CN203427234U - Full-automatic deviation prevention adhesive tape machine - Google Patents

Abstract

The utility model discloses a full-automatic deviation prevention adhesive tape machine and belongs to the technical field of lens molding machine. The full-automatic deviation prevention adhesive tape machine comprises a lens mold positioning mechanism, a lens mold direction detection mechanism and a lens mold correction mechanism, wherein the lens mold positioning mechanism comprises a B-mold rotary positioning suction wheel, an A-mold mechanical arm and a B-mold mechanical arm; the B-mold rotary positioning suction wheel pushes a B mold to the B-mold mechanical arm and performs rotation operation; the A-mold mechanical arm and the B-mold mechanical arm are used for pushing a lens mold to the lens mold correction mechanism; the lens mold direction detection mechanism comprises a detection probe for determining the direction of the lens mold; the lens mold correction mechanism comprises a lifting device, a rotating device, a positioning device and an adsorbing device. The adhesive tape machine does not need a special clamp, and molding can be implemented through a single mold or multiple molds; the adhesive tape machine is suitable for simultaneous molding of lens molds with different specifications, different mold types and different degrees, so that the cost is saved; furthermore, the precision is high, the speed is high, and the function is complete.

Description

Full-automatic anti-eccentric sealing-tape machine

Technical field

The utility model belongs to eyeglass moulding machine technical field, is specifically related to a kind of full-automatic anti-eccentric sealing-tape machine.

Background technology

The correcting device of existing resin sheet moulding machine can only be processed with special fixture the eyeglass mould of single variety; the program that must reset while changing another kind of eyeglass mould is changed another kind of fixture again; because eyeglass mould need to manually be put into fixture; eyeglass mould has deviation while correcting the lens optical center after moulding; prism degree often has the phenomenon of exceeding standard, and qualification rate is low.Legacy equipment not only cost is high, and speed is slow, and precision is not high yet.

Therefore, develop a kind of special fixture that do not need, can single mold also can hybrid mold molding fully-automatic equipment, make its eyeglass mould that is applicable to different size, different mould kinds or different number of degrees molding simultaneously, can, especially for ball light, astigmatism, old light, old astigmatism lenses mould, to meet, save cost, propose high-precision requirement.

Utility model content

The purpose of this utility model is to overcome above-mentioned defect and deficiency, and provide a kind of full-automatic anti-eccentric sealing-tape machine, can single mold also can hybrid mold molding, it is applicable to different size, the molding simultaneously of the eyeglass mould of different mould kinds or the different number of degrees is a fully-automatic equipment for ball light, astigmatic lens mould.

The technical scheme that the utility model is realized its object employing is as follows.

Full-automatic anti-eccentric sealing-tape machine, comprise eyeglass die positioning mechanism, eyeglass mould direction testing agency and eyeglass mould correcting mechanism, described eyeglass die positioning mechanism comprises B mould rotation location suction wheel, A mould mechanical arm and B mould mechanical arm, described B mould rotation location is inhaled wheel B mould is pushed to B mould mechanical arm spinning movement, and described A mould mechanical arm and B mould mechanical arm push to eyeglass mould correcting mechanism by eyeglass mould, described eyeglass mould direction testing agency comprises in order to determine the detection head of eyeglass mould direction, described eyeglass mould correcting mechanism comprises lowering or hoisting gear, whirligig, positioner and adsorbent equipment, described lowering or hoisting gear comprises servomotor, gripper shoe and riser guide, described driven by servomotor is arranged on the whirligig in gripper shoe, positioner and adsorbent equipment are along riser guide reciprocating action, described whirligig comprises the main shaft that is driven rotation by stepper motor, described positioner comprises backstay, ringfeder and taper head, described ringfeder and taper head cone match, described backstay upper end and ringfeder touch, taper head spreading ringfeder is fixed backstay, described adsorbent equipment comprises sucker and the axis of guide being driven by guide cylinder, the described axis of guide is fixedly connected with sucker through main shaft and end.

Described B mould rotation location is inhaled wheel and is fixedly installed on location guide upper end, described location guide lower end is through the retainer spring in the guide pin bushing of location and be fixed on location guide pin bushing, described location guide pin bushing connects positioning cylinder push pedal, and described positioning cylinder push pedal is arranged on location guide cylinder output.

Described B mould rotation location is inhaled wheel and is fixedly installed on location guide upper end, described location guide is through the location bearing bearing that is fixedly installed on guide rail bearing, described location bearing bearing inner sleeve has rotary sleeve, sandwiched location bearing between described location bearing bearing and rotary sleeve, described rotary sleeve is fixedly installed location driven pulley, described location driven pulley is connected with location driving pulley by positioning synchronous band, and described location driving pulley is arranged on the output of electric rotating machine.

Described A mould mechanical arm is connected with guide rail fixed block by little guide rail with B mould mechanical arm and slidably, and described A mould mechanical arm is all fixed on clamping cylinder and does back and forth to clamp and move with B mould mechanical arm.

Described clamping cylinder is fixedly installed on clamping cylinder support.Described clamping cylinder support is fixed on supporting plate briquetting upper surface, and described supporting plate briquetting lower surface is connected with arm guide rail, and described supporting plate briquetting one side is fixedly connected with arm cylinder by cylinder fixed support.

Described eyeglass mould direction testing agency also comprises to be detected cylinder and detects guide rail, detecting cylinder output is connected with push pedal bearing by active joint, described push pedal bearing is fixedly connected with being provided in the guide plate detecting on guide rail, on described guide plate, is provided with detection head.

Described lowering or hoisting gear comprises servomotor, and the rotor of described servomotor is fixedly connected with screw mandrel vertically by shaft coupling, described screw mandrel lower end be fixedly connected with gripper shoe, described gripper shoe rear end is fixed on the slide block of riser guide by middle support plate.

Described whirligig comprises stepper motor, on the rotor of described stepper motor, be provided with rotation driving pulley, rotation driving pulley is connected with rotation driven pulley by rotary synchronous band, in described rotation driven pulley, fixed cover is provided with the main shaft of concentric, described spindle jacket is established swivel bearing, the external rotating shaft holder of described swivel bearing.

Described positioner comprises positioning seat, ringfeder and taper head, described positioning seat upper surface is equipped with ringfeder, described ringfeder and taper head cone match, on described positioning seat, be equipped with backstay, described backstay upper end and ringfeder touch, and lower end is through backstay spring and positioning sleeve, and described backstay spring clip is located between positioning seat and positioning sleeve, described taper head upper end is fixedly connected with end cap, and described end cap connects the output of taper head cylinder.

Described adsorbent equipment comprises sucker, the axis of guide and guide cylinder, and described axis of guide upper end is passed guide spring and is fixed on guiding guide pin bushing.The little push pedal of guide cylinder that described guiding guide pin bushing is fixedly connected with guide cylinder end, described axis of guide end is fixedly connected with sucker.

The technical program does not need special fixture, can single mold also can hybrid mold molding, it is applicable to different size, does not limit the eyeglass mould molding simultaneously of mould kind, the different number of degrees.For ball light, astigmatic lens mould, utilize eyeglass mold shaft to testing agency especially, the graduation mark on astigmatic lens mould accurately detected, determine the direction position of eyeglass mould, thereby eliminated the phenomenon that optical centre deviation after eyeglass moulding and prism degree exceed standard.This device not only provides cost savings, and precision is higher, and speed is faster, and function more comprehensively.

Accompanying drawing explanation

Fig. 1 is this front view that twists positive machine;

Fig. 2 is this right view that twists positive machine;

Fig. 3 is the front view of eyeglass die positioning mechanism;

Fig. 4 is the right view of eyeglass die positioning mechanism;

Fig. 5 is the top view of eyeglass die positioning mechanism and eyeglass mould direction testing agency;

Fig. 6 is the right view of eyeglass mould correcting mechanism;

Fig. 7 is the front view of eyeglass mould correcting mechanism;

Fig. 8 is eyeglass mode structure schematic diagram;

In figure: wheel is inhaled in 101-B mould rotation location, 102-location guide, 103-location bearing bearing, 104-guide rail bearing, 105-location bearing, 106-linear bearing, 107-pad, 108-rotary sleeve, 109-unilateral bearing, 110-locates driven pulley, 111-location supporting rod, the push pedal of 112-positioning cylinder, 113-positioning cylinder fixed head, 114-retainer spring, 115-locates guide pin bushing, 116-location guide cylinder, 117-arm cylinder, 118-arm air cylinder support, 119-cylinder fixed support, 120-arm guide rail, 121-supporting plate briquetting, 122-clamping cylinder support, 123-clamping cylinder, 124-A mould mechanical arm, the little guide rail of 125-, 126--guide rail fixed block, 127-B mould mechanical arm, 128-positioning synchronous band, 129-electric rotating machine, 130-locates driving pulley, 131-electric rotating machine support, 132-workbench, 133-clamps finger,

201-Bracket for Inspection, 202-guide rail backing plate, 203-detect cylinder, 204-detect cylinder saddle, 205-active joint, 206-push pedal bearing, 207-detect guide rail, 208-guide plate, 209-detection head,

301-servomotor, 302-servomotor support, 303-shaft coupling, 304-lifting shaft bearing, 305-screw mandrel, 306-support plate, support plate in the middle of 307-, 308-riser guide, 309-column, 310-back-up block, 311-stepper motor support, 312-main shaft, 313-swivel bearing, 314-ringfeder, the little copper sheathing of 315-, 316-rotates unilateral bearing, 317-unilateral bearing pressing plate, 318-positioning sleeve, 319-sucker, 320-backstay, 321-backstay spring, 322-positioning seat, 323-rotating shaft holder, 324-gripper shoe, 325-pressing plate, 326-locking nut, 327-rotates driven pulley, 328-pole, 329-taper head bearing block, 330-end cap, 331-taper head nut, 332-taper head cylinder, the 333-axis of guide, the little push pedal of 334-guide cylinder, 335-upper supporting plate, the 336-guide pin bushing that leads, 337-guide spring, 338-guide cylinder, 339-stepper motor, 340-taper head bearing, 341-rotates driving pulley, 342-taper head, the large copper sheathing of 343-, 344-rotary synchronous band.

The specific embodiment

Below in conjunction with accompanying drawing, the utility model is described in further detail.

As shown in Figure 3, described eyeglass die positioning mechanism, comprises B mould rotation location suction wheel 101, A mould mechanical arm 124 and B mould mechanical arm 127.Described B mould rotation location suction wheel 101 holds B mould and rotates, and conveniently detects B mould direction, and pumps, in order to B mould is pushed to B mould mechanical arm 127.Described A mould mechanical arm 124 and B mould mechanical arm 127 clamp respectively the test point that A mould and B mould level are pushed to eyeglass mould direction testing agency.

Described B mould rotation location is inhaled wheel 101 and is fixedly installed on location guide 102 upper ends, and described location guide 102 is through the location bearing bearing 103 that is fixedly installed on guide rail bearing 104.Described location bearing bearing 103 inner sleeves have rotary sleeve 108, sandwiched location bearing 105 between described location bearing bearing 103 and rotary sleeve 108, and when rotary sleeve 108 rotates, location bearing bearing 103 is static.Described rotary sleeve 108 is fixedly installed location driven pulley 110, is provided with linear bearing 106, pad 107 and unilateral bearing 109 in described rotary sleeve 108.Described pad 107 is fixedly connected with location bearing bearing 103, in order to hold location bearing 105.

As shown in Figure 4, described location driven pulley 110 is connected with location driving pulley 130 by positioning synchronous band 128.Described location driving pulley 130 is arranged on the output of electric rotating machine 129.Electric rotating machine 129 is fixed on workbench 132 by electric rotating machine support 131.Electric rotating machine 129 drives location driving pulley 130 around self axis rotation, and location driving pulley 130 drives 110 rotations of location driven pulley by positioning synchronous band 128, thereby makes rotary sleeve 108 and location guide 102 do synchronous rotary motion.

As shown in Figure 3, described location guide 102 lower ends are through the retainer spring 114 in the guide pin bushing 115 of location fixing with location guide pin bushing 115 with nut.Described location guide pin bushing 115 is connected in adjustable mode with positioning cylinder push pedal 112, and described positioning cylinder push pedal 112 is arranged on location guide cylinder 116 outputs.Described location guide cylinder 116 is fixed on positioning cylinder fixed head 113, and positioning cylinder fixed head 113 is fixedly connected with workbench 132 by location supporting rod 111.Location guide cylinder 116 promotes location guide 102 and vertically moves back and forth.

Described A mould mechanical arm 124 is connected with guide rail fixed block 126 by little guide rail 125 with B mould mechanical arm 127 also slidably, and described A mould mechanical arm 124 is all fixed on clamping cylinder 123 and does back and forth to clamp and move with B mould mechanical arm 127.

As shown in Figure 5, on described A mould mechanical arm 124 and B mould mechanical arm 127, be all fixedly installed and clamp finger 133.As shown in Figure 3, described clamping cylinder 123 is fixedly installed on clamping cylinder support 122.Described clamping cylinder support 122 is fixed on supporting plate briquetting 121 upper surfaces, and described supporting plate briquetting 121 lower surfaces are connected with arm guide rail 120.Described supporting plate briquetting 121 1 sides are fixedly connected with arm cylinder 117 by cylinder fixed support 119.Arm cylinder 117 is fixed on the side of guide rail bearing 104 by arm air cylinder support 118.Arm cylinder 117 promotion A mould mechanical arms 124 and B mould mechanical arm 127 are along arm guide rail 120 horizontal reciprocating movements.

As shown in Figure 4 and Figure 5, described eyeglass mould direction testing agency is fixed on workbench 132 by Bracket for Inspection 201, comprises and detects cylinder 203 and detect guide rail 207.Described detection cylinder 203 is fixedly installed on guide rail backing plate 202 by detecting cylinder saddle 204, detects cylinder 203 outputs and is connected with push pedal bearing 206 by active joint 205.Described push pedal bearing 206 is fixedly connected with the guide plate 208 being provided on detection guide rail 207.On described guide plate 208, be provided with detection head 209.Detection head 209 is made front-rear reciprocation movement under the effect that detects cylinder 203.Described detection guide rail 207 is fixedly connected with Bracket for Inspection 201 by guide rail backing plate 202.

Certainly, the optimal way that this eyeglass mould direction testing agency is the present embodiment, in order to meet quality requirement and reaction speed requirement, but is not limited to only use detection head as the sole mode detecting.Adopt other device, as also realized the purpose of this utility model with image detection, laser detection, Photoelectric Detection, microswitch, contactor etc.

As shown in Figure 6,7, described eyeglass mould correcting mechanism, comprises lowering or hoisting gear, whirligig, positioner and adsorbent equipment.

Described lowering or hoisting gear comprises servomotor 301.Servomotor 301 is fixedly installed on support plate 306 by servomotor support 302, and the rotor of servomotor 301 is fixedly connected with screw mandrel 305 vertically by shaft coupling 303.Screw mandrel 305 upper ends are arranged in the lifting shaft bearing 304 on support plate 306, and lower end is meshing with the feed screw nut who is fixed in gripper shoe 324.Gripper shoe 324 rear ends are fixed on the slide block of riser guide 308 by middle support plate 307.Riser guide 308 vertically arranges and is fixed on column 309, and support plate 306 is horizontally disposed with and is fixed on column 309.Described gripper shoe 324 and middle support plate 307 both sides are fixedly installed back-up block 310.Servomotor 301 drives gripper shoe 324 vertically to move back and forth along riser guide 308.

Described whirligig comprises stepper motor 339.Described stepper motor 339 is fixedly installed in gripper shoe 324 by stepper motor support 311.On the rotor of stepper motor 339, be provided with rotation driving pulley 341, rotation driving pulley 341 is connected with rotation driven pulley 327 rotation that rotates by rotary synchronous band 344.The interior fixed cover of rotation driven pulley 327 is provided with the main shaft 312 of concentric.Described main shaft 312 upper ends are fixedly installed to hold the locking nut 326 of main shaft 312.Described locking nut 326 overcoats have the pressing plate 325 that is fixed on rotating shaft holder 323.Described main shaft 312 lower ends are fixedly connected with positioning seat 322.In described main shaft 312, stud with the large copper sheathing 343 that is sheathed on taper head 342.The outer sheathed swivel bearing 313 of described main shaft 312.The external rotating shaft holder 323 of described swivel bearing 313.Described rotating shaft holder 323 upper ends are fixedly installed on gripper shoe 324.By the transmission of rotation driving pulley 341 and rotation driven pulley 327, stepper motor 339 drives main shaft 312 rotations.

Described positioner comprises positioning seat 322, ringfeder 314 and taper head 342.Described positioning seat 322 is fixed on rotating shaft holder 323 lower ends.Described positioning seat 322 upper-end inner diameter are inlaid with little copper sheathing 315, and positioning seat 322 upper surfaces are equipped with ringfeder 314.Described ringfeder 314 and taper head 342 cone match.Described positioning seat 322 bottom diameters are equipped with rotation unilateral bearing 316, and described positioning seat 322 lower ends are bolted with the unilateral bearing pressing plate 317 for the fixing rotation unilateral bearing 316 of conflicting.Described positioning seat 322 lower end overcoats have positioning sleeve 318.On described positioning seat 322, be equipped with backstay 320.Described backstay 320 upper ends and ringfeder 314 touch, and lower end is through backstay spring 321 and positioning sleeve 318.Described backstay spring 321 is located between positioning seat 322 and positioning sleeve 318.Described taper head 342 upper ends are also fixed on end cap 330 with taper head nut 331 through taper head bearing 340 and end cap 330.Described end cap 330 connects the output of taper head cylinder 332, and described taper head cylinder 332 is fixedly installed on middle support plate 307.In the middle of described, support plate 307 is equipped with pole 328.Described pole 328 upper ends are fixed on upper supporting plate 335, and lower end is arranged in gripper shoe 324.Described end cap 330 is fixed on taper head bearing block 329 and pushes down the taper head bearing 340 of internal diameter.Taper head cylinder 332 drives taper head 342 spreading ringfeders 314, thus the position of stationary positioned bar 320.

Described adsorbent equipment comprises sucker 319, the axis of guide 333 and guide cylinder 338.The interior sheathed axis of guide 333 of described ringfeder 314, the described axis of guide 333 upper ends are passed guide spring 337 and are fixed on guiding guide pin bushing 336.Described guiding guide pin bushing 336 is fixedly connected with the little push pedal 334 of guide cylinder of guide cylinder 338 ends, and described guide cylinder 338 is fixedly installed on upper supporting plate 335.The described axis of guide 333 lower ends are through positioning seat 322, taper head 342, main shaft 312, rotation driven pulley 327 and be fixedly connected with sucker 319.

As shown in Figure 8, on B mould, be provided with graduation mark.

The working method of this arbor press is as follows: the A mould of eyeglass mould is delivered to A mould mechanical arm 124, and B mould is delivered to B mould rotation location and inhaled wheel 101.B mould rotation location is inhaled wheel 101 and is held B mould, and under the driving of location guide cylinder 116, upper top is to the position of B mould mechanical arm 127 interior settings, vacuum emptying.133 pairs of B moulds of clamping finger on B mould mechanical arm 127 position clamping simultaneously, to guarantee A mould and B mould concentric.B mould rotation location is inhaled wheel 101 and is again held B mould, and clamping cylinder 123 loosens, and electric rotating machine 129 drives the rotation of B mould; meanwhile, the detected cylinder 203 of detection head 209 is driven into B mould mechanical arm 127 belows, detects after graduation mark; electric rotating machine 129 stops, and detection head 209 resets simultaneously.Location guide cylinder 116 pushes up B mould to putting in place; clamp finger 133 and again clamp B mould, B mould rotation location is inhaled wheel 101 vacuum emptying and resets, at this moment the A mould in A mould mechanical arm 124 also locating clip pull tight; under the promotion of arm cylinder 117, eyeglass mould is sent in eyeglass mould straightening mechanism.Under the driving of servomotor 301, backstay 320 moves to and is set as position, and taper head cylinder 332 drives taper head 342 to insert the interior spreading of ringfeder 314 stationary positioned bar 320.Guide cylinder 338 drives suckers 319 to hold eyeglass mould and makes A film and B mould departs from respectively A mould mechanical arm 124 and B mould mechanical arm 127.Under the driving of clamping cylinder 123 and arm cylinder 117, A mould mechanical arm 124 and B mould mechanical arm 127 open and reset, and the work for correction of eyeglass mould completes.

The utility model is illustrated according to embodiment, is not departing under the prerequisite of the utility model principle, and this product can also be made some distortion and improvement.It should be pointed out that all employings are equal to the technical scheme that the modes such as replacement or equivalent transformation obtain, and all drop in protection domain of the present utility model.

Claims (10)

1. full-automatic anti-eccentric sealing-tape machine, it is characterized in that, comprise eyeglass die positioning mechanism, eyeglass mould direction testing agency and eyeglass mould correcting mechanism, described eyeglass die positioning mechanism comprises B mould rotation location suction wheel (101), A mould mechanical arm (124) and B mould mechanical arm (127), described B mould rotation location is inhaled wheel (101) B mould is pushed to B mould mechanical arm (127) spinning movement, and described A mould mechanical arm (124) and B mould mechanical arm (127) push to eyeglass mould correcting mechanism by eyeglass mould, described eyeglass mould direction testing agency comprises in order to determine the detection head (209) of eyeglass mould direction, described eyeglass mould correcting mechanism comprises lowering or hoisting gear, whirligig, positioner and adsorbent equipment, described lowering or hoisting gear comprises servomotor (301), gripper shoe (324) and riser guide (308), described servomotor (301) drives and is arranged on the whirligig in gripper shoe (324), positioner and adsorbent equipment are along riser guide (308) reciprocating action, described whirligig comprises the main shaft (312) that is driven rotation by stepper motor (339), described positioner comprises backstay (320), ringfeder (314) and taper head (342), described ringfeder (314) and taper head (342) cone match, described backstay (320) upper end and ringfeder (314) touch, taper head (342) spreading ringfeder (314) makes backstay (320) fixing, described adsorbent equipment comprises sucker (319) and the axis of guide (333) being driven by guide cylinder (338), the described axis of guide (333) is fixedly connected with sucker (319) through main shaft (312) and end.

2. full-automatic anti-eccentric sealing-tape machine as claimed in claim 1, it is characterized in that, described B mould rotation location is inhaled wheel (101) and is fixedly installed on location guide (102) upper end, described location guide (102) lower end is through the retainer spring (114) in location guide pin bushing (115) and be fixed on location guide pin bushing (115), described location guide pin bushing (115) connects positioning cylinder push pedal (112), and described positioning cylinder push pedal (112) is arranged on location guide cylinder (116) output.

3. full-automatic anti-eccentric sealing-tape machine as claimed in claim 1 or 2, it is characterized in that, described B mould rotation location is inhaled wheel (101) and is fixedly installed on location guide (102) upper end, described location guide (102) is through the location bearing bearing (103) that is fixedly installed on guide rail bearing (104), described location bearing bearing (103) inner sleeve has rotary sleeve (108), sandwiched location bearing (105) between described location bearing bearing (103) and rotary sleeve (108), described rotary sleeve (108) is fixedly installed location driven pulley (110), described location driven pulley (110) is connected with location driving pulley (130) by positioning synchronous band (128), described location driving pulley (130) is arranged on the output of electric rotating machine (129).

4. full-automatic anti-eccentric sealing-tape machine as claimed in claim 1; it is characterized in that; described A mould mechanical arm (124) is connected with guide rail fixed block (126) by little guide rail (125) with B mould mechanical arm (127) also slidably, and described A mould mechanical arm (124) is all fixed on the back and forth clamping action of the upper do of clamping cylinder (123) with B mould mechanical arm (127).

5. full-automatic anti-eccentric sealing-tape machine as claimed in claim 4, it is characterized in that, described clamping cylinder (123) is fixedly installed on clamping cylinder support (122), described clamping cylinder support (122) is fixed on supporting plate briquetting (121) upper surface, described supporting plate briquetting (121) lower surface is connected with arm guide rail (120), and described supporting plate briquetting (121) one sides are fixedly connected with arm cylinder (117) by cylinder fixed support (119).

6. full-automatic anti-eccentric sealing-tape machine as claimed in claim 1, it is characterized in that, described eyeglass mould direction testing agency also comprises detects cylinder (203) and detection guide rail (207), detecting cylinder (203) output is connected with push pedal bearing (206) by active joint (205), described push pedal bearing (206) is fixedly connected with being provided in the guide plate (208) detecting on guide rail (207), is provided with detection head (209) on described guide plate (208).

7. full-automatic anti-eccentric sealing-tape machine as claimed in claim 1, it is characterized in that, described lowering or hoisting gear comprises servomotor (301), the rotor of described servomotor (301) is fixedly connected with screw mandrel (305) vertically by shaft coupling (303), described screw mandrel (305) lower end be fixedly connected with gripper shoe (324), described gripper shoe (324) rear end is fixed on the slide block of riser guide (308) by middle support plate (307).

8. full-automatic anti-eccentric sealing-tape machine as claimed in claim 1, it is characterized in that, described whirligig comprises stepper motor (339), on the rotor of described stepper motor (339), be provided with rotation driving pulley (341), rotation driving pulley (341) is connected with rotation driven pulley (327) by rotary synchronous band (344), the interior fixed cover of described rotation driven pulley (327) is provided with the main shaft (312) of concentric, the outer sheathed swivel bearing (313) of described main shaft (312), the external rotating shaft holder of described swivel bearing (313) (323).

9. full-automatic anti-eccentric sealing-tape machine as claimed in claim 1, it is characterized in that, described positioner comprises positioning seat (322), ringfeder (314) and taper head (342), described positioning seat (322) upper surface is equipped with ringfeder (314), described ringfeder (314) and taper head (342) cone match, on described positioning seat (322), be equipped with backstay (320), described backstay (320) upper end and ringfeder (314) touch, lower end is through backstay spring (321) and positioning sleeve (318), described backstay spring (321) is located between positioning seat (322) and positioning sleeve (318), described taper head (342) upper end is fixedly connected with end cap (330), described end cap (330) connects the output of taper head cylinder (332).

10. full-automatic anti-eccentric sealing-tape machine as claimed in claim 1, it is characterized in that, described adsorbent equipment comprises sucker (319), the axis of guide (333) and guide cylinder (338), the described axis of guide (333) upper end is passed guide spring (337) and is fixed on guiding guide pin bushing (336), described guiding guide pin bushing (336) is fixedly connected with the little push pedal of guide cylinder (334) of guide cylinder (338) end, and the described axis of guide (333) end is fixedly connected with sucker (319).

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