CN206486660U - The rear pendular motion mechanism of double rib warp loom - Google Patents

The rear pendular motion mechanism of double rib warp loom Download PDF

Info

Publication number
CN206486660U
CN206486660U CN201621462364.2U CN201621462364U CN206486660U CN 206486660 U CN206486660 U CN 206486660U CN 201621462364 U CN201621462364 U CN 201621462364U CN 206486660 U CN206486660 U CN 206486660U
Authority
CN
China
Prior art keywords
arm
adjusting rod
pendulum
transmission
extension bar
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Active
Application number
CN201621462364.2U
Other languages
Chinese (zh)
Inventor
蔡清来
殷守国
许剑飞
张文书
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
FUJIAN XINYI MACHINERY TECHNOLOGY Co Ltd
Original Assignee
FUJIAN XINYI MACHINERY TECHNOLOGY Co Ltd
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by FUJIAN XINYI MACHINERY TECHNOLOGY Co Ltd filed Critical FUJIAN XINYI MACHINERY TECHNOLOGY Co Ltd
Priority to CN201621462364.2U priority Critical patent/CN206486660U/en
Application granted granted Critical
Publication of CN206486660U publication Critical patent/CN206486660U/en
Active legal-status Critical Current
Anticipated expiration legal-status Critical

Links

Abstract

The utility model provides a kind of rear pendular motion mechanism of double rib warp loom, including transmission mechanism and rear swinging mechanism, by transmission mechanism drive after swinging mechanism moved, master pendulum arm is put after swinging mechanism includes afterwards, secondary swing arm is put afterwards, swinging axle, extension bar in first, first adjusting rod, reel cage, arm and celestial axis, it is fastenedly connected at the top of arm with celestial axis, arm bottom is connected with reel cage top movable, reel cage left end is flexibly connected by extension bar in the first adjusting rod and first with the secondary swing arm right-hand member of rear pendulum, secondary swing arm left end is put afterwards and rear pendulum master pendulum arm left end is closely sheathed on swinging axle;Transmission mechanism includes the second adjusting rod, extension bar, internal overarm support, 8 type connecting rods, the second rotating shaft, eccentric bushing, eccentric wheel and the transmission main shaft in second being sequentially connected, and the top of the second adjusting rod is flexibly connected with putting the right-hand member of master pendulum arm afterwards.Connection and reliable transmission, effectively enhance braiding stability, help to greatly improve production efficiency between each drive disk assembly of the present utility model.

Description

The rear pendular motion mechanism of double rib warp loom
Technical field
The utility model is related to the transmission mechanism of tricot machine, the rear pendular motion machine of more particularly to a kind of double rib warp loom Structure.
Background technology
At present, there are many transmission mechanisms to use common drive mechanism on common double rib warp loom, cause wherein necessary There are one group of mechanism or multigroup mechanism to be connected when depending on balance staff using bearing, in actual production process, due to driver Structure is complex and each drive disk assembly is also easy to produce abrasion, and fit precision is reduced between being easily caused each drive disk assembly, and then causes to set The standby accumulative fit precision of transmission is relatively low, is unfavorable for the lifting of equipment operation speed, is unfavorable for the extension of service life of equipment.
Further, since drive disk assembly easily produces abrasion, tricot machine is after operation a period of time, it is therefore necessary to equipment Each transmission mechanism is safeguarded and changed to ensure the transmission accuracy of equipment, need to be sent out and be taken more human and material resources progress equipment dimension Shield maintenance is repaired.In addition, in the prior art, the drive disk assembly for having many tricot machines uses steel-casting, drive disk assembly intensity compared with Low, the weight of drive disk assembly is larger so that equipment operation load is larger, is unfavorable for the lifting of running speed, consumes energy larger.
Utility model content
For the above-mentioned problems in the prior art, technical problem to be solved in the utility model is to provide a kind of Connection and reliable transmission, not easy to wear between the rear pendular motion mechanism of double rib warp loom, each drive disk assembly of the present utility model, The accumulative trueness error between each drive disk assembly can be effectively reduced, transmission irregularity is greatly increased, effectively enhance braiding stable Property, production efficiency is favorably improved, meanwhile, the utility model can also effectively reduce drive noise, the energy consumption of equipment, can effectively prolong The service life of long equipment.
The technical solution of the utility model is as follows:A kind of rear pendular motion mechanism of double rib warp loom, including transmission mechanism With rear swinging mechanism, by transmission mechanism drive after swinging mechanism moved, pendulum master pendulum arm, the secondary pendulum of rear pendulum after the rear swinging mechanism includes Extension bar, the first adjusting rod, reel cage, arm and celestial axis in arm, swinging axle, first, top and the celestial axis of the arm are fastenedly connected, The bottom of arm is flexibly connected with the top of reel cage by bearing pin, and the left end of reel cage is flexibly connected with the top of the first adjusting rod, The bottom of first adjusting rod is fixedly connected with the top of extension bar in first, and is provided with the first locking nut in the two junction, the The bottom of extension bar is flexibly connected with the right-hand member of the secondary swing arm of rear pendulum in one, and the rear secondary swing arm left end of pendulum and rear pendulum master pendulum arm left end are close Swinging axle is sheathed on, secondary swing arm is put after rear pendulum master pendulum arm drive around swinging axle reciprocally swinging;The transmission mechanism includes second Extension bar, internal overarm support, 8 type connecting rods, the second rotating shaft, eccentric bushing, eccentric wheel and transmission main shaft, the second adjusting rod in adjusting rod, second Top be flexibly connected with the right-hand member of rear pendulum master pendulum arm, the bottom of the second adjusting rod is fixedly connected with the top of extension bar in second, And the second locking nut is provided with the two junction, the bottom of extension bar is fixedly connected with the top of internal overarm support in second, internal overarm support Bottom, the left end of 8 type connecting rods and the top three of eccentric bushing between be flexibly connected by bearing pin, the right-hand member of 8 type connecting rods and Two rotating shafts are fastenedly connected, and eccentric wheel is provided with eccentric bushing, and eccentric wheel is transported on transmission main shaft by transmission main shaft band movable eccentric wheel Turn.
Further, the top of the arm is provided with latch segment, and latch segment is locked on the top of arm by bolt Portion so that the top of arm is fastenedly connected with celestial axis.
Further, the top of first adjusting rod be provided with the first dextrorotation joint, and the top of the first adjusting rod with The junction of first dextrorotation joint is provided with the first adjusting nut, and the first adjusting rod is lived by the left end of the first dextrorotation joint and reel cage Dynamic connection.
Further, the top of second adjusting rod be provided with the second dextrorotation joint, and the top of the second adjusting rod with The junction of second dextrorotation joint is provided with the second adjusting nut, and the second adjusting rod passes through the second dextrorotation joint and rear pendulum master pendulum arm Right-hand member is flexibly connected.
Further, extension bar in pendulum master pendulum arm, the secondary swing arm of rear pendulum, first after described, the first adjusting rod, the second adjusting rod, Extension bar, internal overarm support and 8 type connecting rods are made of high intensity aerolite in second.
The beneficial effects of the utility model are:The rear pendular motion mechanism of the double rib warp loom is carried out using independent agency Connection and reliable transmission between transmission, each drive disk assembly, and it is not easy to wear, it can effectively reduce the accumulative essence between each drive disk assembly Error is spent, transmission irregularity greatly increases, is conducive to greatly improving equipment operation speed, stably reaches 800-1100 revs/min, have Effect enhances braiding stability, knits out the fabric quality come more preferably, production efficiency is favorably improved, in addition, the utility model Maintenance and the maintenance cost of equipment can be effectively reduced, the drive noise of equipment can be effectively reduced, effectively the energy consumption of reduction equipment, Can effective extension device service life.
Brief description of the drawings
Fig. 1 is structural representation of the present utility model.
Fig. 2 is front view of the present utility model.
Fig. 3 is the structural representation of rear pendulum master pendulum arm of the present utility model.
Fig. 4 is the structural representation of 8 type connecting rod of the present utility model.
Embodiment
Below with reference to accompanying drawing, preferred embodiment of the present utility model is described in detail.
As shown in Figures 1 to 4, the rear pendular motion mechanism of a kind of double rib warp loom, including transmission mechanism 2 and rear swinging mechanism 1, by transmission mechanism 2 drive after swinging mechanism 1 moved, pendulum master pendulum arm 11, the secondary swing arm of rear pendulum after the rear swinging mechanism 1 includes 12nd, extension bar 14, the first adjusting rod 15, reel cage 16, arm 17 and celestial axis 18, the top of the arm 17 in swinging axle 13, first Provided with latch segment 171, latch segment 171 is locked at the top of arm 17 by bolt so that the top and day of arm 17 Axle 18 is fastenedly connected, and the bottom of arm 17 is flexibly connected with the top of reel cage 16 by bearing pin;The top of first adjusting rod 15 End is provided with the first dextrorotation joint 151, and is provided with first on the top of the first adjusting rod 15 and the junction of the first dextrorotation joint 151 Adjusting nut 152, the first adjusting rod 15 is flexibly connected by the first dextrorotation joint 151 with the left end of reel cage 16, by rotating the One adjusting nut 152 is adjusted above and below being carried out to the height and position of the left end of reel cage 16;The bottom and first of first adjusting rod 15 The top of middle extension bar 14 is fixedly connected, and is provided with the first locking nut 19 in the two junction, in first the bottom of extension bar 14 with The right-hand member for putting secondary swing arm 12 afterwards is flexibly connected, and the rear secondary left end of swing arm 12 of pendulum and the rear pendulum left end of master pendulum arm 11 are closely sheathed on swing Axle 13, and the secondary swing arm 12 of rear pendulum is identical with the structure of rear pendulum master pendulum arm 11, by rear pendulum master pendulum arm 11 drive after pendulum pair swing arm 12 around Swinging axle 13 carries out reciprocally swinging;The transmission mechanism 2 includes extension bar 22, internal overarm support 23,8 types in the second adjusting rod 21, second Connecting rod 24, the second rotating shaft 25, eccentric bushing 26, eccentric wheel 27 and transmission main shaft 28, the top of second adjusting rod 21 is provided with the Two dextrorotation joints 211, and it is provided with the second adjusting nut on the top of the second adjusting rod 21 and the junction of the second dextrorotation joint 211 212, the second adjusting rod 21 is flexibly connected by the second dextrorotation joint 211 with the right-hand member of rear pendulum master pendulum arm 11, by rotating second Adjusting nut 212 is adjusted above and below being carried out to the height and position of the rear pendulum right-hand member of master pendulum arm 11;The bottom of second adjusting rod 21 with The top of extension bar 22 is fixedly connected in second, and is provided with the bottom of extension bar 22 in the second locking nut 29, second in the two junction End is fixedly connected with the top of internal overarm support 23;The top three of the bottom of internal overarm support 23, the left end of 8 type connecting rods 24 and eccentric bushing 26 Between be flexibly connected by bearing pin, the right-hand member of 8 type connecting rods 24 is fastenedly connected with the second rotating shaft 25, and eccentric wheel is provided with eccentric bushing 26 27, eccentric wheel 27 is operated on transmission main shaft 28 by transmission main shaft 28 with movable eccentric wheel 27.
In addition, extension bar 14 in pendulum master pendulum arm 11, the secondary swing arm 12, first of rear pendulum after of the present utility model, the first adjusting rod 15, Extension bar 22, the type connecting rod 24 of internal overarm support 23 and 8 are made of high intensity aerolite in second adjusting rod 21, second, significantly The mechanical strength of drive disk assembly is enhanced, each drive disk assembly is not easy to wear, reduces the weight of drive disk assembly so that machine run Load is lighter, and the effect directly brought is exactly rotating speed lifting, and energy consumption is lower, and power saving reaches 15% or so of conventional board consumption.
Transmission process of the present utility model is as follows:Transmission main shaft 28 is operated with movable eccentric wheel 27, and eccentric wheel 27 drives bias Set 26 is operated, and eccentric bushing 26 drives 8 type connecting rods 24 and internal overarm support 23 to operate, and 8 type connecting rods 24 are under the drive of eccentric bushing 26 around the Two rotating shafts 25 carry out reciprocally swinging, and internal overarm support 23 is up and down reciprocatingly transported under the collective effect of the type connecting rod 24 of eccentric bushing 26 and 8 Dynamic, the adjusting rod 21 of extension bar 22 and second is pumped with internal overarm support 23 together in second, the band of the second adjusting rod 21 Pendulum master pendulum arm 11 carries out reciprocally swinging around swinging axle 13 after dynamic, and secondary swing arm 12 is put after master pendulum arm 11 drives around swinging axle 13 by rear put Carry out reciprocally swinging;Put extension bar 14 during secondary swing arm 12 drives first afterwards to be pumped, the first adjusting rod 15 is with the Extension bar 14 is pumped in one, and the first adjusting rod 15 drives reel cage 16, reel cage 16 is sold around with the bottom of arm 17 Axle active connection place, carries out left and right reciprocally swinging;The movement effects finally produced are:Transmission main shaft 28 is rotated, in transmission Under the transmission of mechanism 2 and rear swinging mechanism 1 so that reel cage 16 carries out left and right reciprocally swinging around the bottom of arm 17.
The beneficial effects of the utility model are:The rear pendular motion mechanism of the double rib warp loom is carried out using independent agency Connection and reliable transmission between transmission, each drive disk assembly, and it is not easy to wear, it can effectively reduce the accumulative essence between each drive disk assembly Error is spent, transmission irregularity greatly increases, is conducive to greatly improving equipment operation speed, stably reaches 800-1100 revs/min, have Effect enhances braiding stability, knits out the fabric quality come more preferably, production efficiency is favorably improved, in addition, the utility model Maintenance and the maintenance cost of equipment can be effectively reduced, the drive noise of equipment can be effectively reduced, effectively the energy consumption of reduction equipment, Can effective extension device service life.
The utility model preferably embodiment is these are only, but protection domain of the present utility model is not limited to This, all within spirit of the present utility model and principle, any modification, equivalent substitution and improvements made etc. should be included in this Within the protection domain of utility model.

Claims (5)

1. a kind of rear pendular motion mechanism of double rib warp loom, including transmission mechanism and rear swinging mechanism, after transmission mechanism drives Swinging mechanism is moved, it is characterised in that:After the rear swinging mechanism includes in pendulum master pendulum arm, the secondary swing arm of rear pendulum, swinging axle, first Extension bar, the first adjusting rod, reel cage, arm and celestial axis, top and the celestial axis of the arm are fastenedly connected, the bottom of arm and reel cage Top be flexibly connected by bearing pin, the left end of reel cage is flexibly connected with the top of the first adjusting rod, the bottom of the first adjusting rod Be fixedly connected with the top of extension bar in first, and the first locking nut be provided with the two junction, in first the bottom of extension bar with The right-hand member for putting secondary swing arm afterwards is flexibly connected, and the rear secondary swing arm left end of pendulum and rear pendulum master pendulum arm left end are closely sheathed on swinging axle, by Pendulum master pendulum arm puts secondary swing arm around swinging axle reciprocally swinging afterwards after driving;The transmission mechanism includes connecing in the second adjusting rod, second Main pendulum is put with after in bar, internal overarm support, 8 type connecting rods, the second rotating shaft, eccentric bushing, eccentric wheel and transmission main shaft, the top of the second adjusting rod The right-hand member of arm is flexibly connected, and the bottom of the second adjusting rod is fixedly connected with the top of extension bar in second, and is set in the two junction There is the bottom of extension bar in the second locking nut, second to be fixedly connected with the top of internal overarm support, the bottom of internal overarm support, 8 type connecting rods It is flexibly connected between left end and the top three of eccentric bushing by bearing pin, right-hand member and the second rotating shaft of 8 type connecting rods are fastenedly connected, partially Eccentric wheel is provided with heart set, eccentric wheel is operated on transmission main shaft by transmission main shaft band movable eccentric wheel.
2. the rear pendular motion mechanism of double rib warp loom according to claim 1, it is characterised in that:The top of the arm Provided with latch segment, latch segment is locked at the top of arm by bolt so that the top of arm is fastenedly connected with celestial axis.
3. the rear pendular motion mechanism of double rib warp loom according to claim 1, it is characterised in that:First adjusting rod Top be provided with the first dextrorotation joint, and in the junction of the top of the first adjusting rod and the first dextrorotation joint provided with the first regulation Nut, the first adjusting rod is flexibly connected by the first dextrorotation joint with the left end of reel cage.
4. the rear pendular motion mechanism of double rib warp loom according to claim 1, it is characterised in that:Second adjusting rod Top be provided with the second dextrorotation joint, and in the junction of the top of the second adjusting rod and the second dextrorotation joint provided with the second regulation Nut, the second adjusting rod is flexibly connected by the second dextrorotation joint with the right-hand member of rear pendulum master pendulum arm.
5. the rear pendular motion mechanism of double rib warp loom according to claim 1, it is characterised in that:The main pendulum of pendulum after described Extension bar, internal overarm support and 8 type connecting rods are adopted in extension bar, the first adjusting rod, the second adjusting rod, second in arm, the secondary swing arm of rear pendulum, first It is made of high intensity aerolite.
CN201621462364.2U 2016-12-29 2016-12-29 The rear pendular motion mechanism of double rib warp loom Active CN206486660U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN201621462364.2U CN206486660U (en) 2016-12-29 2016-12-29 The rear pendular motion mechanism of double rib warp loom

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN201621462364.2U CN206486660U (en) 2016-12-29 2016-12-29 The rear pendular motion mechanism of double rib warp loom

Publications (1)

Publication Number Publication Date
CN206486660U true CN206486660U (en) 2017-09-12

Family

ID=59770594

Family Applications (1)

Application Number Title Priority Date Filing Date
CN201621462364.2U Active CN206486660U (en) 2016-12-29 2016-12-29 The rear pendular motion mechanism of double rib warp loom

Country Status (1)

Country Link
CN (1) CN206486660U (en)

Similar Documents

Publication Publication Date Title
CN203821023U (en) Jacquard weave guide head device
CN206486660U (en) The rear pendular motion mechanism of double rib warp loom
CN206486659U (en) The forward swing motion of double rib warp loom
CN104593926A (en) Jacquard machine
CN207091652U (en) The needle-bar motion of double rib warp loom
CN203530606U (en) Energy-saving lower crochet hook movement mechanism of knotted fishing net machine
CN206486658U (en) Double rib warp loom
CN202945401U (en) Griffe driving mechanism for electronic jacquard machine
CN205398892U (en) Double needle bar warp machine's movement of slide mechanism
CN207331214U (en) A kind of needing machine Double spindle type headstock structure
CN202786614U (en) Drive device for electronic jacquard machine
CN204455447U (en) Swing mechanism in a kind of jacquard
CN205165359U (en) Two roller cold pilger mill's eccentric gear drive mechanism
CN204417758U (en) A kind of flat inkle loom
CN104480608B (en) Swing mechanism in a kind of jacquard
CN205420725U (en) Double needle bar warp machine subsides mechanism
CN205329286U (en) Double needle bar warp machine jacquard attachment
CN206048237U (en) One yeast inoculation screen catching robot
CN203653913U (en) Guide bar lapping movement mechanism of warp knitting machine
CN203795063U (en) High-speed electronic jacquard machine with four-wheeled opening mechanism
CN201267172Y (en) Cigarette plaiting machine
CN204532719U (en) Based on the mainframe that comprehensive angle controls
CN103614855B (en) Guide bar yarn overlapping movement mechanisms of warp knitting machine
CN207997560U (en) A kind of high-speed module link chain mechanism
CN203007565U (en) Rear beam structure for air-jet loom

Legal Events

Date Code Title Description
GR01 Patent grant
GR01 Patent grant