CN104389112A - Double-shaft needle-punching machine - Google Patents
Double-shaft needle-punching machine Download PDFInfo
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- CN104389112A CN104389112A CN201410655050.3A CN201410655050A CN104389112A CN 104389112 A CN104389112 A CN 104389112A CN 201410655050 A CN201410655050 A CN 201410655050A CN 104389112 A CN104389112 A CN 104389112A
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- main shaft
- shaft sections
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- sections
- half cylindrical
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- D—TEXTILES; PAPER
- D04—BRAIDING; LACE-MAKING; KNITTING; TRIMMINGS; NON-WOVEN FABRICS
- D04H—MAKING TEXTILE FABRICS, e.g. FROM FIBRES OR FILAMENTARY MATERIAL; FABRICS MADE BY SUCH PROCESSES OR APPARATUS, e.g. FELTS, NON-WOVEN FABRICS; COTTON-WOOL; WADDING ; NON-WOVEN FABRICS FROM STAPLE FIBRES, FILAMENTS OR YARNS, BONDED WITH AT LEAST ONE WEB-LIKE MATERIAL DURING THEIR CONSOLIDATION
- D04H18/00—Needling machines
- D04H18/02—Needling machines with needles
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- Textile Engineering (AREA)
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Abstract
The invention provides a double-shaft needle-punching machine, belonging to the technical field of non-woven fabric machinery. The double-shaft needle-punching machine comprises a machine frame, a power transmission mechanism, a first main shaft and a second main shaft, wherein a machine frame transverse beam is fixedly arranged on the top part of the machine frame; the power transmission mechanism is arranged on one end of the machine frame transverse beam; the first main shaft is supported on the machine frame transverse beam and is connected with the power transmission mechanism; first counterweight plates, first fly wheels and first eccentric connecting rods are arranged on the first main shaft; the second main shaft is supported on the machine frame transverse beam and is also connected with the power transmission mechanism; second counterweight plates are arranged on the second main shaft. The machine is characterized in that second fly wheels and second eccentric connecting rods are also arranged on the second main shaft; the second eccentric connecting rods correspond to the first eccentric connecting rods; moreover, the lower ends of the first eccentric connecting rods and the lower ends of the second eccentric connecting rods are respectively connected by guide column connecting seats; the upper ends of guide columns are respectively connected onto the guide column connecting seats; the middle parts of the guide columns are respectively in sliding fit with guide column sleeves; the lower parts of the guide columns respectively reach out of the guide column sleeves and are respectively connected with a needle bed; the guide column sleeves are fixedly arranged on the machine frame transverse beam. According to the double-shaft needle-punching machine, the smoothness and steadiness of the movement of the needle bed are guaranteed, and the needle punching speed of the needle-punching machine is improved.
Description
Technical field
The invention belongs to field of non-weaving textile machinery technology, be specifically related to a kind of twin shaft needing machine.
Background technology
Above mentioned twin shaft needing machine refers to the needing machine of two main shaft double link version, so-called pair of main shaft refer to have two main shafts, and so-called double link refers to and arranges with space state the eccentric ratio be synchronized with the movement in position to correspond to each other separately at the length direction of two main shafts.Chinese invention patent Authorization Notice No. CN102677397B recommends to be had " the twin shaft needing machine that structure is improved ", it comprises main shaft and countershaft, major and minor axle is parallel and be bearing in rotationally in frame, main shaft arranges eccentric ratio and main shaft balancing disk, countershaft arranges stabilizer.By being the description background technology hurdle of this patent and the reading on summary of the invention hurdle its positive effect known: the annexation between major and minor axle being connected with a joggle to become from previous direct geared drives countershaft by the countershaft transition transmission mechanism set up, thus can significantly reducing noise, improve the environment of operation field.But, this patent formula is not twin shaft needing machine structure truly, not more particularly two main axle structure form category, because do not arrange eccentric ratio on countershaft, especially, the speed of the twin shaft needing machine of this structure, only at 500rpm, affects production capacity, if raising speed, then can cause again high vibration and even undermine needing machine.
For above-mentioned prior art, be necessary to be improved, the applicant has done useful design for this reason, finally defines technical scheme described below.
Summary of the invention
Task of the present invention is to provide a kind of and contributes to significantly improving acupuncture speed and use and embody the desirable working (machining) efficiency of on-woven product and be conducive to ensureing robust motion and use and avoid machinery to cause the twin shaft needing machine of damage because of high vibration.
Task of the present invention has been come like this, and a kind of twin shaft needing machine, comprises a frame, and the top of this frame is fixed with a housiung separator, one power drive mechanism, this power drive mechanism is arranged on one end of described housiung separator, one first main shaft, this first main shaft to be bearing in rotationally on described housiung separator by the first spindle bearing holder and to be in transmission connection with described power drive mechanism, and this first main shaft is provided with the first balancing disk, the first flywheel and the first eccentric ratio, one second main shaft, this second main shaft to be bearing in rotationally on described housiung separator by the second spindle bearing holder with under the state that described first main shaft walks abreast mutually and to be in transmission connection with described power drive mechanism equally, this second main shaft is provided with the second balancing disk, be characterised in that: on the second described main shaft, be also provided with the second flywheel and the second eccentric ratio, this second eccentric ratio is corresponding with described first eccentric ratio, and the lower end of the first eccentric ratio and the second eccentric ratio is connected by guide pillar Connection Block, on guide pillar Connection Block and the middle position being positioned at the length direction of guide pillar Connection Block is connected with the upper end of a guide pillar, and the middle part of guide pillar and guide column sleeve are slidably matched, the bottom of guide pillar leans out guide column sleeve and is connected with needle-bar, wherein: guide column sleeve is fixed on described housiung separator.
In a specific embodiment of the present invention, the first described main shaft is is at least connected and composed by the first main shaft sections that two diameters are identical, is connected between the first adjacent main shaft sections by the first main shaft sections bindiny mechanism; The second described main shaft is is equally at least connected and composed by the second main shaft sections that two diameters are identical, connected by the second main shaft sections bindiny mechanism between the second adjacent main shaft sections, wherein: the structure of the second main shaft sections bindiny mechanism is identical with the structure of the first described main shaft sections bindiny mechanism.
In another specific embodiment of the present invention, the first described main shaft is configured with a main shaft sections positioning key at the position that two adjacent described first main shaft sections are engaged with each other, and two adjacent the first main shaft sections are connected to each other in the position corresponding to main shaft sections positioning key by the first described main shaft sections bindiny mechanism.
In another specific embodiment of the present invention, the first described main shaft sections bindiny mechanism comprises the first brace and the second brace, the first half cylindrical cavities are from one end to the other side configured with at the middle part of the length direction of the first brace, this the first half cylindrical cavity matches with described first main shaft sections, second brace is fixedly connected with the first brace, the second half cylindrical cavities are from one end to the other side configured with at the middle part of the length direction of this second brace, this the second half cylindrical cavity is corresponding with described the first half cylindrical cavities and match with two adjacent the first main shaft sections equally, wherein: the length direction in the bottom of described the first half cylindrical cavities and along the first half cylindrical cavities is configured with a positioning spline, described main shaft sections positioning key is placed in positioning spline.
In another specific embodiment of the present invention, one group of first screw hole is arranged at intervals with at the middle part of the length direction of the first described brace, this group first screw hole communicates with described the first half cylindrical cavities, and be equipped with one first screw on each first screw hole, the first screw contacts with described main shaft sections positioning key; Respectively in the both sides of the length direction of the first brace be spaced apartly provided with one group of second screw hole, respectively in the both sides of the length direction of the second described brace be spaced apartly provided with one group of the 3rd screw hole, and second, third screw hole corresponds to each other, second, third screw hole each is installed with one second screw jointly, by the second screw by first, second brace each other obvolvent on described two adjacent the first main shaft sections, and two adjacent the first main shaft sections to be connected as one.
Also have in a specific embodiment of the present invention, the radius of first, second described half cylindrical cavity is equal to each other, and the radius sum of the radius of the first half cylindrical cavities and the second half cylindrical cavities equals the diameter of described first main shaft sections.
More of the present invention and in a specific embodiment, the shape of cross section of first, second described brace is C font.
In an of the present invention and then specific embodiment, described power drive mechanism comprises motor, driving wheel, driving belt, driven pulley and gear-box, motor to be fixed on described housiung separator and to be positioned at the top of the left end of housiung separator, driving wheel is fixed on the motor shaft of motor, one end of driving belt is nested with on driving wheel, the other end is nested with on the driven wheel, driven pulley is fixed on the gear-box power input shaft of gear-box, and gear-box is fixed on the left end end of housiung separator, the first described main shaft and the left end of the second main shaft are all rotationally connected with gear-box.
More, in a specific embodiment, the first described main shaft is also fixed with the first main shaft secondary weight dish again of the present invention, described second main shaft is also fixed with the second main shaft secondary weight dish; The quantity of described first balancing disk is equal with the quantity of described first flywheel and with the first flywheel; The quantity of the second described balancing disk is equal with the quantity of described second flywheel and with the second flywheel, and the quantity of first, second balancing disk is equal to each other, and the quantity of first, second flywheel is mutually equal.
In an again of the present invention and then specific embodiment, described driven wheel is the belt pulley of multi-channel, and described driving belt is driving belt.
Technical scheme provided by the invention is owing to employing first, second main shaft in a creative way, and on first, second main shaft, first, second eccentric ratio is set respectively, thus can ensure the robust motion of needle-bar, use and avoid undermining needing machine because of high vibration; Owing to have employed two main shaft and being respectively furnished with eccentric ratio, thus counterbalance effect desirable and made the acupuncture speed of needing machine by the 500rpm in prior art bring up to 1000rpm so that more than, be extremely conducive to improving production capacity.
Accompanying drawing explanation
Fig. 1 is embodiments of the invention structure chart.
Fig. 2 is the front view of Fig. 1.
Fig. 3 is the structure chart of the first main shaft sections bindiny mechanism shown in Fig. 1.
Fig. 4 is sectional view and the application examples schematic diagram of Fig. 1.
Detailed description of the invention
In order to enable the auditor of Patent Office especially the public clearly understand technical spirit of the present invention and beneficial effect, applicant will elaborate below by way of example, but be not all the restriction to the present invention program to the description of embodiment, any conceive according to the present invention done be only pro forma but not substantial equivalent transformation and all should be considered as technical scheme category of the present invention.
Refer to Fig. 1, illustrated in this Fig. 1: a frame 1, the top of this frame 1 is fixed with a housiung separator 11, specifically, one end (left end) of housiung separator 11 is fixed with the top in the left side of frame 1, and the other end of housiung separator 11 (right-hand member) and the top on the right side of frame 1 are fixed; One power drive mechanism 2, this power drive mechanism 2 is arranged on one end (left end) of described housiung separator 11; One first main shaft 3, this first main shaft 3 to be bearing in rotationally on described housiung separator 11 by the first spindle bearing holder 31 and to be in transmission connection with power drive mechanism 2, and this first main shaft 3 is provided with the first balancing disk 32, first flywheel 33 and the first eccentric ratio 34; One second main shaft 4, this second main shaft 4 to be bearing in rotationally on described housiung separator 11 by the second spindle bearing holder 41 under the state parallel with aforementioned first main shaft 3 phase and same and power drive mechanism 2 is in transmission connection, and this second main shaft 4 is provided with the second balancing disk 42.
As shown in Figure 1, frame bottom girder 11 is configured with bearing mounting 111, aforesaid first spindle bearing holder 31 and the second spindle bearing holder 41 arrange and are fixed on shortly on bearing mounting 111.
Technical essential as technical scheme provided by the invention: be also provided with the second flywheel 43 and the second eccentric ratio 44 on aforesaid second main shaft 4, this second eccentric ratio 44 is corresponding with described first eccentric ratio 34, and the lower end of the first eccentric ratio 33 and the second eccentric ratio 43 is connected by guide pillar Connection Block 5, on guide pillar Connection Block 5 and the middle position being positioned at the length direction of guide pillar Connection Block 5 is connected with the upper end of a guide pillar 51 by bearing pin 512, and the middle part of guide pillar 51 and guide column sleeve 511 are slidably matched, the bottom of guide pillar 51 leans out guide column sleeve 511 and is fixed with a guide pillar holder 513, this guide pillar holder is fixedly connected with needle-bar 6 by guide pillar holder screw 5131, wherein: guide column sleeve 511 is fixed on aforesaid housiung separator 11.The lower end of the first eccentric ratio 34 is furnished with bearing by the first eccentric ratio bearing pin 341() be connected with one end of aforementioned guide pillar Connection Block 5, the lower end of the second eccentric ratio 44 is furnished with bearing by the second eccentric ratio bearing pin 441() (specifically can see Fig. 4) be connected with the other end of guide pillar Connection Block 5.
In order to the work of the first main shaft 3 and the second main shaft 4 that make manufacture twin shaft needing machine becomes simple, and make installation inspection convenient, such as when will inspection be implemented to the first spindle bearing holder 31 and/or the second spindle bearing holder 41 or changes, both work efficiency was improved, alleviate again the working strength of inspection personnel, therefore aforesaid first main shaft 3 is designed at least be connected and composed by the first main shaft sections that two diameters are identical, is connected by the first main shaft sections bindiny mechanism 7 between the first adjacent main shaft sections; Equally, aforesaid second main shaft 4 is designed to equally at least connected and composed by the second main shaft sections that two diameters are identical, connected by the second main shaft sections bindiny mechanism 8 between the second adjacent main shaft sections, wherein: the structure of the second main shaft sections bindiny mechanism 8 is identical with the structure of the first main shaft sections bindiny mechanism 7.The first tediously long main shaft 3 and the second main shaft 4 break the whole up into parts by this structural design, such as when will to the first spindle bearing holder 31 putting maintenance into practice for supporting the first main shaft 3 or change time, as long as so removal first main shaft sections bindiny mechanism 7, and under the state of the first main shaft bearing flap of removal first spindle bearing holder 31, two adjacent the first main shaft sections are moved apart in the first spindle bearing holder 31, to the second spindle bearing holder 41 putting maintenance into practice of the second main shaft 4 or the operation of replacing with example.
Refer to Fig. 3, aforesaid first main shaft 3 is configured with a main shaft sections positioning key 35 at the position that two adjacent aforementioned first main shaft sections are engaged with each other, and two adjacent the first main shaft sections are connected to each other in the position corresponding to main shaft sections positioning key 35 by aforesaid first main shaft sections bindiny mechanism 7.
Aforesaid first main shaft sections bindiny mechanism 7 comprises the first brace 71 and the second brace 72, the first half cylindrical cavities 711 are from one end to the other side configured with at the middle part of the length direction of the first brace 71, this the first half cylindrical cavity 711 matches with aforementioned first main shaft sections, second brace 72 is fixedly connected with the first brace 71, the second half cylindrical cavities 721 are from one end to the other side configured with at the middle part of the length direction of this second brace 72, this the second half cylindrical cavity 721 is corresponding with aforementioned the first half cylindrical cavities 711 and match with two adjacent the first main shaft sections equally, wherein: the length direction in the bottom of aforesaid the first half cylindrical cavities 711 and along the first half cylindrical cavities 711 is configured with a positioning spline 7111, aforesaid main shaft sections positioning key 35 is placed in positioning spline 7111.
As shown in Figure 3, one group of first screw hole 712 is arranged at intervals with at the middle part of the length direction of aforesaid first brace 71, this group first screw hole 712 communicates with aforesaid the first half cylindrical cavities 711, and on each first screw hole 712, be equipped with one first screw 7121, contact with aforesaid main shaft sections positioning key 35 with line screw 7121; Respectively in the both sides of the length direction of the first brace 71 be spaced apartly provided with one group of second screw hole 713, respectively in the both sides of the length direction of aforesaid second brace 72 be spaced apartly provided with one group of the 3rd screw hole 722, and second, third screw hole 713,722 corresponds to each other, second, third screw hole 713,722 each is installed with one second screw 714 jointly, by the second screw 714 by first, second brace 71,72 each other obvolvent on aforementioned two adjacent the first main shaft sections, and two adjacent the first main shaft sections are connected as a whole.The radius of first, second half cylindrical cavity 711,721 aforesaid is equal to each other, and the radius sum of the radius of the first half cylindrical cavities 711 and the second half cylindrical cavities 721 equals the diameter of aforementioned first main shaft sections.The shape of cross section of first, second brace 71,72 is C font.
Please see Fig. 1 by emphasis, aforesaid power drive mechanism 2 preferably but not the structure be definitely limited to is as follows: comprise motor 21, driving wheel 22, driving belt 23, driven pulley 24 and gear-box 25, motor 21 to be fixed on aforementioned housiung separator 11 by motor cabinet 212 and to be positioned at the top of the left end of housiung separator 11, driving wheel 22 is fixed on the motor shaft 211 of motor 21, one end of driving belt 23 is nested with on driving wheel 22, the other end is nested with on driven pulley 24, driven pulley 24 is fixed on the gear-box power input shaft 251 of gear-box 25, and gear-box 25 is fixed on the left end end of housiung separator 11, the left end of aforesaid first main shaft 3 and the second main shaft 4 is all rotationally connected with gear-box 25.In the present embodiment, aforesaid driven wheel 22,24 is the belt pulley of multi-channel, and aforesaid driving belt 23 is driving belt.
As shown in Figure 1, aforesaid first main shaft 3 is also fixed with the first main shaft secondary weight dish 36, institute art guest second main shaft 4 is also fixed with the second main shaft secondary weight dish 45.Preferably, the quantity of aforementioned first balancing disk 32 is equal with the quantity of the first flywheel 33 and with the first flywheel 33; The quantity of aforesaid second balancing disk 42 is equal with the quantity of the second flywheel 43 and with the second flywheel 43, and the quantity of first, second balancing disk 32,42 is equal to each other, and the quantity of first, second flywheel 33,43 is mutually equal.
Refer to Fig. 2, this Fig. 2 is the positive diagram of Fig. 1, the quantity showing first, second eccentric ratio 34,44 respectively has eight, but be not subject to the quantitative limitation of diagram number, because quantity can be changed according to the Uneven Width width of processed on-woven product, such as when processing breadth width and be the geotextiles for high speed work road of 10 meters, the quantity configuration shown in Fig. 2 just can meet.
Refer to Fig. 4, also show in the diagram be fixed on aforementioned needle-bar 6 towards under the needle plate 61 of side, needle plate 61 is placed with pricker 611.Also show below corresponding to housiung separator 11 in the diagram and belong to the base 12 of the structural system of frame 1, the cotton plate adjusting seat 121 of holder is provided with on the top of base 12, the cotton plate adjusting seat 121 of holder is provided with the cotton plate holder 1211 of holder, the cotton plate holder 1211 of holder is provided with the cotton plate 12111(of holder also can claim to hold in the palm web plate), stripping plate adjusting seat 112 is provided with in the bottom of housiung separator 11, stripping plate adjusting seat 112 is connected with stripping plate plate 1121(also can claim to shell web plate), this stripping plate 1121 is corresponding with the cotton plate 12111 of holder.
When cellucotton net transports to holder by the convoying curtain in front road, stripping plate 1211, time between 1121, that is at cellucotton net by way of holder, stripping web plate 12111, time between 1121, under the work of power drive mechanism 2, driving wheel 22 is driven by the motor shaft 211 of motor 21, driven pulley 24 is driven through driving belt 23, by driven pulley 24, gear-box 25 is worked, first is driven by gear-box 25, second main shaft 3, 4 move simultaneously, by first, second main shaft 3, 4 drive first respectively, second eccentric ratio 34, 44 motions, guide pillar 51 is driven through guide pillar Connection Block 5, needle-bar 6 is driven by guide pillar 51, needle plate 61 is driven by needle-bar 6, acupuncture is carried out by the 611 pairs of cellucotton nets of the pricker on needle plate 61.
In sum, owing to present invention uses first, second main shaft 3,4, and on first, second main shaft 3,4, be provided with first, second eccentric ratio 34,44 respectively, thus there is good stability, not only can improve acupuncture speed (1000rpm and more than) and ensure production capacity, and mechanical stability is excellent, there will not be violent vibration.
Claims (10)
1.
a kind of twin shaft needing machine, comprise a frame (1), the top of this frame (1) is fixed with a housiung separator (11); One power drive mechanism (2), this power drive mechanism (2) is arranged on one end of described housiung separator (11); One first main shaft (3), this first main shaft (3) is bearing in described housiung separator (11) rotationally by the first spindle bearing holder (31) and goes up and be in transmission connection with described power drive mechanism (2), and this first main shaft (3) is provided with the first balancing disk (32), the first flywheel (33) and the first eccentric ratio (34); one second main shaft (4), this second main shaft (4) is bearing in upper and the same and described power drive mechanism (2) of described housiung separator (11) rotationally by the second spindle bearing holder (41) and is in transmission connection under the state parallel mutually with described first main shaft (3), this second main shaft (4) is provided with the second balancing disk (42), it is characterized in that: on described the second main shaft (4), be also provided with the second flywheel (43) and the second eccentric ratio (44), this second eccentric ratio (44) is corresponding with described first eccentric ratio (34), and the lower end of the first eccentric ratio (33) and the second eccentric ratio (43) is connected by guide pillar Connection Block (5), the upper end of a guide pillar (51) is connected with in the upper and middle position being positioned at the length direction of guide pillar Connection Block (5) of guide pillar Connection Block (5), and the middle part of guide pillar (51) and guide column sleeve (511) are slidably matched, the bottom of guide pillar (51) leans out guide column sleeve (511) and is connected with needle-bar (6), wherein: guide column sleeve (511) is fixed on described housiung separator (11).
2.
twin shaft needing machine according to claim 1, it is characterized in that described the first main shaft (3) is is at least connected and composed by the first main shaft sections that two diameters are identical, connected by the first main shaft sections bindiny mechanism (7) between the first adjacent main shaft sections; Described the second main shaft (4) is is equally at least connected and composed by the second main shaft sections that two diameters are identical, connected by the second main shaft sections bindiny mechanism (8) between the second adjacent main shaft sections, wherein: the structure of the second main shaft sections bindiny mechanism (8) is identical with the structure of the first described main shaft sections bindiny mechanism (7).
3.
twin shaft needing machine according to claim 2, it is characterized in that at described the first main shaft (3) upper and be configured with a main shaft sections positioning key (35) at the position that two adjacent described first main shaft sections are engaged with each other, two adjacent the first main shaft sections are connected to each other in the position corresponding to main shaft sections positioning key (35) by the first described main shaft sections bindiny mechanism (7).
4.
twin shaft needing machine according to claim 3, it is characterized in that the first described main shaft sections bindiny mechanism (7) comprises the first brace (71) and the second brace (72), the first half cylindrical cavities (711) are from one end to the other side configured with at the middle part of the length direction of the first brace (71), this the first half cylindrical cavity (711) matches with described first main shaft sections, second brace (72) is fixedly connected with the first brace (71), the second half cylindrical cavities (721) are from one end to the other side configured with at the middle part of the length direction of this second brace (72), this the second half cylindrical cavity (721) is corresponding with described the first half cylindrical cavities (711) and match with two adjacent the first main shaft sections equally, wherein: the length direction in the bottom of described the first half cylindrical cavities (711) and along the first half cylindrical cavities (711) is configured with a positioning spline (7111), described main shaft sections positioning key (35) is placed in positioning spline (7111).
5.
twin shaft needing machine according to claim 4, it is characterized in that being arranged at intervals with one group of first screw hole (712) at the middle part of the length direction of described the first brace (71), this group first screw hole (712) communicates with described the first half cylindrical cavities (711), and be equipped with one first screw (7121) on each first screw hole (712), the first screw (7121) contacts with described main shaft sections positioning key (35), respectively in the both sides of the length direction of the first brace (71) be spaced apartly provided with one group of second screw hole (713), respectively in the both sides of the length direction of described the second brace (72) be spaced apartly provided with one group of the 3rd screw hole (722), and second, 3rd screw hole (713, 722) correspond to each other, each second, 3rd screw hole (713, 722) one second screw (714) is jointly installed with on, by the second screw (714) by first, second brace (71, 72) each other obvolvent on described two adjacent the first main shaft sections, and two adjacent the first main shaft sections are connected as one.
6.
twin shaft needing machine according to claim 5, it is characterized in that the radius of described first, second half cylindrical cavity (711,721) is equal to each other, and the radius sum of the radius of the first half cylindrical cavities (711) and the second half cylindrical cavities (721) equals the diameter of described first main shaft sections.
7.
twin shaft needing machine according to claim 4 or 5, is characterized in that the shape of cross section of described first, second brace (71,72) is C font.
8.
twin shaft needing machine according to claim 1, it is characterized in that described power drive mechanism (2) comprises motor (21), driving wheel (22), driving belt (23), driven pulley (24) and gear-box (25), motor (21) is fixed on described housiung separator (11) and goes up and the top being positioned at the left end of housiung separator (11), driving wheel (22) is fixed on the motor shaft (211) of motor (21), one end of driving belt (23) is nested with on driving wheel (22), the other end is nested with on driven pulley (24), driven pulley (24) is fixed on the gear-box power input shaft (251) of gear-box (25), and gear-box (25) is fixed on the left end end of housiung separator (11), described the first main shaft (3) and the left end of the second main shaft (4) are all rotationally connected with gear-box (25).
9.
twin shaft needing machine according to claim 1, it is characterized in that also being fixed with the first main shaft secondary weight dish (36) on described the first main shaft (3), described second main shaft (4) is also fixed with the second main shaft secondary weight dish (45); The quantity of described first balancing disk (32) is equal with the quantity of described first flywheel (33) and with the first flywheel (33); The quantity of described the second balancing disk (42) is equal with the quantity of described second flywheel (43) and with the second flywheel (43), and the quantity of first, second balancing disk (32,42) is equal to each other, the quantity of first, second flywheel (33,43) is mutually equal.
10.
twin shaft needing machine according to claim 8, it is characterized in that described driven wheel (22,24) is the belt pulley of multi-channel, described driving belt (23) is driving belt.
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CN201410655050.3A CN104389112A (en) | 2014-11-17 | 2014-11-17 | Double-shaft needle-punching machine |
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CN201410655050.3A CN104389112A (en) | 2014-11-17 | 2014-11-17 | Double-shaft needle-punching machine |
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Cited By (6)
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CN106087259A (en) * | 2016-08-05 | 2016-11-09 | 郑州纺机工程技术有限公司 | A kind of high-speed dual-shaft guides dystopy Double felting needle felting machine |
CN107700078A (en) * | 2017-10-17 | 2018-02-16 | 江苏金龙科技股份有限公司 | The main shaft driving device of needing machine |
CN107893286A (en) * | 2017-11-11 | 2018-04-10 | 四川环龙技术织物有限公司 | One kind production needled paper-making felt fleece automatic balancing arrangement |
CN108315878A (en) * | 2017-01-16 | 2018-07-24 | 王永祥 | A kind of axle center eccentric structure of needing machine |
CN108930097A (en) * | 2017-05-24 | 2018-12-04 | 王永祥 | Axial center type bias twin shaft ultrahigh speed needing machine |
CN111910345A (en) * | 2020-09-14 | 2020-11-10 | 江苏迎阳无纺机械有限公司 | Needle beam driving structure of needle machine |
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CN106087259A (en) * | 2016-08-05 | 2016-11-09 | 郑州纺机工程技术有限公司 | A kind of high-speed dual-shaft guides dystopy Double felting needle felting machine |
CN108315878A (en) * | 2017-01-16 | 2018-07-24 | 王永祥 | A kind of axle center eccentric structure of needing machine |
CN108930097A (en) * | 2017-05-24 | 2018-12-04 | 王永祥 | Axial center type bias twin shaft ultrahigh speed needing machine |
CN107700078A (en) * | 2017-10-17 | 2018-02-16 | 江苏金龙科技股份有限公司 | The main shaft driving device of needing machine |
CN107893286A (en) * | 2017-11-11 | 2018-04-10 | 四川环龙技术织物有限公司 | One kind production needled paper-making felt fleece automatic balancing arrangement |
CN111910345A (en) * | 2020-09-14 | 2020-11-10 | 江苏迎阳无纺机械有限公司 | Needle beam driving structure of needle machine |
CN111910345B (en) * | 2020-09-14 | 2022-07-22 | 江苏迎阳无纺机械有限公司 | Needle beam driving structure of needle machine |
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