CN201268770Y

CN201268770Y - Double rib warp loom

Info

Publication number: CN201268770Y
Application number: CNU2008200421049U
Authority: CN
Inventors: 孙嘉良
Original assignee: Individual
Current assignee: Individual
Priority date: 2008-08-11
Filing date: 2008-08-11
Publication date: 2009-07-08
Anticipated expiration: 2018-08-11

Abstract

The utility model provides a double needle bar warp knitting machine which comprises a looping device, a guide bar device and a transmission device, wherein at least one piezoelectric ceramic jacquard guide bar is arranged in the guide bars of the guide bar device; a front needle bar transmission mechanism, a rear needle bar transmission mechanism, a front sinking transmission mechanism, a rear sinking transmission mechanism of the transmission device, an upper swing transmission mechanism on a guide bar stand, and a lower transmission mechanism of the guide bar stand are eccentric wheel connecting rod transmission mechanisms. Due to the adoption of a piezoelectric ceramic jacquard needle, the utility model can knit more complicated flower patterns and change the flower patterns conveniently, and is simplified in structure. Each transmission structure adopts an eccentric connecting rod mechanism, and compared with the prior cam connecting rod mechanism, the eccentric connecting rod mechanism has more complicated motion path, long motion distance and high accuracy so as to be adapted for more complicated flower patterns. Being further increased in the rotating speed, the double needle bar warp knitting machine is favorable for improving the production efficiency.

Description

Double rib warp loom

Technical field

The utility model relates to double rib warp loom.

Background technology

Double rib warp loom comprises into coil apparatus, guide bar assembly, transmission device.Become coil apparatus to comprise the forward and backward knocking over part of symmetry, the forward and backward needle-bar part of symmetry and the forward and backward sedimentation part of symmetry, the latch needles bed that the parts of wherein forward and backward needle-bar part respectively comprise the needle-bar reel cage, be dynamically connected by upper and lower connector and needle-bar reel cage and be installed in latch needles on the latch needles bed; The parts of forward and backward sedimentation part respectively comprise the sedimentation reel cage, be fixed on the sedimentation needle-bar of sedimentation reel cage upper end and be installed in sedimentation pin on the sedimentation needle-bar, and the lower end of sedimentation reel cage is hinged on the frame; The top link that the parts of guide bar assembly comprise reel cage, are dynamically connected with reel cage middle part is connected sley bar on the reel cage by the sley bar suspension bracket, is connected with the Jacquard pin on the sley bar.Transmission device comprise the forward and backward needle-bar transmission mechanism corresponding with forward and backward needle-bar part, with partly corresponding forward and backward sedimentation transmission mechanism of forward and backward sedimentation and sley bar reel cage on swing actuation mechanism and sley bar reel cage bottom transmission mechanism; The swing actuation mechanism provides power by same driving shaft on above-mentioned preceding needle-bar transmission mechanism, preceding sedimentation transmission mechanism and the sley bar reel cage, sley bar reel cage bottom transmission mechanism provides power by another driving shaft, and above-mentioned back needle-bar transmission mechanism and back sedimentation transmission mechanism provide power by the 3rd driving shaft.Using though piezoelectric ceramics Jacquard pin is existing at present, all is to be applied on the single needle bar warp knitting machine.And in double rib warp loom, above-mentioned each transmission mechanism is generally taked cam mechanism, or cam or cam and eccentric mechanism combination transmission, what be that 1610772A, title be that disclosed relevant transmission is taked in the application for a patent for invention prospectus of " the swing position regulator of the yarn guiding chase comb in the double-needle bed raschel warp knitting machine " as the Chinese invention patent publication number is cam drive, owing to be that line or point contact between cam and the driven member, pressure is big, easy to wear, at a high speed unsuitable, and the processing and manufacturing difficulty, accuracy is low.

The utility model content

The purpose of this utility model is to propose a kind of suitable complex pattern and double rib warp loom at a high speed.

For achieving the above object, the utility model is taked following technical scheme:

The utility model comprises into coil apparatus, guide bar assembly, transmission device; Described one-tenth coil apparatus comprise the symmetry before, back knocking over part, before the symmetry, before back needle-bar part and the symmetry, back sedimentation part, wherein, back knocking over part respectively comprises knocking over support that is connected on the frame and the knocking over needle-bar that is connected on the knocking over support, before, the parts of back needle-bar part respectively comprise, by last, latch needles bed that following connector and knocking over support are dynamically connected and the latch needles that is installed on the latch needles bed, before, the parts of back sedimentation part respectively comprise the sedimentation swing arm, be fixed on the sedimentation needle-bar and the sedimentation pin that is installed on the sedimentation needle-bar of sedimentation swing arm upper end, the lower end of sedimentation reel cage is hinged on the frame; The parts of described guide bar assembly comprise the sley bar reel cage, are installed in the sley bar on the reel cage; Described transmission device comprises swing actuation mechanism and sley bar reel cage bottom transmission mechanism on symmetrically arranged forward and backward needle-bar transmission mechanism, symmetrically arranged forward and backward sedimentation transmission mechanism and the sley bar reel cage; The swing actuation mechanism provides power by a driving shaft on above-mentioned preceding needle-bar transmission mechanism and preceding sedimentation transmission mechanism and the sley bar reel cage, above-mentioned sley bar reel cage bottom transmission mechanism provides power by No. two driving shafts, and above-mentioned back needle-bar transmission mechanism, back sedimentation transmission mechanism provide power by No. three driving shafts; It is characterized in that: have at least one to be piezoelectric ceramics Jacquard sley bar in the described sley bar; Swing actuation mechanism and sley bar reel cage bottom transmission mechanism all are connecting rod of eccentric wheel transmission mechanisms on described forward and backward needle-bar transmission mechanism, forward and backward sedimentation transmission mechanism, the sley bar reel cage.

Described forward and backward needle-bar transmission mechanism respectively has the needle-bar eccentric wheel, has by many needle-bar connecting rods between needle-bar eccentric wheel and the latch needles bed to be connected; The needle-bar eccentric wheel of needle-bar transmission mechanism is connected on driving shaft before described, and the needle-bar eccentric wheel of described back needle-bar transmission mechanism is connected on No. three driving shafts.

Described forward and backward sedimentation transmission mechanism respectively has the sedimentation eccentric wheel, be connected by many sedimentation connecting rods between the middle-end of sedimentation eccentric wheel and sedimentation reel cage, before the sedimentation eccentric wheel of sedimentation transmission mechanism be connected on driving shaft, the sedimentation eccentric wheel of back sedimentation transmission mechanism is connected on No. three driving shafts.

The swing actuation mechanism has and goes up pendulum eccentric wheel and top link on the described sley bar reel cage, and top link is dynamically connected with sley bar reel cage middle part by the last balance staff of fixedlying connected with it, on put and upward put connecting rod by many between eccentric wheel and the top link and be connected; The pendulum eccentric wheel of going up of swing actuation mechanism is connected on driving shaft on the sley bar reel cage.

Described sley bar reel cage bottom transmission mechanism has bottom eccentric wheel, is connected by many bottom connecting rods between the rear end of bottom eccentric wheel and sley bar reel cage; The bottom eccentric wheel of sley bar reel cage bottom transmission mechanism is connected on No. two driving shafts.

The utlity model has following good effect:

1, the utility model adopts piezoelectric ceramics Jacquard pin, because piezoelectric ceramic piece is respectively posted on the two sides of piezoelectric ceramics Jacquard pin, isolate by glass layer or sheet metal between them, after the piezoelectric ceramics of both sides adds the positive/negative voltage signal of computer program control, meeting flexural deformation makes the Jacquard pin be offset to the left or to the right.The use of piezoelectric ceramics Jacquard pin makes warp knitting machine can weave complicated more and careful colored type, and change flower type is more convenient, and simplifies the structure.

2, each drive mechanism of the utility model all adopts eccentric rod gear, compare with original cam link mechanism, the movement locus of eccentric rod gear is complicated more, the motion traverse is big, the precision height, adapt to more complicated colored type, because machine rotational speed can be further enhanced favourable enhancing productivity.

3, owing to be the face contact between two bars that are connected, it is little to wear and tear, increase the service life, and than the easy processing of cam mechanism.

Description of drawings

For the easier quilt of content of the present utility model is clearly understood, below the specific embodiment and in conjunction with the accompanying drawings of basis, the utility model is described in further detail, wherein

Fig. 1 is a configuration diagram of the present utility model;

Fig. 2 is the configuration diagram of preceding needle-bar part and preceding needle-bar transmission mechanism;

Fig. 3 is that the A of Fig. 2 is to view;

Fig. 4 is the configuration diagram of preceding sedimentation part and preceding sedimentation transmission mechanism;

Fig. 5 is that the B of Fig. 4 is to view;

Fig. 6 is that the C of Fig. 4 is to view;

Fig. 7 is the configuration diagram of swing actuation mechanism on the sley bar reel cage;

Fig. 8 is that the D of Fig. 7 is to view;

Fig. 9 is that the E of Fig. 7 is to view;

Figure 10 is the configuration diagram of sley bar reel cage bottom transmission mechanism.

The specific embodiment

Embodiment 1

Embodiment shown in Fig. 1 to 10 comprises into coil apparatus, guide bar assembly and transmission device.Described one-tenth coil apparatus comprises the forward and backward sedimentation part 3 of the forward and backward knocking over part 1 of symmetry, forward and backward needle-bar part 2 and symmetry.Described transmission device comprise forward and backward needle-bar transmission mechanism 5,5 ', the symmetry of symmetry forward and backward sedimentation transmission mechanism 6,6 ' and the sley bar reel cage on swing actuation mechanism 7 and sley bar reel cage bottom transmission mechanism 8.

See Fig. 2 to 3, forward and backward knocking over part 1 respectively comprises the knocking over support 1-1 that is connected on the frame and is connected knocking over needle-bar 1-2 on the knocking over support 1-1, the latch needles bed 2-1 that the parts of forward and backward needle-bar part 2 respectively comprise, be dynamically connected by upper and lower connector 2-3,2-4 and knocking over support 1-1 and be installed in latch needles 2-2 on the latch needles bed 2-1.Knocking over support 1-1 is by the first locating shaft 1-3 and second locating shaft 1-4 location, and knocking over support 1-1 is connected with needle-bar reel cage guiding mechanism 1-5 by the second locating shaft 1-4.Described forward and backward needle-bar transmission mechanism 5,5 ' respectively has needle-bar eccentric wheel 5-0, has by the first needle-bar connecting rod 5-1, the second needle-bar connecting rod 5-2, the 3rd needle-bar connecting rod 5-3, the 4th needle-bar connecting rod 5-4, the 5th needle-bar connecting rod 5-5, the 6th needle-bar connecting rod 5-6, the 7th needle-bar connecting rod 5-7 between needle-bar eccentric wheel 5-0 and the latch needles bed 2-1 to be connected.Be connected on the first support 5-9 by bearing pin 5-10 between the needle-bar eccentric wheel 5-0 of needle-bar transmission mechanism 5 and the first needle-bar connecting rod 5-1 before described, be connected on the second support 5-13 by bearing pin 5-14 between the second needle-bar connecting rod 5-2 and the 3rd needle-bar connecting rod 5-3, be connected by bearing pin 5-15 between the 3rd needle-bar connecting rod 5-3 and the 4th needle-bar connecting rod 5-4, directly be connected between the 4th needle-bar connecting rod 5-4 and the 5th needle-bar connecting rod 5-5, the 5th needle-bar connecting rod 5-5 and the 6th needle-bar connecting rod 5-6 respectively are connected on the swing arm 5-8 by bearing pin, swing arm 5-8 is connected on the frame, the 6th needle-bar connecting rod 5-6 directly is connected with the 7th needle-bar connecting rod 5-7, and the 7th needle-bar connecting rod 5-7 is connected with latch needles bed 2-1.The above-mentioned first support 5-9, the second support 5-13 all are connected on the frame.See Fig. 1, described before the needle-bar eccentric wheel of needle-bar transmission mechanism be connected on driving shaft 9, the needle-bar eccentric wheel of described back needle-bar transmission mechanism 5 ' is connected on No. three driving shafts 11.By the transmission of forward and backward needle-bar transmission mechanism, realize that latch needles bed 2-1 moves up and down, and moves up and down thereby drive latch needles 2-2.

See Fig. 4 to 6, the parts of forward and backward sedimentation part 3 respectively comprise sedimentation reel cage 3-1, be fixed on the sedimentation needle-bar 3-2 of sedimentation reel cage 3-1 upper end and be installed in sedimentation pin 3-3 on the sedimentation needle-bar 3-2, and the lower end of sedimentation reel cage 3-1 is hinged on the frame 10.Forward and backward sedimentation transmission mechanism 6,6 ' respectively has sedimentation eccentric wheel 6-0, is connected by the first sedimentation connecting rod 6-1, the second sedimentation connecting rod 6-2, the 3rd sedimentation connecting rod 6-3, the 4th sedimentation connecting rod 6-4 between the middle-end of sedimentation eccentric wheel 6-0 and sedimentation reel cage 3-1.Be connected on the 3rd support 6-9 by bearing pin 6-10 between the sedimentation eccentric wheel 6-0 and the first sedimentation connecting rod 6-1, respectively be connected on the 4th support 6-12 between the first sedimentation connecting rod 6-1 and the second sedimentation connecting rod 6-2 by bearing pin 6-11,6-13.The second sedimentation connecting rod 6-2 directly is connected with the 3rd sedimentation connecting rod 6-3, is connected by bearing pin 6-14 between the 3rd sedimentation connecting rod 6-3 and the 4th support 6-12, and above-mentioned the 3rd support 6-9 and the 4th support 6-12 are connected on the frame.The 3rd sedimentation connecting rod 6-3 is connected with guiding mechanism 6-5 with bearing pin 6-14 between the 4th sedimentation connecting rod 6-4.See Fig. 1, described before the sedimentation eccentric wheel of sedimentation transmission mechanism 6 be connected on driving shaft 9, the sedimentation eccentric wheel of back sedimentation transmission mechanism 6 ' is connected on No. three driving shafts 11.By the transmission of forward and backward sedimentation transmission mechanism, realize forward and backward sedimentation reel cage 3-1 swing, move forward and backward thereby drive sedimentation pin 3-3.

See Fig. 1, the parts of described guide bar assembly 4 comprise sley bar reel cage 4-1, are connected the sley bar on the sley bar reel cage 4-1, have at least one to be piezoelectric ceramics Jacquard sley bar in the sley bar, need to prove that 1 piezoelectric ceramics Jacquard sley bar 4-2 is made up of the piezoelectric ceramics Jacquard sley bar 4-2-1 that two rows separate.The quantity of sley bar can be 2 piezoelectric ceramics Jacquard sley bar 4-2 and many ground comb sley bar 4-3, also can be 1 piezoelectric ceramics Jacquard sley bar 4-2 and many ground comb sley bar 4-3, also can be 2 or 2 above sley bar that piezoelectric ceramics Jacquard sley bar 4-2 is combed with having.The arrangement of piezoelectric ceramics Jacquard sley bar 4-2 can be installed in the centre of sley bar reel cage 4-1, and ground comb sley bar 4-3 is in both sides, also can be installed in piezoelectric ceramics Jacquard sley bar 4-2 the both sides of sley bar reel cage 4-1.In a word, piezoelectric ceramics Jacquard sley bar 4-2 can be installed on the last arbitrary installable position of sley bar reel cage 4-1.Present embodiment has 2 piezoelectric ceramics Jacquard sley bar 4-2 and 4 ground comb sley bar 4-3, and 2 mediate piezoelectric ceramics Jacquard sley bar 4-2.Because piezoelectric ceramic piece is respectively posted on the two sides of piezoelectric ceramics Jacquard pin, formed the Jacquard element by the glass layer isolation between them.After the piezoelectric ceramics of both sides added the positive/negative voltage signal of computer program control, meeting flexural deformation made the Jacquard pin be offset to the left or to the right.All there is locating piece on the two sides before and after the Jacquard pin, can guarantee like this to space accurately.According to the plane No. of jacquard warp, piezoelectricity Jacquard element can be combined into the piezoelectricity Jacquard pin piece that difference is spaced, and the latter is assembled into the Jacquard sley bar again.Piezoelectric type Jacquard technology is simplified the mechanism of jacquard warp jacquard weave part greatly, and speed is greatly improved.And cooperates with area of computer aided flower type design system, can accelerate the design of jacquard warp-knitting fabric, simplify knitting technology, shortening upgrading period of product.

See Fig. 7-9, swing actuation mechanism 7 has the pendulum of going up eccentric wheel 7-0 and top link 7-5 on the described sley bar reel cage, top link 7-5 is dynamically connected by the last balance staff 7-6 of fixedlying connected with it and sley bar reel cage 4-1 middle part, on put between eccentric wheel 7-0 and the top link 7-5 by pendulum connecting rod 7-2 on the pendulum connecting rod 7-1, second on first and be connected, put connecting rod 7-4 connection on the pendulum connecting rod 7-3, the 4th on the 3rd.Be connected on the 5th support 7-9 by bearing pin 7-10 between the pendulum connecting rod 7-1 on the last pendulum eccentric wheel 7-0 and first, directly be connected between the pendulum connecting rod 7-2 on the pendulum connecting rod 7-1 and second on first, putting connecting rod 7-3 on the pendulum connecting rod 7-2 and the 3rd on second respectively is connected on the 6th support 7-7 by bearing pin 7-11,7-12, on the 3rd on the pendulum connecting rod 7-3 and the 4th pendulum connecting rod 7-4 be connected, put connecting rod 7-4 on the 4th to be connected on the top link 7-5 by bearing pin 7-8.The pendulum eccentric wheel 7-1 that goes up of swing actuation mechanism 7 is connected driving shaft 11 No. three on the sley bar reel cage.

See Figure 10, described sley bar reel cage bottom transmission mechanism 8 has bottom eccentric wheel 8-0, is connected by first bottom connecting rod 8-1, second bottom connecting rod 8-2 between the front end rear end of bottom eccentric wheel 8-0 and sley bar reel cage 4-1; Be connected on the 7th support 8-3 by bearing pin 8-4 between bottom eccentric wheel 8-0 and the bottom connecting rod 8-1, first bottom connecting rod 8-1 is connected with second bottom connecting rod 8-2, second bottom connecting rod 8-2 is connected with sley bar reel cage 4-1 rear end by bearing pin 8-4, the 7th support 8-3 is connected on the frame, and the bottom eccentric wheel 8-1 of bottom transmission mechanism 8 is connected on No. two driving shafts 10.Sley bar reel cage 4-1 finishes swing under the acting in conjunction of swing actuation mechanism 7 on the sley bar reel cage and sley bar bottom transmission mechanism 8.

Claims

1, a kind of double rib warp loom comprises into coil apparatus, guide bar assembly, transmission device; Described one-tenth coil apparatus comprise the symmetry before, back knocking over part (1), before the symmetry, before back needle-bar part (2) and the symmetry, back sedimentation part (3), wherein, back knocking over part (1) respectively comprises the knocking over support (1-1) that is connected on the frame and is connected knocking over needle-bar (1-2) on the knocking over support (1-1), before, the parts of back needle-bar part (2) respectively comprise, by last, following connector (2-3,2-4) the latch needles bed (2-1) that is dynamically connected with knocking over support (1-1) and be installed in latch needles (2-2) on the latch needles bed (2-1), before, the parts of back sedimentation part (3) respectively comprise sedimentation swing arm (3-1), be fixed on the sedimentation needle-bar (3-2) of sedimentation swing arm (3-1) upper end and be installed in sedimentation pin (3-3) on the sedimentation needle-bar (3-2), the lower end of sedimentation reel cage (3-3) is hinged on the frame (10); The parts of described guide bar assembly (4) comprise sley bar reel cage (4-1), are installed in the sley bar on the reel cage (4-1); Described transmission device comprises swing actuation mechanism (7) and sley bar reel cage bottom transmission mechanism (8) on symmetrically arranged forward and backward needle-bar transmission mechanism (5,5 '), symmetrically arranged forward and backward sedimentation transmission mechanism (6,6 ') and the sley bar reel cage; Swing actuation mechanism (7) provides power by a driving shaft (9) on above-mentioned preceding needle-bar transmission mechanism (5) and preceding sedimentation transmission mechanism (6) and the sley bar reel cage, above-mentioned sley bar reel cage bottom transmission mechanism (8) provides power by No. two driving shafts (10), and above-mentioned back needle-bar transmission mechanism (5 '), back sedimentation transmission mechanism (6 ') provide power by No. three driving shafts (11); It is characterized in that: have at least one to be piezoelectric ceramics Jacquard sley bar (4-2) in the described sley bar; Swing actuation mechanism (7) and sley bar reel cage bottom transmission mechanism (8) all are connecting rod of eccentric wheel transmission mechanisms on described forward and backward needle-bar transmission mechanism (5,5 '), forward and backward sedimentation transmission mechanism (6,6 '), the sley bar reel cage.

2, double rib warp loom according to claim 1 is characterized in that: described forward and backward needle-bar transmission mechanism (5,5 ') respectively has needle-bar eccentric wheel (5-0), has by many needle-bar connecting rods between needle-bar eccentric wheel (5-0) and the latch needles bed (2-1) to be connected; The needle-bar eccentric wheel (5-0) of needle-bar transmission mechanism (5) is connected on the driving shaft (9) before described, and the needle-bar eccentric wheel of described back needle-bar transmission mechanism (1) is connected on No. three driving shafts (11).

3, double rib warp loom according to claim 1, it is characterized in that: described forward and backward sedimentation transmission mechanism (6,6 ') respectively has sedimentation eccentric wheel (6-0), be connected by many sedimentation connecting rods between the middle-end of sedimentation eccentric wheel (6-0) and sedimentation reel cage (3-1), the sedimentation eccentric wheel (6-0) of preceding sedimentation transmission mechanism (6) is connected on the driving shaft (9), and the sedimentation eccentric wheel of back sedimentation transmission mechanism (6 ') is connected on No. three driving shafts (11).

4, double rib warp loom according to claim 1, it is characterized in that: swing actuation mechanism (7) has the pendulum of going up eccentric wheel (7-0) and top link (7-5) on the described sley bar reel cage, top link (7-5) is dynamically connected by the last balance staff (7-6) of fixedlying connected with it and sley bar reel cage (4-1) middle part, on put between eccentric wheel (7-0) and the top link (7-5) to go up and put connecting rods and be connected by many; The pendulum eccentric wheel (7-0) of going up of swing actuation mechanism (7) is connected on the driving shaft (9) on the sley bar reel cage.

5, double rib warp loom according to claim 1 is characterized in that: described sley bar reel cage bottom transmission mechanism (8) has bottom eccentric wheel (8-0), is connected by many bottom connecting rods between the rear end of bottom eccentric wheel (8-0) and sley bar reel cage (4-1); The bottom eccentric wheel (8-0) of sley bar reel cage bottom transmission mechanism (8) is connected on No. two driving shafts (10).