curb plate, sets up in the aircraft nose on faller (11) upper portion and set up in the bird's droppings of faller (11), be equipped with aircraft nose guider (6) and fork sword drive mechanism (4) that are located curb plate one side in frame (1), the curb plate opposite side is equipped with ejector pin drive mechanism (9) and scissors drive mechanism (10), its characterized in that: the needle plate (11) is provided with a front electronic needle selector (31) and a rear electronic needle selector (32) which are connected with a driving mechanism and arranged in a swinging mode, the rack (1) is provided with a pattern setting system (13) which is connected with the front electronic needle selector (31) and the rear electronic needle selector (32) and used for setting needle selecting actions of the front electronic needle selector and the rear electronic needle selector, the driving mechanism can drive the front electronic needle selector (31) and the rear electronic needle selector (32) to swing in a reciprocating mode in the opposite direction or in the opposite direction below the needle plate (11), and the front electronic needle selector (31) and the rear electronic needle selector (32) swing in the opposite direction to enable needle selecting tool bits of the front electronic needle selector and the rear electronic needle selector to move out of the action range of the bird pick and execute the needle selecting action of the needle selecting tool bits.

2. The glove machine with electronic needle selection function according to claim 1, characterized in that: the pattern setting system (13) comprises a pattern setting area (131) connected with a main controller, a state display area (132), an operation area (133) and a grid number indication area (134), wherein the pattern setting area (131) is composed of vertical and horizontal crossed grids and is used for inputting and displaying needle selection patterns (135), the set needle selection patterns (135) are displayed on the grids of the pattern setting area (131) in a non-grid ground color, and the grid number indication area (134) is arranged corresponding to the vertical and horizontal grids of the setting area (131).

3. The glove machine with electronic needle selection function according to claim 2, characterized in that: the pattern setting area (131) is arranged in the middle of the pattern setting system (13), the operation area (133) is arranged at the bottom of the pattern setting system (13), the state display area (132) is arranged between the pattern setting area (131) and the operation area (133), the pattern setting area (131) is a touch screen, and the pattern setting area (131) directly sets and modifies the needle selection pattern (135) through the touch screen.

4. The glove machine with electronic needle selection function according to claim 3, characterized in that: the pattern setting area (131) can display and input needle selection patterns (135) to be executed by the front electronic needle selector (31) or the rear electronic needle selector (32), respectively, and the operation area (133) is provided with a switching button for switching the display state of the pattern setting area (131).

5. The glove machine with electronic needle selection function according to claim 4, characterized in that: the pattern setting area (131) can display the needle selection pattern (135) in a partial manner and in a rolling manner, the operation area (133) is provided with operation buttons for controlling the range adjustment and the rolling display of the partial display of the needle selection pattern (135) by the pattern setting area (131) in the vertical, horizontal, and right directions, and the state display area (132) can display the number of lines, the number of columns, and the rolling range in which the state display of the needle selection pattern (135) is located.

6. The glove machine with electronic needle selection function according to any one of claims 1 to 5, characterized in that: a pair of mounting seats are arranged between the side plates, and two ends of the front electronic needle selector (31) and the rear electronic needle selector (32) are rotatably connected with the mounting seats and the side plates through mounting shafts;

the driving mechanism comprises a sliding block (215) positioned between a front electronic needle selector (31) and a rear electronic needle selector (32) and a motor (213) which is in transmission connection with the sliding block (215) and provides power for the reciprocating lifting of the sliding block, two sides of the sliding block (215) are in transmission connection with the front electronic needle selector (31) and the rear electronic needle selector (32) respectively, and the lifting sliding block (215) can stir the front electronic needle selector (31) and the rear electronic needle selector (32) to reciprocate oppositely or back to swing along a mounting shaft.

7. The glove machine with electronic needle selection function according to claim 6, characterized in that: the driving mechanism further comprises a main joint bearing assembly (211), the lower end of the main joint bearing assembly (211) is eccentrically and rotatably connected with a driving shaft of the motor (213), the upper end of the main joint bearing assembly (211) is in transmission connection with the sliding block (215), and the driving shaft of the motor (213) can be rotated to drive the sliding block (215) to reciprocate up and down through the main joint bearing assembly (211).

8. The glove machine with electronic needle selection function according to claim 7, characterized in that: two sides of the sliding block (215) are respectively in transmission connection with the front electronic needle selector (31) and the rear electronic needle selector (32) through two secondary joint bearing assemblies, one end of each secondary joint bearing assembly is connected with the sliding block (215), the other end of each secondary joint bearing assembly is connected with the front electronic needle selector (31) and the rear electronic needle selector (32), and the sliding block (215) can be lifted to synchronously shift the front electronic needle selector (31) and the rear electronic needle selector (32) to swing through the secondary joint bearing assemblies.

9. The glove machine with electronic needle selection function according to claim 8, characterized in that: the sliding block (215) is provided with a sliding block shaft hole (215A), the mounting seat is provided with a shaft seat (29), the shaft seat (29) is fixedly provided with a vertically distributed sliding shaft (216), the sliding block (215) is sleeved on the sliding shaft (216) through the sliding block shaft hole (215A), and the sliding block (215) can reciprocate along the sliding shaft (216).

10. The glove machine with electronic needle selection function according to claim 7, characterized in that: the motor (213) is arranged on the mounting seat through a motor bottom plate (214), a driving shaft of the motor (213) is connected with a driving shaft sleeve (212), an eccentric screw hole is formed in the driving shaft sleeve (212), and the lower end of the main joint bearing assembly (211) is connected with the eccentric screw hole.

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