CN207971350U - A kind of silk box adjusting apparatus of metal mesh braider - Google Patents

Abstract

The utility model is related to a kind of silk box adjusting apparatus of metal mesh braider,Including rack,Support plate,Movable plate and multiple boxes,Support plate is movably disposed in rack,Each silk box is placed on the supporting plate by location structure,The bottom of silk box is equipped with connecting hole,Movable plate is in the lower section of support plate,It can be arranged in rack up or down,Multiple rotation axis can be rotatably set on movable plate,Rotation axis is driven by actuating unit to be rotated,There are two about the symmetrically arranged connecting rod of its rotation axis for rotation axis tool,Each connecting rod is corresponding with the connecting hole of a silk box of top,Adjacent connecting rod is corresponded with adjacent silk box,Two connecting rods in one rotation axis are corresponding with two adjacent silk boxes,Movable plate moves up in the connecting hole that connecting rod can be made to be inserted into corresponding silk box,Movable plate continues to move up,The silk box of insertion can be pulled away spending fagging.The utility model mechanization degree is high, ensures that the consistency of product is good.

Description

A kind of silk box adjusting apparatus of metal mesh braider

Technical field

The utility model is related to braided metal net field of machines, the silk box adjustment dress of especially a kind of metal mesh braider It sets.

Background technology

Metal mesh is widely used in the fields such as water conservancy, mining industry, oil, building, and the mode of production of traditional galvanized hexagonal wire mesh is main There is positive twist to need one in adjacent two one metal wire bullet is made in advance with two methods of positive reverse lay, positive twirl braider therein Spring shape can just work continuously, and production technology is more complex, while the weaving machine structure is complicated, takes up a large area.In order to which having must Design a kind of completely new plane galvanized hexagonal wire mesh automatic knitting machine

Invention content

In order to simplify production technology, improve processing efficiency, the utility model proposes a kind of silk boxes of metal mesh braider Adjusting apparatus.

To achieve the goals above, the silk box adjusting apparatus of a kind of metal mesh braider provided by the utility model, it is special Sign is, including rack, support plate, movable plate and multiple boxes, support plate are movably disposed in rack, and each silk box is logical It crosses location structure to place on the supporting plate, the bottom of silk box is equipped with connecting hole, and movable plate can be moved up and down in the lower section of support plate Ground is arranged in rack, and multiple rotation axis can be rotatably set on movable plate, and rotation axis is driven by actuating unit to be rotated, rotation Axis tool is there are two about the symmetrically arranged connecting rod of its rotation axis, the connecting hole pair of a silk box of each connecting rod and top It answers, adjacent connecting rod is corresponded with adjacent silk box, two connecting rods in a rotation axis and two adjacent silk boxes Corresponding, movable plate moves up in the connecting hole that connecting rod can be made to be inserted into corresponding silk box, and movable plate continues to move up, The silk box of insertion can be pulled away spending fagging.

The silk box adjusting apparatus of metal mesh braider provided by the utility model, adjacent two silk boxes form a team to supply two-by-two Silk thread makes by the tight fit of support plate and movable plate, it can be achieved that silk box is alternately formed a team with two adjacent silk boxes two-by-two Two adjacent one metal wires are not only convenient for back-outing net knot, but also the wire not yet woven is made not tangle and knot.This practicality is new Type provides the structure for simplifying conventional braiding machine, greatly saves manpower, improves netting efficiency, and mechanization can guarantee the consistent of product Property, improve product quality.

Description of the drawings

Fig. 1 is to twist silk device structural schematic diagram；

Fig. 2 is the vertical view of Fig. 1；

Fig. 3 is the A-A of Fig. 1 to cut-away illustration；

Fig. 4 is half-and-half bearing structure sectional view；

The structural schematic diagram of Fig. 5 plane galvanized hexagonal wire mesh automatic knitting machines；

Fig. 6 is the structure enlarged view of the silk box adjusting apparatus in Fig. 5；

Fig. 7 is the vertical view of Fig. 5；

Fig. 8 is the structure enlarged view of the stubborn silk device in Fig. 7；

Fig. 9 is the B of the silk box adjusting apparatus in Fig. 5 to structure enlarged view；

Figure 10 is a working state figure for twisting silk device；

Figure 11 is a working state figure of silk box adjusting apparatus；

Figure 12 is another working state figure of silk box adjusting apparatus.

The utility model is described in further detail below in conjunction with the accompanying drawings.

Specific implementation mode

Referring to Fig. 5 and Fig. 7, plane galvanized hexagonal wire mesh automatic knitting machine includes twisting silk device and silk box adjusting apparatus.Referring to Fig. 1 and Fig. 2, stubborn silk device include rack 1, upper beam 11, bottom end rail 12 and semiaxis bearing structure 2.Upper beam 11 and the setting of bottom end rail 12 exist In rack 1, it can move back and forth with respect to rack 1, bottom end rail 12 is close to upper beam 11 on contact plane and is mounted on upper beam 11 Lower section.The both ends of upper beam 11 are separately connected two upper electric pushrods 13, and the both ends of bottom end rail 12 are separately connected electricity under two Dynamic push rod 14, upper electric pushrod 13 and lower electric pushrod 14 by rack 1 hydraulic cylinder or pneumatic linear actuator drive, to make It obtains upper beam 11 and bottom end rail 12 can respectively individually opposite rack 1 move back and forth.

It is equidistantly provided with each along its moving direction (left and right directions in Fig. 1) on upper beam 11 and bottom end rail 12 more A semiaxis bearing structure 2, the distance between two neighboring semiaxis bearing structure 2 and on bottom end rail 12 two neighboring half on upper beam 11 The distance between bearing arrangement 2 is equal.2 quantity of semiaxis bearing structure on upper beam 11 and the semiaxis bearing structure 2 on bottom end rail 12 Quantity differ one, in the present embodiment the former one more than the latter, can also be the former one fewer than the latter.

Referring to Fig. 3 and Fig. 4, semiaxis bearing structure 2 includes bearing outer ring 21 and bearing inner race 22, and bearing outer ring 22 is fixed on It, can be as opposite rack 1 moves back and forth together for upper beam 11 or bottom end rail 12 on crossbeam 11 or bottom end rail 12.Bearing inner race 22 is set It sets in the inside of bearing outer ring 21, is limited between upper beam 11 and bottom end rail 12, can be moved together with bearing outer ring 21. Bearing outer ring 21 can be rotated relative to bearing outer ring 21 around its shaft.Bearing inner race 22 is semi-cylindrical, is equipped with the silk thread of perforation Hole 23, thread-hole 23 is axially extending along bearing inner race 22, and its axis is on the plane of symmetry of bearing inner race 22, each An one metal wire is worn in thread-hole 23.Bearing inner race 22 is equipped with half coaxial gear 28, and half gear 28 is a complete gear wheel It is averagely cutd open by the plane for crossing its shaft and is formed for two halves.Half gear 28 is driven by rotary drive mechanism to be rotated, rotary drive mechanism Including upper drive mechanism and lower drive mechanism.Upper drive mechanism is mounted on upper beam 11, for driving the axis on upper beam 11 Hold half gear 28 on inner ring 22；Lower drive mechanism is mounted on bottom end rail 12, for driving the bearing inner race on bottom end rail 12 Half gear 28 on 22.Half gear 28 drives bearing inner race 22 to rotate together again.Can by mobile upper beam 11 or bottom end rail 12, The rotary shaft of the bearing inner race 22 on upper beam 11 is set to be overlapped two-by-two with the rotary shaft of the bearing inner race 22 on bottom end rail 12, at this time State is as shown in Figure 1.At this point, each bearing inner race 22 on bottom end rail 12, respectively mounted on upper beam 11 On bearing inner race 22 underface, stick together and rotate overlapping of axles in two bearing inner races 22 of upper and lower respectively, A complete circular shaft is constituted, half gear 28 combination on two bearing inner races 22 constitutes a complete gear.

Referring to Fig. 2, upper drive mechanism includes upper motor 31, upper ball screw 32, top nut 33, upper rail 34, top shoe 35 and upper rack 36.Upper motor 31 and upper rail 34 are fixedly mounted on upper beam 11, and upper motor 31 is servo motor.Upper ball Lead screw 32 is installed in rotation on upper beam 11, is connect with the shaft of upper motor 31, is coordinated with top nut 33.33 He of top nut Top shoe 35 is slidably mounted on upper rail 34, can be slidably reciprocated on upper rail 34.Upper rack 36 and top nut 33 and Top shoe 35 connects, and is engaged with half gear 28 on the bearing inner race 22 on upper beam 11.Upper motor 31 drives Upper ball screw 32 rotates, and top nut 33 drives top shoe 35 and upper rack 36 to move back and forth together in upper rail 34, drive with Half gear 28 rotation that upper rack 36 engages, to drive the bearing inner race 22 being mounted on upper beam 11 to rotate.Lower driving machine Structure is mounted on bottom end rail 12, for driving half gear 28 on the bearing inner race 22 on bottom end rail 12.Lower driving machine Structure structure is identical as upper drive mechanism, including lower motor, lower ball screw, lower nut, lower guideway, sliding block and lower rack.Under Motor and lower guideway are fixedly mounted on bottom end rail 12, and lower motor is servo motor.Lower ball screw is installed in rotation on down It on crossbeam 12, connect with the shaft of lower motor, coordinates with lower nut.Lower nut and sliding block are slidably mounted in lower guideway On, it can slidably reciprocate on lower guideway.Lower rack is connect with lower nut and sliding block, and with the axis on bottom end rail 12 Hold half gear 28 engagement on inner ring 22.The lower lower ball screw rotation of motor driving, lower nut drive sliding block and lower rack one It rises and moves back and forth on lower guideway, half gear 28 rotation engaged with lower rack is driven, to drive the axis on bottom end rail 12 Hold the rotation of inner ring 22.Half gear 28 on bottom end rail 12 is consistent with half gear, 28 direction of rotation on upper beam 11, is all up time Needle direction is all counterclockwise, to drive rotation overlapping of axles, the bearing inner race on upper beam and bottom end rail respectively 22 rotate together about the rotary shaft overlapped, and two wires passed through from two bearing inner races 22 is made to twine Around silk effect is twisted in realization.

Referring to Fig. 4, the cylindrical surface of bearing inner race 22 is equipped with inboard raceways 224, and inboard raceways 224 are with bearing inner race 22 Extend in the semi-circumference of axis centered on shaft, inboard raceways 224 are recessed into bearing inner race 22, the shape phase of shape and ball 24 Adaptation, ball 24 can roll on it.Bearing outer ring 21 is being equipped with outboard raceway 212 on the cylindrical surface of bearing inner race 22, Outboard raceway 212 inboard raceways 224 radial outside, and centered on by the shaft of bearing inner race 22 axis be less than semicircle Extend on the circular arc in week, outboard raceway 212 constitutes interior rollaway nest together with the inboard raceways part of its radial face.Bearing outer ring 21 Equipped with outer rollaway nest 211 inside it, the outside of the raceway 212 on the outside of outer rollaway nest 211, cross section is circle.Interior rollaway nest with The connection of outer rollaway nest 211 constitutes the raceway of head and the tail connection, and rotatable ball 24 is filled in raceway.When bearing inner race 22 is around its turn When axis is rotated relative to bearing outer ring, ball 24 rolls in raceway.

13 1 stretchings of upper electric pushrod of 11 one end of upper beam, the upper electric pushrod 13 of the other end is retracted, horizontal in promotion Beam 11 moves reciprocatingly in horizontal direction as shown in Figure 1, and motion range is just in two neighboring bearing on upper beam 11 Enclose the half of 22 rotary shaft distances.Upper beam 11 is by rack 1 and the upper electromagnet mounting blocks 15 being fixedly mounted on upper beam 11 It limits, when upper electromagnet mounting blocks 15 contact i.e. stop motion with rack 1.Upper beam 11 is further driven to semiaxis on it Bearing structure moves together.Equally, the lower electric pushrod 14 of 12 one end of bottom end rail stretches out, and the lower electric pushrod 14 of the other end is retracted, Push bottom end rail 12 in horizontal direction as shown in Figure 1 along moving reciprocatingly, motion range is just adjacent two on bottom end rail 12 The half of 22 rotary shaft distance of a bearing inner race.By rack 1 and the lower electromagnet mounting blocks 16 being fixedly mounted on bottom end rail 12 It limits, when lower electromagnet mounting blocks 16 contact i.e. stop motion with rack 1.Bottom end rail 12 is further driven to semiaxis on it Bearing structure moves together.And when upper beam 11 is in right end extreme position, then bottom end rail 12 is in the limit of left end Position (as shown in Figure 1)；When upper beam 11 is in right end extreme position, then bottom end rail 12 is in the extreme position of left end (as shown in Figure 10).Electromagnet 1, upper beam 11 are both provided in upper electromagnet mounting blocks 15 and lower electromagnet mounting blocks 16 With iron plate 18 is both provided on bottom end rail 12, when upper beam 11 and bottom end rail 12 are in above-mentioned extreme position, on upper beam 11 Electromagnet 1 and bottom end rail 12 on iron plate 18, the iron plate 18 on upper beam 11 just locating with electromagnet 1 on bottom end rail 12 In upper and lower.When upper beam 11 and bottom end rail 12 need relative motion, electromagnet 1 powers off, electromagnet 1 and iron plate 18 It is unattractive；When upper beam 11 and bottom end rail 12 move to required position, electromagnet 1 is powered, electromagnet 1 and iron Plate 18 is attractive, can enhance upper beam 11 and about 12 two-part conjunction clamp force of bottom end rail.

Referring to Fig. 5 and Fig. 8, stubborn silk device further include it is rotatable walk net cylinder 3.Net cylinder 3 is walked to be arranged in bearing inner race 22 side is cylindrical shape, and multiple rows of stubborn adjusting screw 31 is equipped on its cylindrical surface, often arranges and twists adjusting screw 31 along walking net cylinder 3 Central axial direction have an arrangement, the positions of adjacent two rows of stubborn adjusting screws 31 are interleaved, i.e., adjacent two rows of stubborn adjusting screws 31 are not same On one circumference.

Referring to Fig. 5,6 and 7, silk box adjusting apparatus is inclined at stubborn silk device side, and silk box adjusting apparatus is justified with net is walked Column 3 is respectively in the both sides for twisting silk device.Referring to 6 and Fig. 9, silk box adjusting apparatus includes the branch being movably disposed in rack 1 The both ends of fagging 61, support plate 61 are separately connected an electric pushrod 62, and electric pushrod 62 is by the hydraulic cylinder in rack 1 Or pneumatic linear actuator driving, the left and right directions that electric pushrod 62 can push support plate 61 shown in Fig. 9 moves back and forth, motion range by Limited block 63 determines.Each silk box 5 is placed on by location structure in support plate 61.Location structure is electromagnet 51, electromagnet 51 magnet and iron plate are separately fixed in the bottom plate of support plate 61 and silk box 5.When silk box 5 needs to move together with support plate 61 When, electromagnet 51 is powered, and a box 5 and the relative position of support plate 61 is made to fix；When the needs of silk box 5 are separated with support plate 61, Electromagnet 51 powers off.Location structure can also be on the specific position for not only making a box 5 that can be placed in support plate 61 but also make a box 5 It is separated from the other structures of support plate 61 under external force, for example the locating slot in support plate 61 is set.In the bottom of silk box 5 Heart position is equipped with rectangular connecting hole 52.

Movable plate 71 can be up or down arranged in rack 1 in the lower section of support plate 61, movable plate 71 and the two of lower section A electric pushrod 2 72 connects, and electric pushrod 2 72 is driven by being mounted on hydraulic cylinder or pneumatic linear actuator in rack 1, electric pushrod 2 72 Movable plate 71 can be pushed to move up and down.Multiple rotation axis 73 are rotatably installed in by bearing on movable plate 71, opposite can be moved Movable plate 71 rotates, and is driven and is rotated by actuating unit, and can be moved up and down with respect to rack 1 with movable plate 71.Rotation axis 73 is inclined Tiltedly setting forms acute angle with vertical plane, this can conveniently twist silk device and twist wire.There are two connect the top tool of each rotation axis 73 Extension bar 74, connecting rod 74 are symmetrical arranged about the rotation axis of rotation axis 73.Connecting rod 74 is that cross section is rectangular solid hopkinson bar, Its shape and the connecting hole 52 of silk box 5 match, and connecting rod 74 can be inserted into connecting hole 52, drive silk box 5 around rotation axis 73 Rotation axis rotation.Each connecting rod 74 corresponding with the connecting hole 52 of a silk box 5 of top, adjacent connecting rod 74 and phase Adjacent silk box 5 corresponds, and two connecting rods 74 in a rotation axis 73 are corresponding with two adjacent silk boxes.In Fig. 9 in addition to Outside one silk box 5 of right part, other silk boxes are corresponding with a connecting rod 74.It is moved up, can be made by movable plate 71 Connecting rod 74 is inserted into the connecting hole of corresponding silk box, and in Fig. 9 other than a silk box of right part, other silk boxes are equal It is inserted into a connecting rod 74.Movable plate 71 continues to move up, and the silk box 5 of insertion can be pulled away spending fagging 61, state is as schemed Shown in 11.

Each rotation axis 73 can be up or down arranged in an axle sleeve 75, cannot be rotated relative to axle sleeve 75, rotation axis 73 use ball spline shaft.Axle sleeve 75 can be rotatably set in rack 1, and axle sleeve 75 is by being arranged the actuating unit in rack 1 Driving rotation, rotation axis 73 are rotated with axle sleeve 75.Actuating unit includes motor 76, driving shaft 77 and toothed belt transmission The lower end of structure, driving shaft 77 is connect by shaft coupling with the shaft of motor 76, and upper end is connect with one of axle sleeve 75, motor 76, which directly drive an axle sleeve 75, rotates, which drives the rotation axis 73 in it to rotate.There are two same for dress on each axle sleeve 75 Belt wheel is walked, adjacent two axle sleeves 75 realize driving of the motor 76 to all axle sleeves by toothed belt transmission structure driven.With The rotation of axle sleeve, the two silk boxes 5 filled in every rotation axis 73 also rotate together.Motor 76 uses servo motor.This implementation Example can be such that actuating unit is arranged in rack, without being provided in movement by the cooperation between axle sleeve 75 and rotation axis 73 On plate 71, the weight of movable plate 71 can be mitigated, keep moving up and down for movable plate 71 more steady reliable, and movable plate 71 is upper Lower movement will not interfere actuating unit.Actuating unit can also be arranged on movable plate 71, by the active of actuating unit Axis is directly connected to a rotation axis to drive the rotation axis to rotate, and two neighboring rotation axis passes through toothed belt transmission structure driven.

The course of work of plane galvanized hexagonal wire mesh automatic knitting machine is briefly explained below in conjunction with the accompanying drawings.

It is wrapped on an axis 9 per one metal wire 10, in silk box 5, is pierced by from the aperture on 5 lid of silk box, so The thread-hole 23 on bearing inner race 22, the aperture being then passed through on collet 4, collet 4 is passed through to be used for keeping wire afterwards Tensile force.A rule of wearing for wire 10 is：Uppermost two silk boxes 5a, 5b partner in Fig. 7, uppermost installation Bearing inner race 22 on upper beam 11 and bottom end rail 12 partners, and the wire 10 being pierced by from 5a boxes penetrates upper beam Uppermost bearing inner race 22 in 11 Fig. 7 penetrates uppermost axis in 12 Fig. 7 of bottom end rail from the wire 10 being pierced by 5b boxes Hold inner ring 22.The wire 10 being pierced by from silk box 5 adjacent successively carries out wearing silk according to above-mentioned rule.With walking net cylinder 3 rotation twists adjusting screw 31 and just the node of metal mesh is pushed to be rotated together with net cylinder 3 is walked, to make just woven metal Net moves forward, while wire 10 being pulled out from the thread-hole 23 of bearing inner race 22, and in the stubborn silk effect for twisting silk device It is lower to form new node.

It before starting netting, is worn after a rule completion wears silk according to above-mentioned, in the exit of collet 4 by wire It is connected on one section of existing metal mesh according to the requirement of netting, and the metal mesh is mounted on away on net cylinder 3.As shown in Figure 1, Upper beam 11 is in right end, and upper rack 36 is in left end, and bottom end rail 12 is in left end, and lower rack is in right end, electricity Magnet 1 is powered.As shown in figure 9, support plate 61 is in right end, electromagnet 51 powers off.Electric pushrod 2 72 stretches out, mobile Plate 71 is moved to topmost, and silk box is pulled away spending fagging 61 by connecting rod 74, as shown in figure 11.

Start and walk net cylinder 3, acted on by twisting adjusting screw 31 at the node of metal mesh and metal mesh is driven to move forward, and will Wire is pulled out from the hole of collet 3, while starting upper motor 31 and lower motor, drives upper rack 36 according to shown in Fig. 1 Move right, drive lower rack according to being moved downward shown in Fig. 1, so drive two bearing inner races 22 to contact around Its axis is according to Fig. 1 clockwise rotations, to make wire form node in the exit of collet 3, by accurate The rotating speed of net cylinder 3 is walked in control, is controlled the speed of wire vent, and coordinate with the rotary speed of bearing inner race 22, is made the gold produced Belong to net to meet the size requirements.Also start motor 76 simultaneously, drives two silk boxes 5 in same root rotation axis 73 around rotation The rotation axis of axis 73 does clockwise rotation shown in Fig. 7, and velocity of rotation is identical as the rotary speed of bearing inner race 22. It is installed since rotation axis 73 tilts, when two one group of bearing inner race 22 and two one group of silk box 5 do synchronous rotary movement, Not only it can guarantee and formed node in the exit of collet 4, but also the wire drawn from silk box 5 is made not tangle and knot.

As shown in figure 5, by being accurately controlled, after completing the integer circle needed for metal mesh node, bearing inner race 22 When contact surface turns to level, upper motor 31 stops, and upper rack 36 is in right end, and lower rack is in left end, electromagnet one 17 power-off.Meanwhile all silk boxes 5 are also just in alignment, motor 76 stops at this time.

Then the upper electric pushrod 13 of 11 right end of upper beam stretches out, and the upper electric pushrod 13 of left end is retracted, and upper beam 11 is made In left end, while the lower electric pushrod 14 of 12 left end of bottom end rail stretches out, and the lower electric pushrod 14 of right end is retracted, and bottom end rail is made 12 are in right end, and electromagnet 1 is powered, as shown in Figure 10.Meanwhile electric pushrod 2 72 is retracted, movable plate 71 is moved to most Lower end, silk box 5 are fallen in support plate 61, and electromagnet 51 is powered, and the electric pushrod 62 of 61 right end of support plate stretches out, left end it is electronic Push rod 62 is retracted, and support plate 61 is in left end, as shown in figure 12.Electromagnet 51 powers off later, and electric pushrod 2 72 stretches out, and moves Movable plate 71 is in topmost.So as to complete adjacent bearing inner race 22 reconfigure two-by-two and corresponding silk box 5 two Two reconfigure.

Then start upper motor 31 and lower motor simultaneously, drive upper rack 36 to be moved downward according to shown in Figure 10, under drive Rack is moved right according to shown in Figure 10, and then drives two bearing inner races 22 to contact around its axis according to Figure 10 Counter-clockwise rotary motion, to make wire form new node in the exit of collet 3.It is anti-also to start motor 76 simultaneously Turn, two silk boxes 5 in same root rotation axis 73 is driven to do rotation counterclockwise shown in Fig. 7 around the rotation axis of rotation axis 73 Transhipment is dynamic, and velocity of rotation is identical as the rotary speed of bearing inner race 22.By being accurately controlled, when completion metal mesh node institute After the integer circle needed, when the contact surface of bearing inner race 22 turns to level, upper motor 31 and lower motor stop, and bearing inner race 22 stops Rotation stop is dynamic, the left end that upper rack 36 is in, and lower rack is in right end, and electromagnet 1 powers off.Meanwhile motor 76 stops. Then the upper electric pushrod 13 of 11 left end of upper beam stretches out, and the upper electric pushrod 13 of right end is retracted, and upper beam 11 is made to be in most right End, while the lower electric pushrod 14 of 12 right end of bottom end rail stretches out, the lower electric pushrod 14 of left end is retracted, and bottom end rail 12 is made to be in most Left end, electromagnet 1 are powered, as shown in Figure 1.Meanwhile electric pushrod 2 72 is retracted, movable plate 71 is moved to bottom, silk box 5 fall in support plate 61, and electromagnet 51 is powered, and the electric pushrod 62 of 61 left end of support plate stretches out, and the electric pushrod 62 of right end contracts It returns, support plate 61 is in right end, as shown in Figure 9.Electromagnet 51 powers off later, and electric pushrod 2 72 stretches out, at movable plate 71 In topmost, silk box is pulled away into spending fagging 61.So as to complete adjacent bearing inner race 22 reconfigure two-by-two and it is right The silk box 5 answered reconfigures two-by-two.So far the production of a hexagonal gridding is completed.Above-mentioned process is repeated, until completing whole The braiding of a metal mesh.The metal mesh woven can be also rolled into cylindric by reel wire mechanism.

The rotary drive mechanism for twisting silk device drives bearing inner race, so that two adjacent wires is back-outed net knot, by upper Crossbeam and bottom end rail drive bearing inner race movement, can make the combination of two again of adjacent bearing inner race on upper beam and bottom end rail, So that wire alternately back-outs net knot with two adjacent wires.Silk box adjusting apparatus makes two adjacent silk boxes group two-by-two Team supplies silk thread, by the tight fit of support plate and movable plate, it can be achieved that silk box alternately with two adjacent silk boxes two-by-two It forms a team, makes two adjacent one metal wires not only be convenient for back-outing net knot, but also the wire not yet woven is made not tangle and knot.This Utility model provides the structure for simplifying conventional braiding machine, greatly saves manpower, improves netting efficiency, and mechanization can guarantee product Consistency, improve product quality.

Certainly, the invention is not limited to the above embodiment, and those skilled in the art are without prejudice to originally Equivalent variations or replacement can be also made under the premise of spirit, these equivalent deformations or replacement are all contained in the application right It is required that in limited range.

Claims (4)

1. a kind of silk box adjusting apparatus of metal mesh braider, which is characterized in that including rack (1), support plate (61), movable plate (71) it is movably disposed in rack (1) with multiple boxes (5), support plate (61), each silk box (5) is put by location structure It sets in support plate (61), the bottom of silk box (5) is equipped with connecting hole (52), and movable plate (71), can in the lower section of support plate (61) It is arranged up or down in rack (1), multiple rotation axis (73) can be rotatably set on movable plate (71), rotation axis (73) It is driven and is rotated by actuating unit, there are two rotation axis (73) tools about the symmetrically arranged connecting rod of its rotation axis (74), each Connecting rod (74) is corresponding with connecting hole (52) of a silk box of top, and adjacent connecting rod (74) and adjacent silk box one are a pair of It answers, two connecting rods (74) on a rotation axis (73) are corresponding with two adjacent silk box (5), and movable plate (71) moves up Connecting rod (74) can be made to be inserted into the connecting hole of corresponding silk box, movable plate continues to move up, can be the silk box of insertion Pull away spending fagging (61).

2. the silk box adjusting apparatus of metal mesh braider according to claim 1, which is characterized in that the actuating unit is set It sets in rack, including motor, driving shaft and belt transmission structure, rotation axis (73) can be arranged up or down in an axle sleeve (75) it in, cannot be rotated relative to axle sleeve (75), axle sleeve (75) can be rotatably set in rack (1), driving shaft driving wherein one A axle sleeve (75) rotation, adjacent two axle sleeves (75) are driven by belt transmission structure.

3. the silk box adjusting apparatus of metal mesh braider according to claim 2, which is characterized in that the rotation axis is rolling Spline axis.

4. the silk box adjusting apparatus of metal mesh braider according to claim 3, which is characterized in that the location structure is Electromagnet, the magnet of electromagnet and iron plate are separately fixed in the bottom plate of support plate and silk box.