CN2541501Y

CN2541501Y - Reversely assembling packing braider

Info

Publication number: CN2541501Y
Application number: CN 02205863
Authority: CN
Inventors: 赵津华; 辛庆乐
Original assignee: XINZHONG MACHINERY PLANT TIANJIN CITY
Current assignee: XINZHONG MACHINERY PLANT TIANJIN CITY
Priority date: 2002-03-06
Filing date: 2002-03-06
Publication date: 2003-03-26
Anticipated expiration: 2012-03-06

Abstract

The utility model relates to an upside-down mounting root-rolling braiding machine of which the power part comprises an electric motor and a speed reducer. The braiding part of the utility model comprises a braiding bench bottom board, a braiding bench front plate, a transmission gear, an ingot feeding gear, an ingot feeding plate with a gathering tooth notch and a spindle, wherein the braiding bench bottom board, the braiding bench front plate, the transmission gear, the ingot feeding gear, the ingot feeding plate and the spindle are all arranged above the machine bench board. A disk surface is faced towards the bottom, and the spindle tail of the spindle is arranged inside the braiding bench front plate. The gear is driven and drawn by a fixed gear, thereby the braids are drawn via card clothing on a traction wheel. Changing the mode of the prior machine, the utility model avoids the dust and floccules fiber from falling on the parts just like disk surface, the gear and the like, thereby the abrasion of the disk surface is reduced, the resistance is decreased, and the strength forced on the braid is even, further the pendant type spindle leads to the force evenly on the braid.

Description

Flip-over type packing braiding machine

Technical field

The utility model relates to a kind of packing braiding machine, relates in particular to a kind of flip-over type packing braiding machine.

Background technology

The equipment of braiding packing, cable and the automotive hose that generally uses mostly is vertical and horizontal braiding machine at present.The bottom of vertical braiding machine is hired thug and power section, and the middle part is a knitted parts, and work top becomes level, and top is traction element.The work top of horizontal braiding machine is perpendicular to the ground, and traction element is that level involves.No matter be the vertical or horizontal chain drive of all adopting, resistance is big, unbalance stress, the product irregularity of braiding, inhomogeneous.The card wearing and tearing of vertical packing braiding machine that are used for asbestos packing braiding are very serious, and dust and the wadding fibrous positions such as card, gear of dropping on, and make resistance increase the service life of having reduced machine.

Summary of the invention

Main purpose of the present utility model is to change original machine version and avoids dust and the wadding fibrous positions such as card, gear of dropping on, reduce card wearing and tearing, reduce resistance and make braided fabric stressed evenly, improve the service life of machine, a kind of flip-over type packing braiding machine is provided.

The technical scheme that its technical problem that solves the utility model adopts is:

The power section of forming by motor and reductor.By braiding platform base plate, braiding deck plate, travelling gear, send the knitted parts that send ingot plate and spindle to form of ingot gear, band moving tooth mouth.

Braiding platform base plate, braiding deck plate, travelling gear, the top of sending the ingot gear, sending ingot plate and spindle to be arranged on the board face, card down, the ingot tail of spindle is arranged in the braiding deck plate.One end of final drive shaft fixedly installs bevel gear, and the bevel gear of bevel gear and reductor output is to engagement.

Motor drives reductor by the transmission of V-belt, and reductor is given final drive shaft by a pair of bevel gear with transmission of power.

The middle part of final drive shaft fixedly installs worm screw, and the other end of final drive shaft fixedly installs handwheel and travelling gear.Fixedly install separately at the both ends of power transmission shaft and to send the ingot plate and send the ingot gear to constitute and send ingot plate group, send ingot plate group to be arranged between braiding platform base plate and the braiding deck plate, send several are set on ingot plate send the ingot groove, send the ingot gear to be meshed with travelling gear by several.

Between braiding deck plate and braiding platform base plate, power transmission shaft is housed, be equipped with on the power transmission shaft and send the ingot gear and send the ingot plate, send the ingot plate and send ingot gear riveted joint back with sending the ingot gear to rotate (driving) by the travelling gear on the final drive shaft, send and respectively send the ingot groove on circumference, evenly to distribute on the ingot plate, the adjacent ingot plate that send docks mutually, every butt joint is once finished and is once sent the ingot action, send the benefit of ingot plate butt joint to be to make the spindle stressed position consistency in end that is in operation, each spindle is stressed evenly, has solved because of sending the ingot Board position just to differ and has caused the problem of spindle discontinuity.

But send the setting of ingot plate group rectangular arranged by several, and make and send the ingot gear that send of ingot plate group to be meshed.

But send the setting of ingot plate group annular array by several, and make and send the ingot gear that send of ingot plate group to be meshed.

Final drive shaft drives travelling gear, travelling gear drives one group and send the ingot gear to send the ingot plate to rotate (send the ingot gear and send the ingot plate coaxial rotation that becomes one after riveted joint), sending between the ingot gear is to be meshing with each other, every pair of gear is all done rightabout running, make the spindle that is installed in the card below along with the motion of sending the ingot plate, move along the direction of the closed orbit battle array of braiding deck plate by the transmission of sending ingot tooth mouth.

Braiding has on the deck plate each other to intersect the straight line and circular-arc waveform groove that tangent line connects, and waveform groove mainly is to be used to guide spindle route in accordance with regulations to slip, and round machine is that two W shapes are passed through waveform groove mutually, and the square machine is that two or more O type groove passes through mutually and forms.

Worm gear is set coaxial secured in parallel and change gear constitutes transition dual gear group, and worm gear is meshed with the worm screw at final drive shaft middle part.Output gear is set coaxial secured in parallel and fixed gear constitutes even gear train of output two, and output gear is meshed with the change gear of transition gear group.Traction gear is set coaxial secured in parallel and card clothing constitutes traction wheel, and several traction wheels are set, and the traction gear of traction wheel is arranged engagement relatively, and the traction gear of traction wheel is meshed with fixed gear.

Worm screw on the final drive shaft drives worm gear and reaches the fixed gear coaxial with output gear with output gear that coaxial change gear motion of worm gear and drive are meshed with change gear, drive traction gear by fixed gear, braided fabric is pulled out by the card clothing on the traction wheel.

One end of yarn tube bar is fixedly installed on a side of ingot tail, and the other end of yarn tube bar is provided with yarn tube carriage, and yarn tube carriage one side is established replacement yarn-rod, and the yarn jacket casing is contained on the yarn tube bar.One end of slideway is fixedly installed on the opposite side of ingot tail, and the top of slideway is provided with pulley and spindle ram, and a side of spindle ram is provided with the clinching of yarn tube, and the middle part of slideway fixedly installs the magnetic eye.The bottom of slideway fixedly installs output magnetic eye, and spindle weighs down stone roller to be placed in the slideway, and the bottom of spindle bob stone roller is provided with weighs down the stone roller pulley.

The yarn jacket casing that twines full braiding base material on yarn tube bar, with the position of yarn tube carriage fixed yarn tube, around rising by yarn bar and pass from porcelain eye, is weighed down that spindle on the stone roller weighs down the stone roller pulley, pulley passes with base material from the output porcelain eye through spindle.Spindle bob stone roller drives the spindle ram when moving upward to certain distance and moves upward, yarn tube clinching on the spindle ram is upwards lifted, the yarn tube is weighed down under the gravity compressing of cutting or polish jade with an emery wheel at spindle to rotate, when weighing down stone roller, spindle falls downwards when separating with the spindle ram, the yarn tube is blocked in the clinching of yarn tube, stops operating, and braiding base material drive spindle weighs down to cut or polish jade with an emery wheel and moves up and down in the braiding process, motion makes the spindle line sending even so repeatedly.

The utility model is a flip-over type packing braiding machine.Change original machine version, avoid dust and the wadding fibrous positions such as card, gear of dropping on, reduce card wearing and tearing, reduce resistance and make braided fabric stressed evenly, improve the service life of machine.Simple in structure, topology layout is reasonable.Weigh down stone roller formula spindle and make braided fabric stressed evenly, the product design of braiding is attractive in appearance, smooth.Through test, meet related standard requirements.

Description of drawings

Below in conjunction with drawings and Examples the utility model is described in detail.

The transmission schematic diagram of Fig. 1 flip-over type packing braiding machine

Fig. 2 flip-over type packing braiding machine the vertical view of traction transmission

Fig. 3 flip-over type packing braiding machine the vertical view of traction transmission

The spindle running rail distribution map of Fig. 4 flip-over type packing braiding machine

The spindle running rail distribution map of Fig. 5 flip-over type packing braiding machine

The spindle running rail distribution map of Fig. 6 flip-over type packing braiding machine

The spindle running rail distribution map of Fig. 7 flip-over type packing braiding machine

The front view of the spindle of Fig. 8 flip-over type packing braiding machine

The side view of the spindle of Fig. 9 flip-over type packing braiding machine

1 braiding platform base plate, 2 send the ingot gear, and 3 send the ingot plate, 4 spindles, 5 travelling gears, 6 braiding deck plates, 7 handwheels, 8 worm screws, 9 change gears, 10 worm gears, 11 output gears, 12 fixed gears, 13 ingot tails, 14 slideways, 15 traction gears, 16 bevel gears, 17 V-belts, 18 motor, 19 reductors, 20 final drive shafts, 21 yarn tubes, 22 yarn tube bars, 23 yarn tube carriages, 24 yarn bars, 25 output porcelain eyes, 26 weigh down the stone roller pulley, 27 spindles weigh down stone roller, 28 porcelain eyes, 29 spindle rams, 30 pulleys, 31 yarn tube clinchings, 32 send the ingot groove, 33 traction wheels, 34 send ingot plate group, 35 card clothing

The specific embodiment

Embodiment 1

The power section of forming by motor 18 and reductor 19.The knitted parts that send ingot gear 2, send ingot plate 3 and spindle 4 to form by braiding platform base plate 1, braiding deck plate 6, travelling gear 5, band moving tooth mouth 32.Braiding platform base plate 1, braiding deck plate 6, travelling gear 5, the top of sending ingot gear 2, sending ingot plate 3 and spindle 4 to be arranged on the board face, card down, the ingot tail 34 of spindle 4 is arranged in the braiding deck plate 6.One end of final drive shaft 20 fixedly installs bevel gear 16, and the bevel gear of bevel gear 16 and reductor 19 outputs is to engagement.Motor 18 drives reductor by the transmission of V-belt 17, and reductor is given final drive shaft 20 by a pair of bevel gear 16 with transmission of power, as shown in Figure 1.

The middle part of final drive shaft 20 fixedly installs worm screw 8, and the other end of final drive shaft 20 fixedly installs handwheel 7 and travelling gear 5.Fixedly install separately at the both ends of power transmission shaft and to send ingot plate 3 and send ingot gear 2 to constitute and send ingot plate group 34, send ingot plate group 34 to be arranged between braiding platform base plate 1 and the braiding deck plate 6 by 16, send to be provided with 6 on the ingot plate 3 and to send ingot groove 32, send ingot gear 2 to be meshed, as shown in Figure 4 with travelling gear 5.

Between braiding deck plate 6 and braiding platform base plate 1, power transmission shaft is housed, be equipped with on the power transmission shaft and send ingot gear 2 and send ingot plate 3, send ingot plate 3 and send ingot gear 2 riveted joint backs with sending ingot gear 2 to rotate (driving) by the travelling gear on the final drive shaft 20 5, send and respectively send ingot groove 32 on circumference, evenly to distribute on the ingot plate 3, the adjacent ingot plate 3 that send docks mutually, every butt joint is once finished and is once sent the ingot action, send the benefit of ingot plate 3 butt joint to be to make the spindle 4 stressed position consistency in end that is in operation, each spindle 4 is stressed even, has solved because of sending ingot plate 3 positions just to differ and has caused the problem of spindle 4 discontinuity.

But send ingot plate group 34 rectangular arranged settings by 16, and make and send the ingot gear 2 that send of ingot plate group 34 to be meshed, as shown in Figure 4.

Final drive shaft 20 drives travelling gear 5, travelling gear 5 drives one group and send ingot gear 2 to send ingot plate 3 to rotate (send ingot gear 2 and send ingot plate 3 coaxial rotation that becomes one after riveted joint), sending 2 of ingot gears is to be meshing with each other, every pair of gear is all done rightabout running, make the spindle 4 that is installed in the card below along with the motion of sending ingot plate 3, move along the direction of the closed orbit battle array 33 of braiding deck plate 6 by the transmission of sending ingot tooth mouth 32, as shown in Figure 4.

Embodiment 2

The middle part of final drive shaft 20 fixedly installs worm screw 8, and the other end of final drive shaft 20 fixedly installs handwheel 7 and travelling gear 5.Fixedly install separately at the both ends of power transmission shaft and to send ingot plate 3 and send ingot gear 2 to constitute and send ingot plate group 34, send ingot plate group 34 to be arranged between braiding platform base plate 1 and the braiding deck plate 6 by 9, send to be provided with 4 on the ingot plate 3 and to send ingot groove 32, send ingot gear 2 to be meshed, as shown in Figure 5 with travelling gear 5.

Between braiding deck plate 6 and braiding platform base plate 1, gear shaft is housed, be equipped with on the gear shaft and send ingot gear 2 and send ingot plate 3, send ingot plate 3 and send ingot gear 2 riveted joint backs with sending ingot gear 2 to rotate (driving) by the travelling gear on the final drive shaft 20 5, send and respectively send ingot groove 32 on circumference, evenly to distribute on the ingot plate 3, the adjacent ingot plate 3 that send docks mutually, every butt joint is once finished and is once sent the ingot action, send the benefit of ingot plate 3 butt joint to be to make the spindle 4 stressed position consistency in end that is in operation, each spindle 4 is stressed even, has solved because of sending ingot plate 3 positions just to differ and has caused the problem of spindle 4 discontinuity.

But send ingot plate group 34 rectangular arranged settings by 9, and make and send the ingot gear 2 that send of ingot plate group 34 to be meshed, as shown in Figure 5.

Final drive shaft 20 drives travelling gear 5, travelling gear 5 drives one group and send ingot gear 2 to send ingot plate 3 to rotate (send ingot gear 2 and send ingot plate 3 coaxial rotation that becomes one after riveted joint), sending 2 of ingot gears is to be meshing with each other, every pair of gear is all done rightabout running, make the spindle 4 that is installed in the card below along with the motion of sending ingot plate 3, move along the direction of the closed orbit battle array 33 of braiding deck plate 6 by the transmission of sending ingot tooth mouth 32, as shown in Figure 5.

Embodiment 3

The middle part of final drive shaft 20 fixedly installs worm screw 8, and the other end of final drive shaft 20 fixedly installs handwheel 7 and travelling gear 5.Fixedly install separately at the both ends of power transmission shaft and to send ingot plate 3 and send ingot gear 2 to constitute and send ingot plate group 34, send ingot plate group 34 to be arranged between braiding platform base plate 1 and the braiding deck plate 6 by 4, send to be provided with 4 on the ingot plate 3 and to send ingot groove 32, send ingot gear 2 to be meshed, as shown in Figure 6 with travelling gear 5.

But send ingot plate group 34 rectangular arranged settings by 4, and make and send the ingot gear 2 that send of ingot plate group 34 to be meshed, as shown in Figure 6.

Final drive shaft 20 drives travelling gear 5, travelling gear 5 drives one group and send ingot gear 2 to send ingot plate 3 to rotate (send ingot gear 2 and send ingot plate 3 coaxial rotation that becomes one after riveted joint), sending 2 of ingot gears is to be meshing with each other, every pair of gear is all done rightabout running, make the spindle 4 that is installed in the card below along with the motion of sending ingot plate 3, move along the direction of the closed orbit battle array 33 of braiding deck plate 6 by the transmission of sending ingot tooth mouth 32, as shown in Figure 6.

Embodiment 4

The middle part of final drive shaft 20 fixedly installs worm screw 8, and the other end of final drive shaft 20 fixedly installs handwheel 7 and travelling gear 5.Fixedly install separately at the both ends of power transmission shaft and to send ingot plate 3 and send ingot gear 2 to constitute and send ingot plate group 34, send ingot plate group 34 to be arranged between braiding platform base plate 1 and the braiding deck plate 6 by 12, send to be provided with 4 on the ingot plate 3 and to send ingot groove 32, send ingot gear 2 to be meshed, as shown in Figure 7 with travelling gear 5.

But send ingot plate group 34 annular array settings by 12, and make and send the ingot gear 2 that send of ingot plate group 34 to be meshed, as shown in Figure 7.

Final drive shaft 20 drives travelling gear 5, travelling gear 5 drives one group and send ingot gear 2 to send ingot plate 3 to rotate (send ingot gear 2 and send ingot plate 3 coaxial rotation that becomes one after riveted joint), sending 2 of ingot gears is to be meshing with each other, every pair of gear is all done rightabout running, make the spindle 4 that is installed in the card below along with the motion of sending ingot plate 3, move along the direction of the closed orbit battle array 33 of braiding deck plate 6 by the transmission of sending ingot tooth mouth 32, as shown in Figure 7.

Embodiment 5

Worm gear 10 is set coaxial secured in parallel and change gear 9 constitutes transition dual gear group, and worm gear 10 is meshed with the worm screw 8 at final drive shaft 20 middle parts.Output gear 11 is set coaxial secured in parallel and fixed gear 12 constitutes even gear train of output two, and output gear 11 is meshed with the change gear 9 of transition gear group.Traction gear 15 is set coaxial secured in parallel and card clothing 35 constitutes traction wheel 33, and 3 traction wheels 33 are set, and the traction gear 15 of traction wheel 33 is arranged engagement relatively, and the traction gear 15 of traction wheel 33 is meshed with fixed gear 12, as shown in Figure 1 and Figure 2.

Worm screw 8 on the final drive shaft 20 drives worm gears 10 and reaches the fixed gear 12 coaxial with output gear with output gear 11 that coaxial change gear 9 motions of worm gear and drive are meshed with change gear 9, drive traction gear 15 by fixed gear 12, braided fabric is pulled out, as shown in Figure 1 and Figure 2 by the card clothing on the traction wheel 33 35.

Embodiment 6

Worm gear 10 is set coaxial secured in parallel and change gear 9 constitutes transition dual gear group, and worm gear 10 is meshed with the worm screw 8 at final drive shaft 20 middle parts.Output gear 11 is set coaxial secured in parallel and fixed gear 12 constitutes even gear train of output two, and output gear 11 is meshed with the change gear 9 of transition gear group.Traction gear 15 is set coaxial secured in parallel and card clothing 35 constitutes

traction wheel

33, and 2 traction wheels 33 are set, and the traction gear 15 of traction wheel 33 is arranged engagement relatively, and the traction gear 15 of traction wheel 33 is meshed with fixed gear 12, as shown in Figure 3.

Embodiment 7

One end of yarn tube bar 22 is fixedly installed on a side of ingot tail 13, and the other end of yarn tube bar 22 is provided with yarn tube carriage 23, and yarn tube carriage 23 1 sides are established replacement yarn-rod 24, and yarn tube 21 is sleeved on the yarn tube bar 22.One end of slideway 14 is fixedly installed on the opposite side of ingot tail 13, and the top of slideway 14 is provided with pulley 30 and spindle ram 29, and a side of spindle ram 29 is provided with yarn tube clinching 31, and the middle part of slideway 14 fixedly installs magnetic eye 28.The bottom of slideway 14 fixedly installs output magnetic eye 25, and spindle weighs down stone roller 27 to be placed in the slideway 14, and the bottom of spindle bob stone roller 27 is provided with weighs down stone roller pulley 26, as Fig. 8, shown in Figure 9.

The yarn tube 21 that twines full braiding base material is enclosed within on the yarn tube bar 22,, base material around rising by yarn bar 24 and pass from porcelain eye 28, is weighed down through spindle that spindle on the stone roller 27 weighs down stone roller pulley 26, pulley 30 passes from output porcelain eye 25 with the position of yarn tube carriage 23 fixed yarn tubes 21.Spindle bob stone roller 27 drives spindle ram 29 when moving upward to certain distance and moves upward, yarn tube clinching 31 on the spindle ram is upwards lifted, yarn tube 21 is rotated under the gravity compressing of spindle bob stone roller 27, fall downwards when separating with spindle ram 29 when spindle weighs down stone roller 27, yarn tube 21 is blocked in yarn tube clinching 31, stops operating, braiding base material drive spindle bob stone roller 27 moves up and down in the braiding process, motion makes the spindle line sending even, as Fig. 8, shown in Figure 9 so repeatedly.

Claims

1, a kind of flip-over type packing braiding machine, it is characterized in that being to weave platform base plate (1), braiding deck plate (6), travelling gear (5), send ingot gear (2), send ingot plate (3) and spindle (4) to be arranged on the top of board face, card down, the ingot tail (13) of spindle (4) is arranged in braiding deck plate (6); One end of final drive shaft (20) fixedly installs bevel gear (16), and bevel gear (16) is meshed with the bevel gear of reductor (19) output; The middle part of final drive shaft (20) fixedly installs worm screw (8), and the other end of final drive shaft (20) fixedly installs handwheel (7) and travelling gear (5); Fixedly install separately at the both ends of power transmission shaft and to send ingot plate (3) and send ingot gear (2) to constitute and send ingot plate group (34), send ingot plate group (34) to be arranged between braiding platform base plate (1) and the braiding deck plate (6) by several, send several are set on ingot plate (3) send ingot groove (32), send ingot gear (2) to be meshed with travelling gear (5).

2, flip-over type packing braiding machine according to claim 1 is characterized in that sending ingot plate group (34) but the rectangular arranged setting by several, and makes and send the ingot gear (2) that send of ingot plate group (34) to be meshed.

3, flip-over type packing braiding machine according to claim 1 is characterized in that sending ingot plate group (34) but the annular array setting by several, and makes and send the ingot gear (2) that send of ingot plate group (34) to be meshed.

4, flip-over type packing braiding machine according to claim 1 is characterized in that coaxial secured in parallel is provided with worm gear (10) and change gear (9) constitutes transition dual gear group, and worm gear (10) is meshed with the worm screw (8) at final drive shaft (20) middle part.Output gear (11) is set coaxial secured in parallel and fixed gear (12) constitutes even gear train of output two, and change gear (11) is meshed with the change gear (9) of transition gear group.Traction gear (15) is set coaxial secured in parallel and card clothing (35) constitutes traction wheel (33), several traction wheels (33) are set, the traction gear (15) of traction wheel (33) is arranged engagement relatively, and the traction gear (15) of traction wheel (33) is meshed with fixed gear (12).

5, flip-over type packing braiding machine according to claim 1, it is characterized in that an end of yarn tube bar (22) is fixedly installed on a side of ingot tail (13), the other end of yarn tube bar (22) is provided with yarn tube carriage (23), yarn tube carriage (23) one sides are established replacement yarn-rod (24), and yarn tube (21) is sleeved on the yarn tube bar (22); One end of slideway (14) is fixedly installed on the opposite side of ingot tail (13), and the top of slideway (14) is provided with pulley (30) and spindle ram (29), and a side of spindle ram (29) is provided with yarn tube clinching (3 1), and the middle part of slideway (14) fixedly installs magnetic eye (28); The bottom of slideway (14) fixedly installs output magnetic eye (25), and spindle weighs down stone roller (27) to be placed in the slideway (14), and the bottom of spindle bob stone roller (27) is provided with weighs down stone roller pulley (26).