CN204354127U - The feeding blowing manipulator of automatic packaging production line - Google Patents

Abstract

The utility model relates to the feeding blowing manipulator of automatic packaging production line, comprise the brace table between front conveyer belt and rear carrier, on brace table, circumferentially direction is provided with multiple spring chuck mechanism, each spring chuck mechanism comprises linking arm, strap, ambulatory splint and lever, elastic clamping spacing is formed between ambulatory splint and strap, the slide block be connected with ambulatory splint is upward through linking arm and is extended with slide block barb, corresponding linking arm offers the barb chute being suitable for slide block barb guiding and sliding, corresponding linking arm other end top is rotatably connected to lever by swinging seat, elastic parts is connected with bottom lever rear end, lever front end is provided with the lever barb that clasp joint movable with slide block barb coordinates, described front conveyer belt is provided with feeding cylinder, and be fixed with blowing cylinder by support vertical above described rear carrier, it is simple and reasonable for structure, working stability, long service life, and transfer efficiency is high.

Description

The feeding blowing manipulator of automatic packaging production line

Technical field

The utility model relates to a kind of transfer device of automatic packaging production line, and especially a kind of structure is simple, the feeding blowing manipulator of the automatic packaging production line of working stability.

Background technology

At present, existing automatic packaging production line, its pipeline length is generally very long, and be divided into some sections according to different functions, the transfer being carried out object by transfer robot arm must be needed between every section, the utility model is just being to provide altogether novel feeding blowing manipulator, on packaging production line difference in functionality two sections between realize the article transfer function of feeding and blowing, for packaging, producer is selected.

Summary of the invention

The purpose of this utility model is to overcome above-mentioned the deficiencies in the prior art part, and provides a kind of simple and reasonable for structure, working stability, long service life, the feeding blowing manipulator of the automatic packaging production line that transfer efficiency is high.

The purpose of this utility model is achieved in that

The feeding blowing manipulator of automatic packaging production line, comprise the brace table be arranged between front conveyer belt and rear carrier, it is characterized in that, described brace table realizes rotating and lifting by rotating mechanism and elevating mechanism, on brace table, circumferentially direction is provided with multiple spring chuck mechanism, each spring chuck mechanism comprises linking arm, strap, ambulatory splint and lever, linking arm one end is fixed on brace table, the other end extends outside brace table, length bearing of trend along linking arm bottom the linking arm other end offers direction recess, direction recess internal fixtion has guiding slide bar, inside the linking arm of guiding slide bar one end, strap is installed, the guiding slide bar other end is connected with ambulatory splint by skid, guiding slide bar is arranged with the back-moving spring compressed with slide block elasticity, elastic clamping spacing is formed between ambulatory splint and strap, slide block is upward through linking arm and is extended with slide block barb, corresponding linking arm offers the barb chute being suitable for slide block barb guiding and sliding, corresponding linking arm other end top is rotatably connected to lever by swinging seat, elastic parts is connected with bottom lever rear end, lever front end is provided with the lever barb that clasp joint movable with slide block barb coordinates,

Described front conveyer belt is provided with feeding cylinder, and the output of feeding cylinder is connected with the feeding expansion link compressing ambulatory splint;

Be fixed with blowing cylinder by support vertical above described rear carrier, the output of blowing cylinder is connected with the blowing expansion link compressing lever rear end top.

Adopt the feeding blowing manipulator of the automatic packaging production line of this structure, rotation and the lifting of brace table is realized by rotating mechanism and elevating mechanism, specifically, because multiple spring chuck mechanism is arranged along brace table circumferencial direction, so when one of them spring chuck mechanism turns to front conveyer belt by rotating mechanism, declined by elevating mechanism, make to be transferred thing as in the elastic clamping spacing formed between strap and ambulatory splint, again by starting feeding cylinder, stretched out by feeding expansion link and compress ambulatory splint, make ambulatory splint by slide block compression reseting spring, ambulatory splint is slided toward strap direction while compression reseting spring along guiding slide bar, slide simultaneously, the slide block barb extended on slide block also slides along barb chute toward lever barb direction simultaneously, until slide block barb and the mutual clasp joint of lever barb, feeding expansion link is retracted, the thing that is transferred now in elastic clamping spacing is also gripped by stir yourself clamping plate and strap simultaneously, again promoted by elevating mechanism, then by rotating mechanism, this gripped object is transferred to rear carrier, blowing cylinder above rear carrier starts, blowing expansion link stretches vertically downward, compress lever rear end top, make elasticity of compression assembly bottom lever rear end, the front end of lever is rotated around swinging seat promote, make just now to depart from lever barb with the slide block barb of lever barb clasp joint, due to the effect of back-moving spring, slide block elasticity is pushed back one end of guiding slide bar by back-moving spring, originally namely the thing that is transferred be clamped in elastic clamping spacing is released on rear carrier and carries, namely above-mentioned steps completes the transfer being once transferred thing, its structure is simple, rationally, so repeat to rotate, promote, feeding, the not stall that namely blowing completes gripped object moves, operating efficiency is high, transfer precision is high, long service life.

The utility model can also adopt following technical measures to solve:

Institute's direction recess internal fixtion has two guiding slide bars, slide block is provided with two linear bearings that the sliding bar that to lead with two is connected, every bar guiding slide bar is arranged with back-moving spring, and back-moving spring one end and linear bearing offset, and the other end offsets with the direction recess one end near strap; The setting of two guiding slide bar, makes slide block more stable when sliding.

Be horizontally connected with rotating shaft between the front-end and back-end of described lever, corresponding swinging seat both sides are fixed with two rolling bearings be connected with axis of rotation, lever and swinging seat are formed and is rotationally connected; Lever forms moving seesaw-type lever construction by rotating shaft and swinging seat, and rolling bearing can be zanjon bearing etc., realizes rotating function better.

Described elastic parts comprises joint pin and holddown spring, joint pin is fixed on bottom lever rear end, the linking arm top of joint pin vertical lower is provided with spring cavity, in holddown spring mounting spring cavity, the holddown spring other end is set on joint pin, and holddown spring all the time upwards elasticity compress bottom lever rear end, make the rear end of lever higher than front end.The structure of elastic parts is simple, by joint pin and holddown spring sheathed, holddown spring is then contained in spring cavity, under the effect not having external force, holddown spring all the time upwards elasticity compress bottom lever rear end, make the height of height higher than front end of the rear end of lever, wait for that slide block barb and lever barb are worked in coordination.

Described rotating mechanism comprises rotating shaft, axle sleeve, travelling gear and rotary driver, is connected with rotating shaft, rotating shaft is connected with travelling gear by axle sleeve bottom brace table by link vertical rotation, and travelling gear is driven by rotary driver and connects; The structure of rotating mechanism is simple, drives travelling gear by rotary driver (assembly such as motor, chain composition), and make axle sleeve drive axis of rotation, rotating shaft drives brace table to rotate again; Its shaft is square shaft, and square shaft top is connected with flange, and flange is fixedly connected with brace table bottom surface, realizes the transmission of power.

Described elevating mechanism comprises footstock, cam, camshaft, Cam bearing pedestal and lift actuator, rotating shaft bottom is connected with footstock through link, Cam bearing pedestal is fixed with below footstock, Cam bearing pedestal is connected with cam by cam axle, eccentric protuberance on cam and footstock bottom offset, and one end of camshaft is driven by lift actuator and connects, the remaining lifting of brace table is realized by the structure of cam, by lift actuator assemblies such as (composition) motors to cam axle, cam is rotated, when the eccentric protuberance (circular arc body) on cam offsets with footstock bottom, footstock is made to increase, realize rising overally of brace table and spring chuck mechanism, and when the isocentric circular arc end face on cam and brace table offset, footstock is declined, realize the entire lowering of brace table and spring chuck mechanism, it is simple and reasonable, compare some and adopt cylinder lifting, screw mandrel guideway is adopted to carry out the structure be elevated, obtain very large simplification, effective reduction production cost.

Described footstock bottom is provided with the lifting groove that the eccentric protuberance be suitable on cam coordinates, and is provided with the lifting bearing offseted with eccentric protuberance in lifting groove by bearing rotating shaft; The setting of lifting bearing, actual is that when cam and lifting shaft pressure-bearing are supported, lifting bearing can rotate, and counteract the friction pressure produced when contacting with each other, noise is less, improves the service life of this structure.

Linking arm top between described lever barb and swinging seat is extended with adjustable limited post, adjustable limited post top and lever bottom surface is spacing offsets, and is provided with arc-shaped transitional surface between the concentric arcs end face of eccentric protuberance and cam; Arc transition structure, when the end face of lifting bearing is contacted with this arc-shaped transitional surface, noise is less, and structure is tightr; Adjustable limited post forms spacing adjustment to lever front end to lower swing.

Described link is fixed with riser guide along height bearing of trend, and corresponding footstock side is connected with the lifting slider be slidably matched with riser guide by guide rails assembling plate; The increase of riser guide structure can be that lifting structure is more stable, and guidance quality is better, and lifting precision is better.

On described brace table, circumferentially direction is provided with four spring chuck mechanisms; Four spring chuck mechanisms, the angle that rotating mechanism is rotated at every turn is 90 degree, facilitates the setting of program.

The beneficial effects of the utility model are:

The feeding blowing manipulator of the utility model automatic packaging production line, simple and reasonable for structure, working stability, long service life, transfer efficiency is high, low cost of manufacture.

Accompanying drawing explanation

Fig. 1 is the structural representation that the utility model and front conveyer belt and rear carrier combine.

Fig. 2 is the structural representation after the utility model removes part.

Fig. 3 is the enlarged drawing at A place in Fig. 2.

Detailed description of the invention

Below in conjunction with drawings and Examples, the utility model is further illustrated.

As shown in Figure 1 to Figure 3, the feeding blowing manipulator of automatic packaging production line, comprise being arranged on front conveyer belt 1 and rear carrier 2(rear carrier 2 and multiple dividing plate 201 is set along length bearing of trend, between adjacent two dividing plates 201 form be suitable for one be transferred thing 10 hold space 202) between brace table 3, it is characterized in that, described brace table 3 realizes rotating and lifting by rotating mechanism 4 and elevating mechanism 5, on brace table 3, circumferentially direction is provided with multiple spring chuck mechanism 6, each spring chuck mechanism 6 comprises linking arm 601, strap 602, ambulatory splint 603 and lever 604, linking arm 601 one end is fixed on brace table 3, the other end extends outside brace table 3, length bearing of trend along linking arm 601 bottom linking arm 601 other end offers direction recess 601-1, direction recess 601-1 internal fixtion has guiding slide bar 605, inside the linking arm 601 of guiding slide bar 605 one end, strap 602 is installed, guiding slide bar 605 other end slidably connects ambulatory splint 603 by slide block 606, guiding slide bar 605 is arranged with the back-moving spring 607 compressed with slide block 606 elasticity, elastic clamping spacing 608 is formed between ambulatory splint 603 and strap 602, slide block 606 is upward through linking arm 601 and is extended with slide block barb 606-1, corresponding linking arm 601 offers the barb chute 601-2 being suitable for slide block barb 606-1 guiding and sliding, corresponding linking arm 601 other end top is rotatably connected to lever 604 by swinging seat 609, bottom lever 604 rear end, 604-3 is connected with elastic parts 610, lever 604 front end is provided with the lever barb 604-1 that clasp joint movable with slide block barb 606-1 coordinates,

Described front conveyer belt 1 is provided with feeding cylinder 7, and the output of feeding cylinder 7 is connected with the feeding expansion link 701 compressing ambulatory splint 603;

Vertically be fixed with blowing cylinder 9 by support 8 above described rear carrier 2, the output of blowing cylinder 9 is connected with the blowing expansion link 901 compressing lever 604 rear end top 604-2.

Adopt the feeding blowing manipulator of the automatic packaging production line of this structure, rotation and the lifting of brace table 3 is realized by rotating mechanism 4 and elevating mechanism 5, specifically, because multiple spring chuck mechanism 6 is arranged along brace table 2 circumferencial direction, so when one of them spring chuck mechanism 6 turns to front conveyer belt 1 by rotating mechanism 4, declined by elevating mechanism 5, make to be transferred thing 10 as in the elastic clamping spacing 608 formed between strap 602 and ambulatory splint 603, again by starting feeding cylinder 7, stretched out by feeding expansion link 701 and compress ambulatory splint 603, make ambulatory splint 603 by slide block 606 compression reseting spring 607, ambulatory splint 603 is slided toward strap 602 direction while compression reseting spring 607 along guiding slide bar 605, slide simultaneously, the slide block barb 606-1 extended on slide block 606 also slides along barb chute 601-2 toward lever barb 604-1 direction simultaneously, until slide block barb 606-1 and the mutual clasp joint of lever barb 604-1, feeding expansion link 701 is retracted, the thing 10 that is transferred now in elastic clamping spacing 608 is also gripped by stir yourself clamping plate 603 and strap 602 simultaneously, again promoted by elevating mechanism 5, then by rotating mechanism 4, this gripped object 10 is transferred to rear carrier, blowing cylinder 9 above rear carrier 2 starts, blowing expansion link 901 stretches vertically downward, compress lever 604 rear end top 604-2, make 604-3 elasticity of compression assembly 610 bottom lever 604 rear end, the front end of lever 604 is rotated around swinging seat 609 promote, make just now to depart from lever barb 604-1 with the slide block barb 606-1 of lever barb 604-1 clasp joint, due to the effect of back-moving spring 607, slide block 606 elasticity is pushed back one end of guiding slide bar 6-5 by back-moving spring 607, originally namely the thing 10 that is transferred be clamped in elastic clamping spacing 608 is released on rear carrier 2 and carries, namely above-mentioned steps completes the transfer being once transferred thing, its structure is simple, rationally, so repeat to rotate, promote, feeding, the not stall that namely blowing completes gripped object 10 moves, operating efficiency is high, transfer precision is high, long service life.

More specifically embodiment as the present embodiment:

Institute's direction recess 601-1 internal fixtion has two guiding slide bars 605, slide block 606 is provided with two linear bearings 611 be slidably connected with two guiding slide bars 605, every bar guiding slide bar 605 is arranged with back-moving spring 607, back-moving spring 607 one end and linear bearing 611 offset, and the other end offsets with the direction recess 601-1 one end near strap 602; The setting of two guiding slide bar 605, makes slide block 606 more stable when sliding.

Be horizontally connected with rotating shaft 612 between the front-end and back-end of described lever 604, corresponding swinging seat 609 both sides are fixed with two rolling bearings 613 be rotationally connected with rotating shaft 612, lever 604 and swinging seat 609 are formed and is rotationally connected; Lever 604 forms moving seesaw-type lever construction by rotating shaft 612 and swinging seat 609, and rolling bearing 613 can be zanjon bearing etc., realizes rotating function better.

Described elastic parts 610 comprises joint pin 610-1 and holddown spring 610-2, joint pin 610-1 is fixed on 604-3 bottom lever 604 rear end, linking arm 601 top of joint pin 610-1 vertical lower is provided with spring cavity 601-3, in holddown spring 610-2 mounting spring cavity 601-3, the holddown spring 610-2 other end is set on joint pin 610-1, and holddown spring 610-2 all the time upwards elasticity compress 604-3 bottom lever 604 rear end, make the rear end of lever 604 higher than front end; The structure of elastic parts 610 is simple, sheathed by joint pin 610-1 and holddown spring 610-2, holddown spring 610-2 is then contained in spring cavity 601-3, under the effect not having external force, holddown spring 610-2 all the time upwards elasticity compress 604-3 bottom lever 604 rear end, make the height of height higher than front end of the rear end of lever 604, wait for that slide block barb 606-1 and lever barb 604-1 works in coordination.

Described rotating mechanism 4 comprises rotating shaft 401, axle sleeve 402, travelling gear 403 and rotary driver 404, rotating shaft 401 is connected with by link 405 vertical rotation bottom brace table 3, rotating shaft 401 is connected with travelling gear 403 by axle sleeve 402, and travelling gear 403 is driven by rotary driver 404 and connects; The structure of rotating mechanism is simple, by assembly compositions such as rotary driver 404(motor, chains) drive travelling gear 403 to rotate, make axle sleeve 402 drive rotating shaft 401 to rotate, rotating shaft 401 drives brace table 3 to rotate again; Its shaft 401 is square shaft, and square shaft top is connected with flange 406, and flange 406 is fixedly connected with brace table 3 bottom surface, realizes the transmission of power.

Described elevating mechanism 5 comprises footstock 501, cam 502, camshaft 503, Cam bearing pedestal 504 and lift actuator 505, rotating shaft 401 bottom is connected with footstock 501 through link 405, Cam bearing pedestal 504 is fixed with below footstock 501, Cam bearing pedestal 504 is rotatably connected to cam 502 by camshaft 503, eccentric protuberance 502-1 on cam 502 and footstock 501 bottom offset, and one end of camshaft 503 is driven by lift actuator 505 and connects, link 405 is arranged on one of them Cam bearing pedestal 504, the remaining lifting of brace table 3 is realized by the structure of cam 502, by assembly compositions such as lift actuator 505(motors) camshaft 503 is rotated, cam 502 is rotated, eccentric protuberance 502-1(circular arc body when on cam 502) with footstock 501 bottom offset time, footstock 501 is made to increase, realize rising overally of brace table 3 and spring chuck mechanism 6, and when the isocentric circular arc end face 502-2 on cam 502 and brace table 3 offset, footstock 501 is declined, realize the entire lowering of brace table 3 and spring chuck mechanism 6, it is simple and reasonable, compare some and adopt cylinder lifting, screw mandrel guideway is adopted to carry out the structure be elevated, obtain very large simplification, effective reduction production cost.

Described footstock 501 bottom is provided with the lifting groove 501-1 that the eccentric protuberance 502-1 be suitable on cam 502 coordinates, and is provided with the lifting bearing 507 offseted with eccentric protuberance 502-1 in lifting groove 501-1 by bearing rotating shaft 506; The setting of lifting bearing 507, actual is that when cam 502 is compressed with lifting bearing 507, lifting bearing 507 can rotate, and counteract the friction pressure produced when contacting with each other, noise is less, improves the service life of this structure.

Linking arm 601 top between described lever barb 604-1 and swinging seat 609 is extended with adjustable limited post 614, adjustable limited post 614 top and lever 604 bottom surface is spacing offsets, is provided with arc-shaped transitional surface 502-3 between the concentric arcs end face 502-2 of eccentric protuberance 502-1 and cam 502; Arc transition structure, when the end face of lifting bearing 507 is contacted with this arc-shaped transitional surface 502-3, noise is less, and structure is tightr; Adjustable limited post 614 pairs of lever 604 front ends (lever barb 604-1) form spacing adjustment to lower swing, avoid the downward amplitude of fluctuation of lever barb 604-1 larger, cannot coordinate with slide block barb 606-1 clasp joint, adjustable limited post 614 can up-down adjustment, is threaded connection or other connected modes.

Described link 405 is fixed with riser guide 508 along height bearing of trend, and corresponding footstock 501 side is connected with the lifting slider 510 be slidably matched with riser guide 508 by guide rails assembling plate 509; The increase of riser guide structure can be that lifting structure is more stable, and guidance quality is better, and lifting precision is better.

On described brace table 3, circumferentially direction is provided with four spring chuck mechanisms 6; Four spring chuck mechanisms 6, the angle that rotating mechanism is rotated at every turn is 90 degree, facilitates the setting of program; Similarly, can also need according to different the spring chuck mechanism that varying number is set.

Above-described specific embodiment, is only the utility model preferred embodiment, such as according to the equivalent arrangements that the utility model claim is done, all should be technology of the present utility model and contained.

Claims (10)

1. the feeding blowing manipulator of automatic packaging production line, comprise the brace table (3) be arranged between front conveyer belt (1) and rear carrier (2), it is characterized in that, described brace table (3) realizes rotating and lifting by rotating mechanism (4) and elevating mechanism (5), on brace table (3), circumferentially direction is provided with multiple spring chuck mechanism (6), each spring chuck mechanism (6) comprises linking arm (601), strap (602), ambulatory splint (603) and lever (604), linking arm (601) one end is fixed on brace table (3), the other end extends brace table (3) outside, direction recess (601-1) is offered along the length bearing of trend of linking arm (601) bottom linking arm (601) other end, direction recess (601-1) internal fixtion has guiding slide bar (605), near linking arm (601) inner side of guiding slide bar (605) one end, strap (602) is installed, guiding slide bar (605) other end slidably connects ambulatory splint (603) by slide block (606), guiding slide bar (605) is arranged with the back-moving spring (607) compressed with slide block (606) elasticity, elastic clamping spacing (608) is formed between ambulatory splint (603) and strap (602), slide block (606) is upward through linking arm (601) and is extended with slide block barb (606-1), corresponding linking arm (601) offers the barb chute (601-2) being suitable for slide block barb (606-1) guiding and sliding, corresponding linking arm (601) other end top is rotatably connected to lever (604) by swinging seat (609), bottom lever (604) rear end, (604-3) is connected with elastic parts (610), lever (604) front end is provided with the lever barb (604-1) coordinated with slide block barb (606-1) movable clasp joint,

Described front conveyer belt (1) is provided with feeding cylinder (7), and the output of feeding cylinder (7) is connected with the feeding expansion link (701) compressing ambulatory splint (603);

Described rear carrier (2) top is vertically fixed with blowing cylinder (9) by support (8), and the output of blowing cylinder (9) is connected with the blowing expansion link (901) compressing lever (604) top, rear end (604-2).

2. the feeding blowing manipulator of automatic packaging production line according to claim 1, it is characterized in that, institute's direction recess (601-1) internal fixtion has two guiding slide bars (605), slide block (606) is provided with two linear bearings (611) be slidably connected with two guiding slide bars (605), every bar guiding slide bar (605) is arranged with back-moving spring (607), back-moving spring (607) one end and linear bearing (611) offset, and the other end offsets with direction recess (601-1) one end near strap (602).

3. the feeding blowing manipulator of automatic packaging production line according to claim 1, it is characterized in that, rotating shaft (612) is horizontally connected with between the front-end and back-end of described lever (604), corresponding swinging seat (609) both sides are fixed with two rolling bearings (613) be rotationally connected with rotating shaft (612), lever (604) and swinging seat (609) are formed and is rotationally connected.

4. the feeding blowing manipulator of automatic packaging production line according to claim 3, it is characterized in that, described elastic parts (610) comprises joint pin (610-1) and holddown spring (610-2), joint pin (610-1) is fixed on bottom lever (604) rear end (604-3), linking arm (601) top of joint pin (610-1) vertical lower is provided with spring cavity (601-3), in holddown spring (610-2) mounting spring cavity (601-3), holddown spring (610-2) other end is set on joint pin (610-1), and holddown spring (610-2) all the time upwards elasticity compress bottom lever (604) rear end (604-3), make the rear end of lever (604) higher than front end.

5. the feeding blowing manipulator of automatic packaging production line according to claim 1, it is characterized in that, described rotating mechanism (4) comprises rotating shaft (401), axle sleeve (402), travelling gear (403) and rotary driver (404), brace table (3) bottom is connected with rotating shaft (401) by link (405) vertical rotation, rotating shaft (401) is connected with travelling gear (403) by axle sleeve (402), and travelling gear (403) is driven by rotary driver (404) and connects.

6. the feeding blowing manipulator of automatic packaging production line according to claim 5, it is characterized in that, described elevating mechanism (5) comprises footstock (501), cam (502), camshaft (503), Cam bearing pedestal (504) and lift actuator (505), rotating shaft (401) bottom is connected with footstock (501) through link (405), footstock (501) below is fixed with Cam bearing pedestal (504), Cam bearing pedestal (504) is rotatably connected to cam (502) by camshaft (503), eccentric protuberance (502-1) on cam (502) and footstock (501) bottom offset, one end of camshaft (503) is driven by lift actuator (505) and connects.

7. the feeding blowing manipulator of automatic packaging production line according to claim 6, it is characterized in that, described footstock (501) bottom is provided with the lifting groove (501-1) that the eccentric protuberance (502-1) be suitable on cam (502) coordinates, and is provided with the lifting bearing (507) offseted with eccentric protuberance (502-1) in lifting groove (501-1) by bearing rotating shaft (506).

8. the feeding blowing manipulator of automatic packaging production line according to claim 5 or 6, it is characterized in that, linking arm (601) top between described lever barb (604-1) and swinging seat (609) is extended with adjustable limited post (614), adjustable limited post (614) top and lever (604) bottom surface is spacing offsets, is provided with arc-shaped transitional surface (502-3) between the concentric arcs end face (502-2) of eccentric protuberance (502-1) and cam (502).

9. the feeding blowing manipulator of automatic packaging production line according to claim 6 or 7, it is characterized in that, described link (405) is upper is fixed with riser guide (508) along height bearing of trend, and corresponding footstock (501) side is connected with by guide rails assembling plate (509) lifting slider (510) be slidably matched with riser guide (508).

10. the feeding blowing manipulator of automatic packaging production line according to claim 1 or 2 or 3 or 4 or 5 or 6 or 7, it is characterized in that, on described brace table (3), circumferentially direction is provided with four spring chuck mechanisms (6).