CN107282831A - A kind of wire mesh weaving machine - Google Patents

Abstract

The present invention discloses a kind of wire mesh weaving machine, including board, thread loom structure, Qie Wang mechanisms, first fixed seat, first sliding shoe, first sliding recess, haul plate, Ce Wei travel mechanisms, movable mechanism, feeding pressure mechanism, pass through thread loom structure woven mesh belt semi-finished product, the guipure semi-finished product of regular length are cut off by Qie Wang mechanisms, by feeding pressure mechanism in fixing guipure semi-finished product on haul plate, top surface push guipure semi-finished product in haul plate are moved by side displacement, movable mechanism is by driving the first sliding shoe movable in moving forward and backward drive haul plate in the first sliding recess.The present invention can fully-automatic production different length semi-finished product guipure, production efficiency is high, reduce the influence of artifact, product is unanimously high, improve product quality, orderly discharging to guipure semi-finished product is realized additionally by Ce Wei travel mechanisms and movable mechanism, sort and preliminarily forms netted, facilitates Product transport, improves production efficiency.

Description

A kind of wire mesh weaving machine

Technical field

The present invention relates to watchband processing technique field, in particular it relates to a kind of watchband wire mesh weaving machine.

Background technology

, it is necessary to produce preliminary mesh network band in watchband manufacturing process, then watchband is fabricated to by processing guipure. In the prior art, metal mesh belt braiding is general by manually operating semi-automatic Web-making apparatus and semi-automatic net equipment of cutting to carry out guipure The production of semi-finished product, by motor, gear, cam combination mechanism driving, by motor, cam exert oneself completion knit line, cut-out, etc. Work, is then woven into preliminary netted, watchband is made in the guipure semi-finished product for processing netted by processing guipure semi-finished product.It is existing There is semi-automatic Web-making apparatus to use different moulds for the guipure semi-finished product of different length, grasped by artificial mode Make semi-automatic net equipment of cutting to carry out cutting net, produce the guipure semi-finished product of different length, it is necessary to change the mould of different length, Adjusting machine time is long, low production efficiency, while because being cut by artificial judgment semi-finished product length and control, there is product length and differ The defect of cause, while the length of product easily exceeds error range, produces defective products, causes production cost to waste.

The content of the invention

In view of the shortcomings of the prior art, the present invention provides a kind of efficient and high wire mesh weaving machine of yields.

A kind of wire mesh weaving machine disclosed by the invention, including：

Board；

Controller on board；

Thread loom structure；Thread loom structure is on board, and it has drive end and knits line end；Drive end is connected with controller；

Qie Wang mechanisms；Qie Wang mechanisms are on board, and it has upper cutter end and lower cutter end；Upper cutter end, which is located at, knits line The top at end；Lower cutter end is located at the lower section for knitting line end, and it is connected with controller；

Located at the first fixed seat of board top surface, it is located at the rear for knitting line end；The top surface of first fixed seat is along X-direction Provided with the first sliding recess；

It is slidably connected to the first sliding shoe in the first sliding recess；

Haul plate located at the first sliding shoe top；Haul plate has feed end, the discharge end relative with feed end and Sidesway end between feed end and discharge end；

Ce Wei travel mechanisms；The first displacement that Ce Wei travel mechanisms have the first power end and interlocked with the first power end End；First power end is located at the bottom surface of board；First displacement end fits in the top surface at sidesway end, and it is connected with controller；First Power end driving first shifts end and moved linearly in the top surface of haul plate along Y-axis；

Movable mechanism；The second displacement that movable mechanism has the second power end and interlocked with the second power end End；Second power end is located at the bottom surface of board, and it is connected with controller；Second displacement end is connected to the first sliding shoe；Second moves Power end drives haul plate to be moved linearly along X-axis by the first sliding shoe；And

Feeding pressure mechanism；Feeding pressure mechanism has fixing end and binder end；Fixing end is fixed on haul plate, and binder end is located at haul Above plate.

According to an embodiment of the present invention, wire mesh weaving machine also includes：Controller on board；Controller is distinguished It is connected with drive end, lower cutter end, the first power end and the second power end.

According to an embodiment of the present invention, drive end includes：Installation side plate and the first driving element；Installation side plate is fixed In the side of board；First driving element is fixed in installation side plate, and its one end is connected with controller；Knitting line end includes：Knit line Part and molding part；The top surface that line piece is located at board is knitted, its one end is connected with the other end of the first driving element；Molding part is located at The top surface of board, it is located at the side for knitting line piece；The other end for knitting line piece wears the top of molding part.

According to an embodiment of the present invention, knitting line piece includes：Second fixed seat, swingle, Suo mouths, knit line pin and spiral shell Revolve mould；Second fixed seat is located at the top surface of board；Swingle wears the second fixed seat, and its one end connects with the first driving element Connect；Suo mouths are located at the other end of swingle；The one end for knitting line pin is fixed in Suo mouths, and its other end is connected with spiral mould；Spiral shell Rotation mould wears the top of molding part.

According to an embodiment of the present invention, molding part includes：3rd fixed seat and mould；3rd fixed seat is located at The top surface of board, it is located at the second fixed seat close to the side for knitting line pin；The top of 3rd fixed seat offers a fixed groove； Mould is fixed in fixed groove；A shaping groove is offered on mould；Spiral mould wears shaping groove.

According to an embodiment of the present invention, upper cutter end includes：4th fixed seat, the first connector and upper cutter Part；The top surface of board is fixed in the bottom of 4th fixed seat；The top of the 4th fixed seat is fixed in one end of first connector, its The other end is located at the top of mould；Upper cutter part wears the one end of the first connector away from the 4th fixed seat；Upper cutter part Bottom be blade end, its be located between the first connector and mould.

According to an embodiment of the present invention, lower cutter end includes：5th fixed seat, the second sliding shoe, incision knife with And second driving element；Second driving element is located at the bottom surface of board, and its one end is connected with controller；5th fixed seat is located at machine The top surface of platform, it is located at the side of the 3rd fixed seat and relative with the second fixed seat；5th fixed seat is provided with along its length Second sliding recess, the second sliding shoe is fixed on the second sliding recess；Incision knife wears the top of the second sliding shoe, and it is pushed up Hold as blade end, its blade end and the blade end of upper cutter part are opposite；Worn by the top surface of board the bottom of to the bottom of the second sliding shoe Face is connected with the other end of the second driving element.

According to an embodiment of the present invention, the first power end includes：First fixed plate and the 3rd driving element；First consolidates The top of fixed board is perpendicularly fixed at the bottom surface of board；3rd driving element is fixed on the medial surface of the first fixed plate, its one end with Controller is connected；First displacement end includes：Head rod, the 3rd connector and sidesway plate；The bottom of head rod with The other end connection of 3rd driving element, its top is connected with one end of the 3rd connector；The other end of 3rd connector and side Move plate connection；The bottom surface of sidesway plate fits in the top surface at sidesway end；3rd driving element is connected by head rod and the 3rd Part driving sidesway plate moves linearly in the top surface of haul plate along Y-axis.

According to an embodiment of the present invention, the second power end includes：Second fixed plate and the 4th driving element；Second consolidates The top of fixed board is perpendicularly fixed at the bottom surface of board, and it is located at the side of the first fixed plate；4th driving element is fixed on second The medial surface of fixed plate, its one end is connected with controller；Second displacement end includes：Second connecting rod；The bottom of second connecting rod It is connected with the other end of the 4th driving element, its top is connected with the first sliding shoe；4th driving element passes through the second connecting rod And first sliding shoe driving haul plate moved linearly along X-axis.

According to an embodiment of the present invention, fixing end includes：3rd fixed plate and standing screw；The bottom of 3rd fixed plate The one side of haul plate is fixed at end, itself and feed end homonymy；Standing screw is perpendicularly fixed in the 3rd fixed plate, and it is located at fortune The top of flitch；Binder end includes：3rd connecting rod and holding pad；One end of 3rd connecting rod is sheathed on standing screw, its The top surface connection of the other end and holding pad；Holding pad is located at the top of haul plate.

According to an embodiment of the present invention, fixing end also includes：Locating part；The bottom of locating part is perpendicularly fixed at the 3rd The one side of fixed plate, it is located at the top of standing screw.

The beneficial effect that the present invention is different from prior art is：The present invention wire mesh weaving machine is by thread loom structure and cuts Net mechanism cooperating, the semi-finished product guipure of fully-automatic production different length, production efficiency is high, reduces the influence of artifact, Homogeneity of product is high, improves product quality, while being that can be set in product length, production process without changing not by controller With the mould of length, reduction adjusting machine time simple to operate further improves production efficiency, additionally by Ce Wei travel mechanisms And movable mechanism realizes orderly discharging to guipure semi-finished product, sorts and preliminarily forms netted, facilitates Product transport, improves Production efficiency.

Brief description of the drawings

Accompanying drawing described herein is used for providing further understanding of the present application, constitutes the part of the application, this Shen Schematic description and description please is used to explain the application, does not constitute the improper restriction to the application.In the accompanying drawings：

Fig. 1 is the front view of netting machine in embodiment；

Fig. 2 is the structural representation of netting machine in embodiment；

Fig. 3 is the structural representation of the first fixed seat in embodiment；

Fig. 4 is one of thread loom structure and the structural representation of Qie Wang mechanisms in embodiment；

Fig. 5 is two of thread loom structure and the structural representation of Qie Wang mechanisms in embodiment；

Fig. 6 is to knit the structural representation of line piece in embodiment；

Fig. 7 is the structural representation of molding part in embodiment；

Fig. 8 is the structural representation at upper cutter end in embodiment；

Fig. 9 is the part-structure schematic diagram at lower cutter end in embodiment；

Figure 10 is the structural representation of the 4th fixed seat in embodiment；

Figure 11 is the structural representation of movable mechanism, Ce Wei travel mechanisms and feeding pressure mechanism in embodiment；

Figure 12 is Figure 11 partial enlarged drawing.

Description of reference numerals：101st, board；102nd, controller；103rd, fixed support；104th, thread loom structure；105th, net machine is cut Structure；1041st, drive end；1042nd, line end is knitted；1051st, upper cutter end；1052nd, lower cutter end；10411st, installation side plate；10412、 First driving element；10421st, line piece is knitted；10422nd, molding part；104211st, the second fixed seat；104212nd, swingle； 104213rd, Suo mouths；104214th, line pin is knitted；104215th, spiral mould；1043rd, runner；1044th, belt；1042131st, locking screw Hole；104221st, the 3rd fixed seat；104222nd, mould；1042211st, fixed groove；1042221st, shaping groove；10511、 4th fixed seat；10512nd, the first connector；10513rd, upper cutter part；10521st, the 5th fixed seat；10522nd, the second sliding shoe； 10523rd, incision knife；10524th, the second driving element；10525th, connection fixing base；10526th, the 4th connecting rod；105261st, move The arm of force；105262nd, resistance arm；105211st, the second sliding recess；105221st, cross spacing block；105222nd, the second connector； 106th, the first fixed seat；107th, the first sliding shoe；108th, haul plate；109th, Ce Wei travel mechanisms；110th, mechanism is moved forward and backward； 111st, feeding pressure mechanism；112nd, plate is cached；1011st, the first limited impression；1012nd, the second limited impression；1061st, the first slip is recessed Groove；1081st, feed end；1082nd, discharge end；1083rd, sidesway end；1091st, the first power end；1092nd, the first displacement end；1101、 Second power end；1102nd, the second displacement end；1111st, fixing end；1112nd, binder end；10911st, the first fixed plate；10912nd, Three driving elements；10921st, head rod；10922nd, the 3rd connector；10923rd, sidesway plate；109231st, step； 109232nd, two grades of ladders；11011st, the second fixed plate；11012nd, the 4th driving element；11021st, the second connecting rod；11111st, Three fixed plates；11112nd, standing screw；11121st, the 3rd connecting rod；11122nd, holding pad；11113rd, locating part；200th, the first net Band semi-finished product；300th, the second guipure semi-finished product.

Embodiment

Multiple embodiments of the present invention, as clearly stated, the details in many practices will be disclosed with schema below It will be explained in the following description.It should be appreciated, however, that the details in these practices is not applied to limit the present invention.Also It is to say, in some embodiments of the present invention, the details in these practices is non-essential.In addition, for the sake of simplifying schema, Some known usual structures will illustrate it in simply illustrative mode in the drawings with component.

It is to be appreciated that institute is directional in the embodiment of the present invention indicates that (such as up, down, left, right, before and after ...) is only used In explaining relative position relation, motion conditions under a certain particular pose (as shown in drawings) between each part etc., if should When particular pose changes, then directionality indicates also correspondingly therewith to change.

In addition, in the present invention such as relating to the description of " first ", " second " etc. be only used for describe purpose, not especially censure The meaning of order or cis-position, is also not used to limit the present invention, its component described with constructed term just for the sake of difference Or operation, and it is not intended that indicating or implying its relative importance or the implicit number for indicating indicated technical characteristic Amount.Thus, " first " is defined, at least one this feature can be expressed or be implicitly included to the feature of " second ".In addition, each Technical scheme between individual embodiment can be combined with each other, but must can be implemented as base with those of ordinary skill in the art Plinth, when the combination appearance of technical scheme is conflicting or can not realize it will be understood that the combination of this technical scheme is not present, Also not within the protection domain of application claims.

Embodiment：

In order to which following explanation becomes apparent from, the direction of the bottom of wire mesh weaving machine in Fig. 1 to top is defined as, will be upper Lower direction is set to X-direction, wherein, direction from lower to upper is X-axis positive direction, and the direction perpendicular to paper is set to Y direction, The direction wherein carried on the back by paper towards paper is Y-axis positive direction, and X-axis positive direction is rear, and X-axis negative direction is front；In addition, single The side view of guipure semi-finished product is the circle of d diameters, and step pitch D is defined as greater than into 0 distance for being less than d.

The present embodiment provides a kind of wire mesh weaving machine, refer to shown in Fig. 1 to 3, and netting machine is being just respectively in embodiment The structural representation of view, structural representation and the 5th fixed seat.Wire mesh weaving machine include board 101, thread loom structure 104, Thread loom structure 104 is on board 101, and it has drive end 1041 and knits line end 1042, Qie Wang mechanisms 105, Qie Wang mechanisms 105 On board 101, it has upper cutter end 1051 and lower cutter end 1052, and upper cutter end 1051, which is located at, knits the upper of line end 1042 Side, lower cutter end 1052 is located at the lower section for knitting line end 1042, located at the first fixed seat 106 of the top surface of board 101, and it, which is located at, knits line The rear at end 1042, the top surface of the first fixed seat 106 is provided with the first sliding recess 1061 along X-direction, is slidably connected to first The first sliding shoe 107 in sliding recess 1061, the haul plate 108 located at the top of the first sliding shoe 107, haul plate 108 has The discharge end 1082 relative with feed end 1081 of feed end 1081 and the side between feed end 1081 and discharge end 1082 Move end 1083, Ce Wei travel mechanisms 109, Ce Wei travel mechanisms 109 have the first power end 1091 and with the first power end 1091 the first displacement ends 1092 interlocked, the first power end 1091 is located at the bottom surface of board 101, and the first displacement end 1092 is fitted in The top surface at sidesway end 1083, the first power end 1091 driving first shifts end 1092 and moved in the top surface of haul plate 108 along Y-axis straight line It is dynamic, mechanism 110 is moved forward and backward, movable mechanism 110 has the second power end 1101 and interlocked with the second power end 1101 Second displacement end 1102, the second power end 1101 be located at board 101 bottom surface, second displacement end 1102 is connected to the first slip Block 107, the second power end 1101 drives haul plate 108 to be moved linearly along X-axis by the first sliding shoe 107, and feeding pressure mechanism 111, feeding pressure mechanism 111 has fixing end 1111 and binder end 1112, and fixing end 1111 is fixed on haul plate 108, binder end 1112 are located at the top of haul plate 108.It is otherwise noted that wire mesh weaving machine also includes the controller on board 101 102, controller 102 connects with drive end 1041, lower cutter end 1052, the first power end 1091 and the second power end 1101 respectively Connect, wherein board 101 is provided with fixed support 103, controller 102 is fixed on fixed support 103, it is convenient to controller 102 Operation.

The wire mesh weaving machine of the present invention is by thread loom structure 104 and the cooperating of Qie Wang mechanisms 105, and fully-automatic production is not With the semi-finished product guipure of length, production efficiency is high, reduces the influence of artifact, and homogeneity of product is high, improves product quality, together When product length can be set by controller 102, the mould of different length, operation letter need not be changed in production process It is single, adjusting machine time is reduced, production efficiency is further improved, it is real additionally by Ce Wei travel mechanisms 109 and movable mechanism 110 Orderly discharging existing to guipure semi-finished product, sort and preliminarily form netted, facilitate Product transport, improve production efficiency.

Further, please also refer to shown in Fig. 4 to 7, respectively thread loom structure and the structural representation of Qie Wang mechanisms it First, structural representation two, knit the structural representation of line piece and the structural representation of molding part.Drive end 1041 includes installing The driving element 10412 of side plate 10411 and first, installation side plate 10411 is fixed on the side of board 101, the first driving element 10412 are fixed in installation side plate 10411, and its one end is connected with controller 102, wherein, the first driving element 10412 is preferentially Using servomotor, knitting line end 1042 includes knitting line piece 10421 and molding part 10422, knits line piece 10421 located at board 101 Top surface, its one end is connected with the other end of the first driving element 10412, and molding part 10422 is located at the top surface of board 101, its Positioned at the side for knitting line piece 10421, the other end for knitting line piece 10421 wears the top of molding part 10422.Specifically, line piece is knitted 10421 include the second fixed seat 104211, swingle 104212, Suo mouths 104213, knit line pin 104214 and spiral mould 104215, the second fixed seat 104211 is located at the top surface of board 101, and swingle 104212 wears the second fixed seat 104211, its One end is connected with the first driving element 10412, wherein, one end of the driving element 10412 of swingle 104212 and first is respectively provided with One runner 1043 a, belt 1044 is sheathed on the outside of two runners 1043 respectively, and Suo mouths 104213 are located at swingle 104212 The other end, Suo mouths 104213 are provided with locking screw holes 1042131, and the opening and closing for controlling Suo mouths 104213 knit line pin 104214 one end is fixed in Suo mouths 104213, and its other end is connected with spiral mould 104215, wherein, knit line pin 104214 It is integrally formed and is fixedly connected with spiral mould 104215, spiral mould 104215 wears the top of molding part 10422.Specifically, Molding part 10422 includes the 3rd fixed seat 104221 and mould 104222, and the 3rd fixed seat 104221 is located at board 101 Top surface, it is located at the second fixed seat 104211 close to the side for knitting line pin 104214, and the top of the 3rd fixed seat 104221 is opened up There is a fixed groove 1042211, mould 104222 is fixed in fixed groove 1042211, is opened on mould 104222 Provided with a shaping groove 1042221, spiral mould 104215 wears shaping groove 1042221.Pre-set by controller 102 Metal wire, is then around on spiral mould 104215 by the braiding length of good guipure semi-finished product, is then controlled by controller 102 First driving element 10412 works, and utilizes the runner 1043 and skin set on the first driving element 10412 and swingle 104212 Band 1044 coordinates transmission, and the first driving element 10412 driving swingle 104212 is rotated, and line pin 104214 and Helical Mode are knitted in drive Tool 104215 is rotated together with, and metal wire is in the case where the rotation for knitting line pin 104214 and spiral mould 104215 drives, finally in shaping Spiral helicine guipure semi-finished product are formed in groove 1042221.

Further, it refer to shown in Fig. 4, Fig. 5, Fig. 8, Fig. 9 and Figure 10, during wherein Fig. 8 to Figure 10 is respectively embodiment The structural representation of the structural representation at upper cutter end, the part-structure schematic diagram at lower cutter end and the 4th fixed seat.On cut Knife end 1051 includes the 4th fixed seat 10511, the first connector 10512 and upper cutter part 10513, the 4th fixed seat 10511 Bottom be fixed on the top surface of board 101, the top of the 4th fixed seat 10511 is fixed in one end of the first connector 10512, its The other end is located at the top of mould 104222, and upper cutter part 10513 wears the first connector 10512 away from the 4th fixed seat 10511 one end, the bottom of upper cutter part 10513 is blade end, and it is located at the first connector 10512 and mould 104222 Between；Lower cutter end 1052 includes the 5th fixed seat 10521, the second sliding shoe 10522, incision knife 10523 and second and driven Dynamic element 10524, the second driving element 10524 is located at the bottom surface of board 101, and its one end is connected with controller 102, wherein second Driving element 10524 is located at the top surface of board 101 preferably by cylinder, the 5th fixed seat 10521, and it is located at the 3rd fixed seat 104221 side is simultaneously relative with the second fixed seat 104211, and the 5th fixed seat 10521 is slided provided with second along its length Groove 105211, wherein the cross section of the second sliding recess 105211 is trapezoidal, the second sliding shoe 10522 is fixed on the second slip On groove 105211, incision knife 10523 wears the top of the second sliding shoe 10522, its top be blade end, its blade end with The blade end of upper cutter part 10513 is opposite, wherein, the top of the second sliding shoe 10522 is provided with cross spacing block 105221, laterally Limited block 105221 is provided with the second connector 105222, and incision knife 10523 wears the second connector 105222, and second slides Worn to bottom surface and be connected with the other end of the second driving element 10524 by the top surface of board 101 in the bottom of block 10522.Continuing with ginseng Examine shown in Fig. 4 to 5, it is otherwise noted that lower cutter end 1052 also includes the connecting rod of connection fixing base 10525 and the 4th 10526, the bottom surface of board 101 is fixed on the top of connection fixing base 10525, and it is located at the second driving element 10524 and second Between the bottom of sliding shoe 10522, the bottom of connection fixing base 10525 is fixed at the middle part of the 4th connecting rod 10526, forms one Laborsaving lever, wherein be divided into power arm 105261 and resistance arm 105262 by boundary of fixing point, the 4th connecting rod 10526 it is dynamic The arm of force 105261 is connected with the second driving element 10524, and its resistance arm 105262 is connected with the bottom of the second sliding shoe 10522. The connecting rod 10526 of connection fixing base 10525 and the 4th forms laborsaving lever, makes the second driving element 10524 drive second to slide The power of block 10522 is bigger, strengthens the snap-in force between upper cutter part 10513 and the blade end of incision knife 10523, it is ensured that net The stability of cutting-off process with semi-finished product, strengthens the stability of the work of Qie Wang mechanisms 105.Set in advance by controller 102 The braiding length of guipure semi-finished product is put, then when metal wire knits out the guipure half of certain length on mould 104222 After finished product, the second driving element 10524 drives the second sliding shoe 10522 in the second sliding recess by the 4th connecting rod 10526 Moved on 105211 by its bottom towards top orientation, drive incision knife 10523 to move, until upper cutter part 10513 and incision Blade end occlusion between knife 10523, cuts off guipure semi-finished product, forms the guipure semi-finished product of regular length.

Further, it refer to shown in Figure 11 and 12, respectively move forward and backward mechanism, Ce Wei travel mechanisms and swager The structural representation of structure and Figure 11 partial enlarged drawing.First power end 1091 includes the first fixed plate 10911 and the 3rd driving Element 10912, the top of the first fixed plate 10911 is perpendicularly fixed at the bottom surface of board 101, and the 3rd driving element 10912 is fixed In the medial surface of the first fixed plate 10911, its one end is connected with controller 102, wherein, the 3rd driving element 10912 is preferably Using cylinder, the first displacement end 1092 includes head rod 10921, the 3rd connector 10922 and sidesway plate 10923, the The bottom of one connecting rod 10921 is connected with one end of the 3rd driving element 10912, its top and the one of the 3rd connector 10922 End connection, the other end of the 3rd connector 10922 is connected with sidesway plate 10923 by way of screw rod, wherein, on board 101 Offer to limit the first limited impression 1011 of the shift position of head rod 10921, the middle part of head rod 10921 It is arranged in the first limited impression 1011, the bottom surface of sidesway plate 10923 fits in the top surface at sidesway end 1083, the 3rd driving element 10912 drive sidesway plate 10923 in the top surface of haul plate 108 along Y by the connector 10922 of head rod 10921 and the 3rd Axle moves linearly, wherein, the cross section of sidesway plate 10923 is stepped for two grades, and it has step 109231 and two grades of ranks Ladder 109232, makes guipure semi-finished product depart from haul plate 108 using step 109231, is fixed and pushed away using two grades of ladders 109232 Guipure semi-finished product are sent, effectively strengthen the job stability of Ce Wei travel mechanisms 109.Guipure semi-finished product by haul plate 108 feed end 1081 send into along Y-axis positive direction, and when guipure semi-finished product complete braiding and cut, the 3rd driving element 10912 connects by first The connector 10922 of extension bar 10921 and the 3rd driving sidesway plate 10923 moves linearly a step pitch in the top surface of haul plate 108 along Y-axis D, makes guipure semi-finished product in the top surface of haul plate 108 along Y-axis one step pitch D of rectilinear movement, then the 3rd driving element 10912 is multiple Position, drives sidesway plate 10923 to reset.

Further, please continue to refer to shown in Figure 11, the second power end 1101 includes the second fixed plate 11011 and 4 wheel driven Dynamic element 11012, the top of the second fixed plate 11011 is perpendicularly fixed at the bottom surface of board 101, and it is located at the first fixed plate 10911 side, the 4th driving element 11012 is fixed on the medial surface of the second fixed plate 11011, its one end and controller 102 Connection, wherein the 4th driving element 11012 is preferably by cylinder；Second displacement end 1102 includes the second connecting rod 11021, the The bottom of two connecting rods 11021 is connected with the other end of the 4th driving element 11012, and its top is connected with the first sliding shoe 107, Wherein, offer to limit the second limited impression 1012 of the shift position of the second connecting rod 11021, second on board 101 The middle part of connecting rod 11021 is arranged in the second limited impression 1012, and the 4th driving element 11012 passes through the second connecting rod 11021 and first the driving of sliding shoe 107 haul plate 108 moved linearly along X-axis.When guipure semi-finished product are in the top surface of haul plate 108 Along Y-axis one step pitch D of rectilinear movement, the 4th driving element 11012 is driven by the second connecting rod 11021 and the first sliding shoe 107 Haul plate 108 moves linearly along X-axis, make it is adjacent between two guipure semi-finished product mutually stagger in the Y-axis direction, make by guipure Semi-finished product tentatively work out the mesh network band of shaping magnitude range be limited in the range of, facilitate subsequent material transport and process.

Further, please continue to refer to shown in Figure 11, fixing end 1111 includes the 3rd fixed plate 11111 and standing screw 11112, the one side of haul plate 108 is fixed in the bottom of the 3rd fixed plate 11111, itself and the homonymy of feed end 1081, fixed spiral shell Bar 11112 is perpendicularly fixed in the 3rd fixed plate 11111, and it is located at the top of haul plate 108；Binder end 1112 includes the 3rd and connected Extension bar 11121 and holding pad 11122, one end of the 3rd connecting rod 11121 are sheathed on standing screw 11112, the 3rd connecting rod 11121 are connected in rotatable certain angle on standing screw 11112, its other end with the top surface of holding pad 11122, holding pad 11122 are located at the top of haul plate 108, wherein, wherein holding pad 11122 is elongated rectangular shape shape, its length and haul plate 108 Equal length, for fixing material.Specifically, fixing end 1111 also includes locating part 11113, the bottom of locating part 11113 The one side of the 3rd fixed plate 11111 is perpendicularly fixed at, it is located at the top of standing screw 11112, locating part 11113 is effectively anti- Only the 3rd connecting rod 11121 is excessive in the upper anglec of rotation of standing screw 11112, influences other working regions.Shift netting dress Put before work, the 3rd connecting rod 11121 is rotated in the direction on standing screw 11112 towards haul plate 108, make guipure semi-finished product Fit on haul plate 108, limit guipure semi-finished product mobile range on the top surface of haul plate 108, reinforcing mat band semi-finished product Webbed stability is tentatively woven on haul plate 108.

The operation principles of the present invention are as follows：

In order to which following explanation becomes apparent from, Figure 11 partial enlarged drawing is refer to, the first guipure semi-finished product 200 are introduced respectively With the second guipure semi-finished product 300, wherein, the first guipure semi-finished product 200 and the second guipure semi-finished product 300 are structure identical spiral The single guipure semi-finished product of strip.

Start netting machine before, first by the 3rd connecting rod 11121 on standing screw 11112 towards the side of haul plate 108 To rotation, until the distance between holding pad 11122 and haul plate 108 can just make single guipure semi-finished product fit in haul plate On 108, product length is pre-set by controller 102, then manually metal wire is around on spiral mould 104215；Open After dynamic netting machine, the first driving element 10412 works, and utilizes what is set on the first driving element 10412 and swingle 104212 Runner 1043 coordinates with belt 1044 to be driven, and the first driving element 10412 driving swingle 104212 is rotated, and line pin is knitted in drive 104214 and spiral mould 104215 rotate together with, metal wire knitting line pin 104214 and spiral mould 104215 rotation drive Under, in forming spiral helicine first guipure semi-finished product 200 in shaping groove 1042221, while by the feed end of haul plate 108 1081 rotate into along X-axis positive direction, the product length that then the second driving element 10524 is pre-set according to controller 102 Work, when product length reaches certain length, the second driving element 10524 drives the second sliding shoe 10522 to be slided in second Moved on groove 105211 by its bottom towards top orientation, drive incision knife 10523 to move, until upper cutter part 10513 with Blade end occlusion between incision knife 10523, cuts off the first guipure semi-finished product 200, then the second driving element 10524 is answered Position, upper cutter part 10513 is separated with the blade end of incision knife 10523, now, and the 3rd driving element 10912 connects by first The connector 10922 of extension bar 10921 and the 3rd driving sidesway plate 10923 moves linearly in the top surface of haul plate 108 along Y-axis positive direction One step pitch D, top surface of the first guipure semi-finished product 200 in haul plate 108 is pushed along Y-axis positive direction straight line using sidesway plate 10923 A step pitch D is moved, then the 3rd driving element 10912 resets, drive sidesway plate 10923 to reset, now the 4th driving element 11012 drive haul plate 108 along X-axis positive direction one spacing of rectilinear movement by the second connecting rod 11021 and the first sliding shoe 107 From then the second guipure semi-finished product 300 are with aforementioned principles, in formation helical form in shaping groove 1042221, and by haul plate 108 feed end 1081 is rotated into along X-axis positive direction, while be cut off after the second semi-finished product 300 reach preset length, this When the second guipure semi-finished product 300 differ a step pitch D in the Y-axis direction with the first guipure semi-finished product 200, because of single guipure semi-finished product For spiral strip, the second guipure semi-finished product 300 prolong on haul plate 108 along X-axis positive direction weave when, while rotating embedded the One guipure semi-finished product 200, until when the second guipure semi-finished product 300 complete cut-out, the first guipure semi-finished product 200 and the second guipure half Finished product 300 is mutually chimeric, and then the 3rd driving element 10912 works on, and the 3rd driving element 10912 passes through head rod 10921 and the 3rd the driving of connector 10922 sidesway plate 10923 moved linearly a step along Y-axis positive direction in the top surface of haul plate 108 Away from D, promote the second guipure semi-finished product 300 and the first guipure semi-finished product 200 on the top surface of haul plate 108 along Y-axis positive direction A step pitch D is moved, then the 3rd driving element 10912 resets, drive sidesway plate 10923 to reset, the 4th driving element 11012 is driven Dynamic first sliding shoe 107 resets, and drives haul plate 108 to reset, with above-mentioned principle, circulates work, single guipure semi-finished product is existed Transported on haul plate 108, form tentatively netted, while promoting netted guipure semi-finished product to be transported in order to caching plate 112 direction It is defeated.

The upper only embodiments of the present invention, are not intended to limit the invention.For those skilled in the art For, the present invention can have various modifications and variations.It is all any modifications made in spirit and principles of the present invention, equivalent Replace, improve etc., it all should be included within scope of the presently claimed invention.

Claims (10)

1. a kind of wire mesh weaving machine, it is characterised in that including：

Board (101)；

Controller (102) on the board (101)；

Thread loom structure (104)；The thread loom structure (104) is on the board (101), and it has drive end (1041) and knitted Line end (1042)；The drive end (1041) is connected with the controller (102)；

Qie Wang mechanisms (105)；The Qie Wang mechanisms (105) on the board (101), its have upper cutter end (1051) and Lower cutter end (1052)；The upper cutter end (1051) is located at the top for knitting line end (1042)；The lower cutter end (1052) it is located at the lower section for knitting line end (1042), it is connected with the controller (102)；

Located at first fixed seat (106) of the board (101) top surface, it is located at the rear for knitting line end (1042)；It is described The top surface of first fixed seat (106) is provided with the first sliding recess (1061) along X-direction；

It is slidably connected to the first sliding shoe (107) in first sliding recess (1061)；

Haul plate (108) located at the first sliding shoe (107) top；The haul plate (108) have feed end (1081), The discharge end (1082) relative with feed end (1081) and the sidesway between feed end (1081) and discharge end (1082) Hold (1083)；

Ce Wei travel mechanisms (109)；The Ce Wei travel mechanisms (109) have the first power end (1091) and with described first The first displacement end (1092) that power end (1091) is interlocked；First power end (1091) is located at the bottom of the board (101) Face；First displacement end (1092) fits in the top surface of the sidesway end (1083), and it is connected with the controller (102)； First power end (1091) driving, first displacement end (1092) in the haul plate (108) top surface along Y-axis straight line It is mobile；

Movable mechanism (110)；The movable mechanism (110) has the second power end (1101) and with described second The second displacement end (1102) that power end (1101) is interlocked；Second power end (1101) is located at the bottom of the board (101) Face, it is connected with the controller (102)；Second displacement end (1102) is connected to first sliding shoe (107)；It is described Second power end (1101) drives the haul plate (108) to be moved linearly along X-axis by first sliding shoe (107)；And

Feeding pressure mechanism (111)；The feeding pressure mechanism (111) has fixing end (1111) and binder end (1112)；The fixing end (1111) the haul plate (108) is fixed on, the binder end (1112) is located above the haul plate (108).

2. wire mesh weaving machine according to claim 1, it is characterised in that the drive end (1041) includes：Installation side plate And the first driving element (10412) (10411)；The installation side plate (10411) is fixed on the side of the board (101)；Institute State the first driving element (10412) to be fixed in the installation side plate (10411), its one end is connected with the controller (102)；

The line end (1042) of knitting includes：Knit line piece (10421) and molding part (10422)；The line piece (10421) of knitting is located at The top surface of the board (101), its one end is connected with the other end of first driving element (10412)；The molding part (10422) top surface of the board (101) is located at, it is located at the side for knitting line piece (10421)；It is described to knit line piece (10421) the other end wears the top of the molding part (10422).

3. wire mesh weaving machine according to claim 2, it is characterised in that the line piece (10421) of knitting includes：Second fixes Seat (104211), swingle (104212), Suo mouths (104213), knit line pin (104214) and spiral mould (104215)；Institute State the top surface that the second fixed seat (104211) is located at the board (101)；The swingle (104212) wears described second and consolidated Reservation (104211), its one end is connected with first driving element (10412)；The Suo mouths (104213) are located at the rotation The other end of bar (104212)；Described one end for knitting line pin (104214) is fixed in the Suo mouths (104213), its other end It is connected with the spiral mould (104215)；The spiral mould (104215) wears the top of the molding part (10422).

4. wire mesh weaving machine according to claim 3, it is characterised in that the molding part (10422) includes：3rd fixes Seat (104221) and mould (104222)；3rd fixed seat (104221) is located at the top surface of the board (101), its Positioned at second fixed seat (104211) close to the side for knitting line pin (104214)；3rd fixed seat (104221) Top offer a fixed groove (1042211)；The mould (104222) is fixed on the fixed groove (1042211) in；A shaping groove (1042221) is offered on the mould (104222)；The spiral mould (104215) shaping groove (1042221) is worn.

5. wire mesh weaving machine according to claim 4, it is characterised in that the upper cutter end (1051) includes：4th consolidates Reservation (10511), the first connector (10512) and upper cutter part (10513)；The bottom of 4th fixed seat (10511) It is fixed on the top surface of the board (101)；The 4th fixed seat is fixed in one end of first connector (10512) (10511) top, its other end is located at the top of the mould (104222)；The upper cutter part (10513) wears The one end of first connector (10512) away from the 4th fixed seat (10511)；The bottom of the upper cutter part (10513) Hold as blade end, it is located between first connector (10512) and mould (104222).

6. wire mesh weaving machine according to claim 5, it is characterised in that the lower cutter end (1052) includes：5th consolidates Reservation (10521), the second sliding shoe (10522), incision knife (10523) and the second driving element (10524)；Described second Driving element (10524) is located at the bottom surface of the board (101), and its one end is connected with the controller (102)；Described 5th consolidates Reservation (10521) be located at the board (101) top surface, its be located at the 3rd fixed seat (104221) side and with it is described Second fixed seat (104211) is relative；5th fixed seat (10521) is provided with the second sliding recess along its length (105211), the second sliding shoe (10522) is fixed on second sliding recess (105211)；The incision knife (10523) top of the second sliding shoe (10522) is worn, its top is blade end, its blade end and the upper cutter part (523) blade end is opposite；The bottom of the second sliding shoe (10522) by the top surface of the board (101) wear to bottom surface with The other end connection of second driving element (10524).

7. wire mesh weaving machine according to claim 1, it is characterised in that first power end (1091) includes：First Fixed plate (10911) and the 3rd driving element (10912)；The top of first fixed plate (10911) is perpendicularly fixed at described The bottom surface of board (101)；3rd driving element (10912) is fixed on the medial surface of first fixed plate (10911), its One end is connected with the controller (102)；

First displacement end (1092) includes：Head rod (10921), the 3rd connector (10922) and sidesway plate (10923)；The bottom of the head rod (10921) is connected with the other end of the 3rd driving element (10912), and it is pushed up End is connected with one end of the 3rd connector (10922)；The other end of 3rd connector (10922) and the sidesway plate (10923) connect；The bottom surface of the sidesway plate (10923) fits in the top surface of the sidesway end (1083)；3rd driving Element (10912) drives the sidesway plate (10923) by the head rod (10921) and the 3rd connector (10922) Moved linearly in the top surface of the haul plate (108) along Y-axis.

8. wire mesh weaving machine according to claim 7, it is characterised in that second power end (1101) includes：Second Fixed plate (11011) and the 4th driving element (11012)；The top of second fixed plate (11011) is perpendicularly fixed at described The bottom surface of board (101), it is located at the side of first fixed plate (10911)；4th driving element (11012) is fixed In the medial surface of second fixed plate (11011), its one end is connected with the controller (102)；

Second displacement end (1102) includes：Second connecting rod (11021)；The bottom of second connecting rod (11021) with The other end connection of 4th driving element (11012), its top is connected with first sliding shoe (107)；Described 4th Driving element (11012) drives the haul plate (108) by second connecting rod (11021) and the first sliding shoe (107) Moved linearly along X-axis.

9. wire mesh weaving machine according to claim 8, it is characterised in that the fixing end (1111) includes：3rd fixes Plate (11111) and standing screw (11112)；The haul plate (108) is fixed in the bottom of 3rd fixed plate (11111) One side, itself and the feed end (1081) homonymy；The standing screw (11112) is perpendicularly fixed at the 3rd fixed plate (11111) on, it is located at the top of the haul plate (108)；

The binder end (1112) includes：3rd connecting rod (11121) and holding pad (11122)；3rd connecting rod (11121) one end is sheathed on the standing screw (11112), and the top surface of its other end and the holding pad (11122) connects Connect；The holding pad (11122) is located at the top of the haul plate (108).

10. wire mesh weaving machine according to claim 9, it is characterised in that the fixing end (1111) also includes：Locating part (11113)；The bottom of the locating part (11113) is perpendicularly fixed at the one side of the 3rd fixed plate (11111), and it is located at The top of the standing screw (11112).