Summary of the invention
In order to solve the problems of the technologies described above, the utility model provides a kind of circular knitting machine density regulating apparatus with induction alarm mechanism, thereby reaches purpose simple in structure, sensitive alarm.
Adopt following technical scheme: a kind of circular knitting machine density regulating apparatus with induction alarm mechanism for this reason, comprise driving mechanism, transmission mechanism, dynamic density cam mechanism and piston mechanism, driving mechanism, transmission mechanism, dynamic density cam mechanism and piston mechanism are installed on the triangle base, by transmission mechanism, drive the motion of dynamic density cam mechanism by driving mechanism; Piston mechanism comprises dynamic density cylinder body and an air rammer, and the dynamic density cylinder body is fixedly mounted on the triangle base; Air rammer contacts the dynamic density triangle base; Described dynamic density cam mechanism comprises a dynamic density triangle base, and the dynamic density triangle base is slidingly connected by linear bearing and triangle base; It is characterized in that:
On dynamic density cylinder body top one fixed mount is arranged, described alarm mechanism is installed on the fixed mount; Described induction alarm mechanism is comprised of inserts, elasticity part, induction hex nut, induction pin, and induction pin outside cover has the induction hex nut, and at induction pin middle and upper part cover elasticity part is arranged; The bottom end face of described induction pin can contact with the induction planes on the dynamic density triangle base.
By being installed in the air rammer work on the dynamic density cylinder body, carry out along the moving forward and backward of drive link thereby drive part on the dynamic density triangle base that is installed on the linear bearing, part that can displacement comprises each part in the driving mechanism.And in this course of work, it is motionless that triangle base and dynamic density cylinder keep, thereby realize working position subluxation and full position, and when described density triangular mechanism was in original position, the induction pin contacted with induction planes on the dynamic density triangle base, does not report to the police at this moment; When by air rammer the dynamic density triangle base being pushed to subluxation, this moment, density triangular mechanism was subjected to displacement thereupon, thereby can allow the induction planes of responding on pin and the dynamic density triangle base be in released state, and this is normal operating conditions, does not report to the police; If the dynamic density triangle base does not enter subluxation, density triangular mechanism is not subjected to displacement, and the induction planes that respond on pin and the dynamic density triangle base this moment still is in contact condition, and be abnormality this moment, and alarm appears in inductor.
And when the dynamic density triangle base enters subluxation, high pin knitting needle enters in the track that density triangular mechanism forms and weaves, by cooperating of bolt and hex nut can the regulating density cam mechanism and the distance of low pin knitting needle, therefore effectively prevent the stitch wearing and tearing of low pin knitting needle and the generation of dropped stitch situation, guaranteed the weaving quality of fabric and the generation of minimizing mechanical disorder.
Description of drawings
Fig. 1 is the 3 D stereo side view of present embodiment;
Fig. 2 is the top view of present embodiment;
Fig. 3 is the sectional structure chart of A-A face among Fig. 2;
Fig. 4 is the front view of present embodiment;
Fig. 5 is one of dynamic density triangle base internal structure signal of present embodiment;
Fig. 6 be present embodiment dynamic density triangle base internal structure schematic diagram two;
The internal motion mode schematic diagram of present embodiment when Fig. 7 is work;
Fig. 8 is dynamic density depressing cam in the present embodiment;
Fig. 9 is dynamic density rise cam in the present embodiment;
Figure 10 is present embodiment dynamic density rise cam Cam Track;
Figure 11 is one of present embodiment alarm mechanism schematic diagram;
Figure 12 is present embodiment driving cam scheme of installation;
Figure 13 is present embodiment driving cam structural representation;
Figure 14 is the schematic diagram after present embodiment driving cam structure is installed;
Figure 15 is the schematic diagram of limited block in the present embodiment;
Figure 16 is the schematic diagram of dynamic density triangle base;
Figure 17 is two of present embodiment alarm mechanism schematic diagram;
Figure 18 is drive link and the density cam scheme of installation of present embodiment;
Figure 19 is drive link and the density cam schematic diagram of present embodiment;
Figure 20 is the density cam work schematic diagram of present embodiment;
Figure 21 is full position position-limit mechanism schematic diagram in the present embodiment;
Figure 22 is subluxation in the present embodiment-full position position-limit mechanism schematic diagram;
Reference numeral: 1-dynamic density triangle base; 2-dynamic density cam block; 3-dynamic density depressing cam; 4-dynamic density rise cam; 5-slide block baffle plate; 6-dynamic density cylinder body; The 7-triangle base; 8-moving cylinder lid; The 9-drive block; The 10-limited block; 11-density electrical machine frame; 12-subluxation alarm mechanism; The full position of 13-alarm mechanism; 14-subluxation, full position position-limit mechanism; 15-subluxation position-limit mechanism; The 16-adjusting bolt; The full position of 17-position-limit mechanism; The 18-density electrical machine; 19-slide block buffers push rod; 20-slide block buffers spring; The 21-drive link; The 22-driving cam; The 23-motor shaft sleeve; 24-upper limit holding screw; 25-lower limit holding screw; 26-the first straight pin; 27-the second straight pin.28-density cam; The 29-air rammer; The 30-fixed mount
The specific embodiment
Referring to accompanying drawing.Present embodiment is made of driving mechanism, transmission mechanism, dynamic density transmission mechanism and piston mechanism, drives to transmission mechanism by driving mechanism, thereby drives the dynamic density transmission mechanism motion that is connected with transmission mechanism, thereby finishes programmed instruction.Described transmission mechanism comprises a triangle base 7, has a horizontal installing hole at triangle base 7, and a drive link 21 is arranged in installing hole, fixedly mounts a density cam 28 at an end of drive link 21.
Described dynamic density transmission mechanism comprises dynamic density triangle base 1, dynamic density cam block 2, dynamic density depressing cam 3, dynamic density rise cam 4.Dynamic density depressing cam 3 comprises a Cam Track face 31, Cam Track 31 is formed by connecting by arc transition successively by the first Cam Track face 311, the second Cam Track face 312 and the 3rd Cam Track face 313, and described the first Cam Track face 311, the second Cam Track face 312 and the 3rd Cam Track face 313 are the inclined-plane.Described dynamic density rise cam 4 comprises a Cam Track face 41 and a bottom surface 42 and chamfering 43.Cam Track 41 comprises the first Cam Track face 411, the second Cam Track face 412 and the 3rd Cam Track face 413; Described the first Cam Track face 411 is smooth flat, and the second Cam Track face 412 is convex surfaces, and the 3rd Cam Track face 413 is smooth bevels; Described the first Cam Track face 411 be connected Cam Track face 412 and connect by the arc surface transition, the second Cam Track face 412 connects by an arc surface transition with the 3rd Cam Track face 413; Described Cam Track face 41 links to each other with bottom surface 42 by chamfering 43.
Described dynamic density triangle base 1 is above the installing hole of triangle base 7, and at dynamic density triangle base 1 a vertical groove is arranged, one buffering push rod 19 and a buffer sliding block spring 20 is housed in groove, slide block buffers spring 20 is enclosed within buffering push rod 19 middle and lower parts, described density triangular slide block 2 is by being fixedly connected with buffering push rod 19, make described dynamic density cam block 2 be suspended at dynamic density triangle base 1 surface, and all fit with dynamic density triangle base 1 gap in the both sides of dynamic density cam block 2 and back, and are fixed at the two slide block baffle plates 5 that have of the same lateral surface of dynamic density cam block 2 and dynamic density triangle base 1.One groove is arranged in dynamic density cam block 2, and groove has the profile that cooperates with density cam 28, and described density cam 28 is installed in the groove of dynamic density cam block 2.One side of described dynamic density cam block 2 is bolted dynamic density depressing cam 3 and dynamic density rise cam 4 is installed.Be fixedly connected with the first straight pin 26 and the second straight pin 27 at dynamic density cam block 2, the other end of two straight pins is in the vertical groove of dynamic density triangle base 1, and the up and down groove surface in vertical groove is separately installed with upper limit holding screw 24, lower limit clamp screw 25, the projection of upper limit holding screw 24 is on the track that the first straight pin 26 moves up and down, and the projection of lower limit holding screw 25 is on the track that the second straight pin 27 moves up and down.
Piston mechanism comprises a linear bearing and a dynamic density cylinder body 6, this dynamic density cylinder body 6 is bolted on the triangle base 7, at dynamic density cylinder body 6 half position-limit mechanism 15 is arranged, described half position-limit mechanism 15 closes bolt and nut by an assembly and forms, and is installed between dynamic density cylinder body 6 and the dynamic density triangle base 1; Be provided with subluxation spacing alarm mechanism 12 at dynamic density cylinder body 6, described half spacing alarm mechanism 12 is comprised of inserts 1211, spring 1212, induction hex nut 1213, induction pin 1214, induction pin 1214 outsides cover has induction hex nut 1213, and at induction pin 1214 middle and upper parts cover spring 1212 is arranged; In dynamic density cylinder body 6, have a through hole, an air rammer 29 is set in the through hole; At dynamic density cylinder body 6 fixed installations one fixed mount 30; Described half spacing alarm mechanism 12 is installed on the fixed mount 30, can contact with the induction planes on the dynamic density triangle base 1 at the bottom end face of described induction pin 1214.Fixedly mount moving cylinder lid 8 in dynamic density cylinder 6 back.One subluxation-full position position-limit mechanism 14 also is installed on movable cylinder cover 8, described subluxation-full position position-limit mechanism 14 comprises a stop screw 141 and a locking nut 142, described stop screw 141 is installed between the density electrical machine frame 11 of moving cylinder lid 8 and driving mechanism, described subluxation-full position position-limit mechanism 14 also comprises a little limited block 143, and described little limited block 143 is embedded on the density electrical machine frame 11 and with stop screw 141 and is connected; Also comprise a spring 144 between the density electrical machine frame 11 of moving cylinder lid 8 and driving mechanism, described spring 144 is installed in stop screw 141 belows, and overcoat has a spring housing 145.
Described driving mechanism is made of density electrical machine 18 and density electrical machine frame 11, density electrical machine 18 is installed on the density electrical machine frame 11, density electrical machine frame 11 is connected with dynamic density triangle base 1 by straight pin, driving mechanism also comprises a driving cam 22, driving cam 22 is installed on density electrical machine 18 axles one end by motor shaft sleeve 23, driving cam 22 is comprised of base cam 221 and cam 222, and the two is fixedly connected with; Described base cam 221 prolongs as circular-arc 2211 and a wedge angle projection 2212 is arranged; Base cam 221 tops are cam 222, and cam 222 has an overhanging protrusion edge 2221; The wedge angle projection 2212 of base cam and the overhanging protrusion edge 2221 of cam have the staggered of 100-180 degree angle; Described density electrical machine frame 11 has a hole 1111, and is cambered surface 1112 in the hole, and cambered surface 112 is tangent with overhanging protrusion edge 2221 movement locus of cam; On density electrical machine frame 11, also have a driving cam limited block 226, driving cam limited block 226 lower along side 2261 on the movement locus of the overhanging protrusion edge 2221 of cam; Driving mechanism also comprises a drive block 9, there is an arcwall face 91 drive block 9 sides, and have an inclined plane 112 at dynamic density triangle base 1, described inclined plane 112 has joining with drive block 9 movement locus, and joining is on the arcwall face 91 of the inclined plane 112 of dynamic density triangle base 1 and drive block 9 sides; In the bottom of drive block 9 installing hole is arranged, the other end of described drive link 21 is connected in the installing hole by pin, on described drive block 9 tops, be rotationally connected a limited block 10 by pad and screw fit, described limited block 10 is irregular T-shaped structure, limited block bottom 1011 is movably connected on the drive block 9 by bolt, and T-shaped athwartship plane 1012 is plane and tangent with driving cam 22 arc surfaces, the movement locus of described driving cam 22 can with limited block 10 tangent and final conflicts.Downside at limited block 10 has an adjusting bolt 16, and adjusting bolt contacts mutually with limited block.By a subluxation-be that position-limit mechanism 14 is connected dynamic density cylinder body 6 with density electrical machine frame 11 entirely, be designed with a full position induction mechanism 13 and full position position-limit mechanism 17 on the described density electrical machine frame 11.Described full position induction mechanism 13 is by inductor hex nut 131, inductor nut 132, inductor pin 133 and inductor 134 form, described inductor hex nut 131, inductor nut 132 are enclosed within on the inductor pin 133, and cooperate and to be installed on the density electrical machine frame 11, fastening by holding screw 139; Described inductor hex nut 1 is a working of plastics, and dynamic density triangle base 1 is positioned at the front end of induction pin 133.Full position position-limit mechanism 17 is made of a holding screw 171 and an adjustment screw 172, one axial installing hole is arranged in density electrical machine frame 11 bottoms, described installing hole internal thread is installed a holding screw 171, can the conflict front end face 161 of density triangular base 1 of the end face of described holding screw 171; By the axially extending bore of density electrical machine 11 bottoms, in the axially extending bore vertical direction one through hole is arranged, in the hole, by bolt one adjustment screw 173 is installed, described adjustment screw 172 tail ends and holding screw 172 are inconsistent.
Described triangle base 7 is fixed installation, fixedly mount described dynamic density cylinder body 6 thereon, and at triangle base 7 and 6 installation linear bearings of dynamic density cylinder body, by being installed in the air rammer 28 on the dynamic density cylinder body, carry out along the moving forward and backward of drive link 21 thereby drive part on the dynamic density triangle base 1 be installed on the linear bearing, part that can displacement comprises each part in the driving mechanism.
When density electrical machine 18 work, driving driving cam 22 mounted thereto does together and clockwise rotates, the overhanging protrusion edge 2221 of cam can rotate around the cambered surface 1112 of density electrical machine frame endoporus 1111, the overhanging protrusion edge 2221 of its cam can carry out spacing adjusting by driving cam limited block 226, arc surface 2211 and limited block 10 end faces 1012 of base cam extension are done tangent motion, when driving cam 22 turns to certain position, meeting and the limited block 10 that is installed on the drive block 9 are inconsistent, thereby driving drive block 9 and part mounted thereto moves together, drive link 21 passes to density cam 28 with this rotation, density cam 28 is made accordingly and being rotated counterclockwise, density cam 28 is by the rotation in dynamic density cam block 2 grooves, dynamic density cam block 2 can be pressed down, finish dynamic density cam block 2, dynamic density rise cam 4, dynamic density depressing cam 3 is together to the purpose of bottom offset.In like manner, when density electrical machine 18 drive driving cams 22 rotate counterclockwise, driving cam 22 turn an angle after and limited block 10 inconsistent, can drive drive block 9 and upper-part thereof corresponding the rotation occurs, drive link 21 transmissions are to density cam 28, density cam 28 clockwise rotates, and again with dynamic density cam block 2 jack-up, finishes dynamic density cam block 2, dynamic density rise cam 4, dynamic density depressing cam 3 together to the purpose of top offset.In the course of the work, can limit by the position of 24 pairs of the first straight pins 26 of upper limit holding screw, position by 25 pairs of the second straight pins 27 of lower limit holding screw limits, thereby the upper and lower displacement of finishing dynamic density cam block 2 limits, and when work, can by the cooperation of slide block buffers push rod 19 and slide block buffers spring 20, dynamic density cam block 2 be reduced to initial position.
By being installed in air rammer 28 work on the dynamic density cylinder body, carry out along the moving forward and backward of drive link 21 thereby drive part on the dynamic density triangle base 1 that is installed on the linear bearing, part that can displacement comprises each part in the driving mechanism.And in this course of work, triangle base 7 and dynamic density cylinder 6 keep motionless, thereby realize working position subluxation and full position, and can carry out the early warning protective effect by subluxation spacing alarm mechanism 12 and full position induction mechanism 13, the specific works mode is as follows: according to the type that do not suit, under programme-control, when described density transmission mechanism is in original position, induction pin 1214 contacts with induction planes 1224 on the dynamic density triangle base 1, does not report to the police at this moment; When by air rammer 29 the syringe cambered surface on the dynamic density triangle base 1 being pushed to subluxation, this moment, the density transmission mechanism was subjected to displacement thereupon, thereby can allow the induction planes 1224 of responding on pin 1214 and the dynamic density triangle base 1 be in released state, this is normal operating conditions, does not report to the police; If dynamic density triangle base 1 does not enter subluxation, the density transmission mechanism is not subjected to displacement, and the induction planes 1224 that respond on pin 1214 and the dynamic density triangle base 1 this moment still is in contact condition, and be abnormality this moment, and alarm appears in inductor.When air rammer 29 is pushed to full position with dynamic density triangle base 1, high pin knitting needle and low pin knitting needle enter to simultaneously in the Cam Track that the density transmission mechanism forms and carry out work, the inductor pin 133 of alarm mechanism is in fit-state with the front end face 161 of dynamic density triangle base 1 at this moment, and do not report to the police this moment; When air rammer 29 is not pushed to dynamic density triangle base 1 full position, inductor pin 133 will be in released state with the front end face 161 of dynamic density triangle base 1, and the inductor 134 that is connected in 132 on induction hex nut 131 and inductor nut this moment will carry out induction alarm.And full position, the subluxation of subluxation-full position position- limit mechanism 14 and 17 pairs of dynamic density transmission mechanisms of full position position-limit mechanism can limit and regulate.The stop screw 141 of subluxation-full position position-limit mechanism 14 is adjusted to certain position, just can requires rapid, sensitive complete and the subluxation of entering according to program.And after the dynamic density triangle base is promoted to enter full position, subluxation work by air rammer, reset by the spring 144 in the spring housing 145, spacing by stop screw 141.And by regulating the holding screw 172 of full position position-limit mechanism 17, thereby limit the distance of holding screw 171 front end face 71 to the triangle base 7, thus carry out spacing.And half position-limit mechanism 15 between dynamic density cylinder body 6 and power degree triangle base 1 also can by the adjusting of bolt, play the effect that limits subluxation.
Move up and down to make knitting needle to move up and down to change coil size along the track that dynamic density depressing cam, dynamic density rise cam form by the density transmission mechanism along syringe circumference cambered surface, thereby change Density.By two kinds of limiting structures are set, can effectively guarantee the displacement of density transmission mechanism when moving up and down, increased substantially Density quality of regulation and stability.The utility model can precisely be regulated Density, and compact simple on structural design, and the Auto-regulating System of Density of Heavy Medium of the type that is adapted to not suit is convenient to installation and maintenance, in various degree saved cost to the user.