CN204365925U - Full-automatic numerical control bagged-spring production line - Google Patents

Abstract

The utility model discloses a kind of full-automatic numerical control bagged-spring production line.For overcoming existing bagged-spring production line complex structure, bulky, service life is short, and the inferior defect of the bagged-spring produced, the technical solution adopted in the utility model comprises the first frame and is vertically connected with the second frame, described spring diameter Control Component, line sending seat, line sending wheels and straightening wheels are horizontally fixed in the first frame along a straight line successively, described cutter assembly and push-rod assembly to be fixed in the second frame and between spring diameter Control Component and line sending seat, the side of described straightening wheels is provided with as spring steel wire level enters the line wheel of straightening wheels guiding, described line wheel and spring diameter Control Component, line sending seat, the straight line at line sending wheels and straightening wheels place is tangent.Its advantage is: the quality improving working (machining) efficiency and spring forming; Compact overall structure, saves the entire length of production line, and take up room little, parts are few, the cost reduce production, safeguarding.

Description

Full-automatic numerical control bagged-spring production line

Technical field

The production equipment that the utility model relates to mattress, sofa is packed in bag spring, specifically a kind of full-automatic numerical control bagged-spring production line.

Background technology

Full-automatic numerical control bagged-spring production line is the large-scale combined production equipment of spring of being packed in bag for the production of mattress, sofa, primarily of Digital Control Plane Roll-up Spring device, send spring assembly, elastic hot treating apparatus, compresses conveyer, packs welder, counts sealing-cutting device and turns over groove mechanism composition.

Spring steel wire is rolled into base material spring that is cylindrical or cydariform after entering Digital Control Plane Roll-up Spring device, and be cut off according to preset length, deliver in elastic hot treating apparatus by sending spring assembly and carry out electrical heating, change physical characteristic to be shaped, after high temperature spring cooling, deliver to compression conveyer makes spring be in confined state, deliver to pack welder non-woven wraps again to pack, form the bagged-spring bar of tens meters, the mattress finally produced as required by counting sealing-cutting device again or the size of sofa count bagged-spring bar, the long also sealing of meter, be processed into bagged-spring section, multistage bagged-spring section constitutes have flexible mattress or sofa by turning over after groove mechanism splices.

Also there is many defects in current numerical control bagged-spring production line when reality uses.

First: in Digital Control Plane Roll-up Spring device, spring steel wire directly enters in straightening wheels from entrance hole, now spring steel wire cannot keeping parallelism at entrance hole place, entrance hole is caused to wear and tear larger, there is the problem of inlet wire instability, indirectly cause the overall line sending of spring steel wire unstable, affect working (machining) efficiency and spring quality.

Second: base material spring needs by sending spring assembly to be sent to elastic hot treating apparatus from Digital Control Plane Roll-up Spring device, complete the high temperature spring after heating also to need after sending on spring assembly cooling, just deliver to compression conveyer, pack welder further, in order to avoid cause high temperature to damage to the non-woven fabrics of later stage parcel, this causes the spring assembly that send of bag-spring machine to be divided into base material spring to send spring section, heat treatment section, cooling section, and length is very long; Add that compression assembly is also divided into delivery section and compression section, delivery section is used for the cooling of high temperature spring, and compression section is used for the compression to spring, and this causes the length compressing conveyer also very long; Whole production line takes up room greatly, and parts are many, and structure is numerous and diverse, produces, maintenance cost is high.

3rd: in pack welder, only that structure that drive roll coordinates with follower rollers can only complete non-woven fabrics and carries in single rectilinear direction, the throughput direction of spring steel wire wire agency is identical with non-woven fabrics cloth feeding mechanism simultaneously, non-woven fabrics cloth feeding mechanism is caused to conflict mutually with spring steel wire wire agency, overall structure is reasonable not, and production line is bulky.

4th: in counting sealing-cutting device, realized being separated or closing up bagged-spring by individual pull-out by moving up and down of two folder spring hands positioned opposite, complete the counting of bagged-spring simultaneously, complex structure, and the once motion of folder spring hand can only pull out a bagged-spring, efficiency is low, and production line often needs to produce bagged-spring in enormous quantities, this causes, and the reciprocating motion of pressing from both sides spring hand is too frequent, fast, service life is short.

5th, turning in groove mechanism, bagged-spring section is clamped in a left side and turns over groove and the right side is turned between groove, when turning over bowl assembly rollover 90 degree, bagged-spring section is also followed it and is completed rollover, but, its do not have can be flexible make bagged-spring section from turning over the material-pulling device released bowl assembly, cause to be connected with follow-up bonding action, affect automaticity, cause working (machining) efficiency low.

Summary of the invention

Technical problem to be solved in the utility model is the defect overcoming the existence of above-mentioned prior art, a kind of full-automatic numerical control bagged-spring production line is provided, spring steel wire level can be made to enter into straightening wheels, and the conveying of keep-spring steel wire steadily, improves the quality of working (machining) efficiency and spring forming; Spring is continued compress conveying forward, at its compression leading portion, spring is heat-treated, section allows spring cool upon compression, and make non-woven fabrics enter into non-woven fabrics cloth feeding mechanism from the side, compact overall structure, saves the entire length of production line, takes up room little, parts are few, the cost reduce production, safeguarding; Can count bagged-spring bar, count length rapidly, and reach specified bagged-spring number or the laggard cut-out of length, soldering and sealing, form bagged-spring section; Mechanical bagged-spring to be released after can completing rollover turning over groove mechanism.

For this reason, the technical solution adopted in the utility model is as follows: full-automatic numerical control bagged-spring production line, comprise Digital Control Plane Roll-up Spring device, elastic hot treating apparatus, compress conveyer, pack welder, count sealing-cutting device and turn over groove mechanism, Digital Control Plane Roll-up Spring device comprises frame, pass for spring steel wire and the straightening wheels making its level stretching, for spring steel wire being imported the line sending wheels of line sending seat, the push-rod assembly of adjustable and the spring diameter Control Component at line sending seat interval, the cutter assembly cutting spring steel wire and regulating spring height, its technical characteristic is

Described frame comprises the first frame and second frame of vertical display, described first frame is vertically connected with the second frame, described spring diameter Control Component, line sending seat, line sending wheels and straightening wheels are horizontally fixed in the first frame along a straight line successively, described cutter assembly and push-rod assembly to be fixed in the second frame and between spring diameter Control Component and line sending seat, the side of described straightening wheels is provided with as spring steel wire level enters the line wheel of straightening wheels guiding, described line wheel and spring diameter Control Component, line sending seat, the straight line at line sending wheels and straightening wheels place is tangent,

Described compression conveyer comprises left and right two pieces of chain frames and two transmission chains, the two ends of chain frame install driving wheel and driven pulley respectively, two driving wheels are connected with left and right two group of first Power Component respectively, and under the driving of the first Power Component, drive transmission chain to move from front to back; Described transmission chain is provided with the shifting block of several equidistantly arrangements, forms the storage tank for placing spring, the storage tank one_to_one corresponding on left and right two transmission chains between two adjacent shifting blocks; The outside of two transmission chains is equipped with for the baffle plate spacing to the end of spring, and the front end spacing between two transmission chains is greater than rear end spacing;

Described elastic hot treating apparatus is positioned at the front end of compression conveyer, and it comprises two pieces of insulation boards be separately positioned on left and right baffle plate, and insulation board is embedded with the conductive plate inconsistent with the end of spring, conductive plate wears a wiring conductive pole; Two pieces of conductive plates are oppositely arranged;

Described pack welder comprises header board, rear plate and is arranged on the cylinder work feed assembly that non-woven fabrics can be driven to carry between header board and rear plate, the side of described cylinder work feed assembly is provided with into cloth assembly, described in enter cloth assembly side be provided with the turning plate that the outbound course that can change non-woven fabrics in cloth assembly makes the non-woven fabrics throughput direction of itself and cylinder work feed assembly be consistent;

Described counting sealing-cutting device comprises the feed mechanism, counting mechanism and the closing-cutting mechanism that set gradually, described counting mechanism comprises the second Power Component, the impeller axle be connected with the second Power Component and the impeller be fixed on impeller axle, the vertical blade of circumferential uniform polylith on impeller, leaves between two pieces of adjacent blades for the spring-loaded spatial accommodation of putting bag;

The described groove mechanism that turns over comprises and turns over bowl assembly for putting bag is spring-loaded, the described bowl assembly that turns over comprises the left side be oppositely arranged and turns over groove and groove is turned on the right side, described bagged-spring is clamped in a left side and turns over groove and the right side is turned between groove, described in turn in bowl assembly that be provided with can by bagged-spring from turning over the pushing material component ejected bowl assembly.

After adopting such scheme, each module position of rational deployment, make wind spring shaped device reasonable integral structure, spring steel wire warp wheel guiding is able to enter into entrance hole with horizontal direction, reaching spring steel wire inlet wire, line sending and outlet is positioned on same level straight line, the conveying of keep-spring steel wire entirety is stable, improves working (machining) efficiency and spring quality.

By of the prior artly sending spring assembly, heattreatment of spring device, compression conveyer is integrated into one overall, simplified structure.Base material spring exports from Digital Control Plane Roll-up Spring device, is continued to be fed forward by compression transfer assembly, and base material spring is heat-treated electrical component heating at the leading portion of compression transfer assembly, obtains sizing; Complete the high temperature spring after heating and continue onwards transmission, and be compressed into the adapted length of non-woven fabrics pack, section also completes cooling upon compression, greatly save the length of spring transmission on production line, take up room little, parts are few, the cost reduce production, safeguarding.The structure of compression transfer assembly is simple, all steadily reliable to the compression of spring, transmission; Two groups of Power Components drive two transmission chains motions respectively, make transmission chain form the structure of synchronous driving spring after acute angle simpler; The structure of heat treating assembly is simple, and heating effect is good, and energy consumption is low.

Enter cloth assembly and enter cloth from the side of cylinder work feed assembly, change the direction of non-woven fabrics by turning plate, overcoming in prior art can only from the shortcoming being parallel to cylinder work feed component transfer direction and entering cloth.

It is once a counting unit that original folder spring hand moves up and down, and each digit can only count the quantity of single bagged-spring; After improvement, second Power Component drives impeller axle rotation, and then impeller is rotated, blade is stirred bagged-spring and is fed forward, and completes counting, and impeller is a counting unit from turning around, each counting unit can count the quantity (having how many spatial accommodations just can count the quantity of how many bagged-springs) of multiple bagged-spring, can count bagged-spring bar, count length rapidly, device overall structure be simple, long service life.

Utilize the motive force of pushing material component, not only bagged-spring is turned over groove and the right side from a left side and turn in the middle of groove and release, by this motive force, its and preceding bagged-spring are fit together simultaneously, the perfection of twice manufacturing procedure is connected, raising working (machining) efficiency.

As improvement, described straightening wheels comprise straightening seat, straightening fixture block, some dead axles hold and some dynamic bearings, described straightening seat is connected with the first frame, straightening fixture block can be arranged in straightening seat up and downly, described dynamic bearing is fixed on straightening fixture block, and dead axle holds and is fixed on straightening seat and is positioned at the below of straightening fixture block; Described straightening seat is provided with the straightening inlet block of passing for spring steel wire and straightening goes out buccal mass, described dynamic bearing and dead axle hold be interspersed and respectively from both up and down be fitted in through spring steel wire; One end that described straightening goes out buccal mass and line sending seat is provided with hard alloy blocks.This setting, adopts dead axle to hold the mode fastening spring steel wire coordinated with dynamic bearing, is straightened and enters in line sending wheels, improve straightening effect after spring steel wire is passed through; Straightening inlet block and straightening go out buccal mass for being located by spring steel wire, and when ensureing that it passes straightening wheels, position is not departed from; Hard alloy blocks strengthens the mechanical hardness at this position, prevents spring steel wire from being expanded by the rear threading hole causing straightening to go out buccal mass and line sending seat inlet wire that weares and teares that produces for a long time.

As improvement, the lateral wall evagination of described insulation board in baffle plate, and is connected with a fixed head; Described fixed head is fixed on baffle plate by least one block welding sheet; The length of described conductive plate is greater than the distance of adjacent two springs.This setting, makes the installation of conductive plate and insulation board more firm; Increase the heated time of every foundation material spring, thermal effectiveness is better.

As improvement, described compression conveyer also comprises that at least two pieces are arranged side by side, for the fixed base plate of support chain frame, chain frame is connected with fixed base plate by connector; Described connector is L-shaped, and its perpendicular side is fixed on chain frame, and horizontal side wears locking member, described fixed base plate is offered with locking member with the use of chute; Left chain frame is vertically fixed on fixed base plate, and right chain frame is obliquely installed relative to left chain frame, and in chute, slides to adjust the spacing of itself and left chain frame by the locking member on connector, thus the spacing of adjustment two transmission chains.This setting, makes right chain frame can slide relative to left chain frame and adjusts spacing, can be used for the spring processing different length, use flexibly.

As improvement, left and right two pieces of baffle plates are fixed on left and right two chain frames respectively by barrier support; The madial wall of described barrier support is formed a step, baffle plate to mount on this step and welds with barrier support, and the bottom of barrier support is fixed on above-mentioned connector.This setting, makes the mounting structure of baffle plate convenient, firm.

As improvement, described rear plate connects plate after second, described in enter on the fixing plate in the second rear of cloth assembly and be plane orthogonal with cylinder work feed assembly; Described turning plate is provided with a bending edges, and the angle of described bending edges and front and rear panels is 45 °; Described cylinder work feed assembly comprises drive roll, follower rollers, axis of rolling group and drive motors, described drive roll and follower rollers are fixed on the front plate and the back plate through cylinder adjustable plate, described drive motors to drive with drive roll through decelerator and is connected, described follower rollers by gear coordinate drive after can do move toward one another with drive roll; Described cylinder adjustable plate is provided with breach, and the two ends of described follower rollers are installed in breach by cylinder regulating block, the interval of the adjustable follower rollers of index drum regulating block and drive roll; The below of described follower rollers and drive roll is provided with to be walked around and movable roll moving up and down for non-woven fabrics.This setting, make to enter cloth into cloth assembly with the direction vertical with cylinder work feed assembly, be assembled to after on spring coiling machine, what its overall structure was become is more reasonable and compact; After bending edges walked around by non-woven fabrics, bending edges completes doubling, make the direction of non-woven fabrics become consistent with the throughput direction of cylinder work feed assembly; Drive roll drives follower rollers to roll, and drive roll and follower rollers clamping non-woven fabrics simultaneously for non-woven fabrics provides the power of conveying, have stronger driving effect in the mode of move toward one another; When changing non-woven fabrics, follower rollers and drive roll clamping work are more prone to operate; When the package mechanism work of spring coiling machine, will pull the distance of a non-woven fabrics spring diameter, now movable roll is upwards lifted, and ensure non-woven fabrics delivery phase equalization of strain, molar behavior is coordinated more, conveying is reliable.

As improvement, described production line also comprises Song Huang mechanism, this Song Huang mechanism comprises the side plate that base plate and two pieces are separately positioned on the base plate left and right sides, the forward and backward two ends of two blocks of side plates are respectively equipped with front rotating cylinder and rear rotating cylinder, the arranged outside of side plate is for driving the 3rd Power Component of front rotating cylinder rotation, one feed belt is enclosed within outside front rotating cylinder and rear rotating cylinder, and be also provided with one between two blocks of side plates and be positioned at magnet plate inside feed belt, described magnet plate is provided with magnet.This setting, makes magnet produce downward attraction to the spring in bagged-spring, thus near feed belt, efficiently avoid bagged-spring in the problem sending skew or disengaging feed belt in process, ensure that sending smoothly of bagged-spring.

As improvement, described magnet plate is formed the cavity for placing magnet, the two ends, left and right of magnet plate are all fixed by screws on side plate; The end face of described magnet and the inwall matched in clearance of feed belt; The hole supplying the end of front rotating cylinder to pass all is offered in the front end of two blocks of side plates, and the front portion in hole is formed is convenient to the side openings of installing front rotating cylinder, and the height of described side openings is less than the internal diameter in hole.This setting, in the cavity that magnet can be directly placed on magnet plate, install, change more convenient; The distance of magnet and bagged-spring is nearer, stronger to the attraction of bagged-spring; The installation of front rotating cylinder, dismantle more convenient.

As improvement, the lateral wall of described impeller is formed the uniform slot of multiple circumference, described blade comprises the clicking section on top and the inserting part of bottom, and inserting part is plugged in slot, and the two ends of inserting part all stretch out and form evagination in the positioning convex of slot; On the impeller axle being positioned at impeller both sides, each cover has a cover plate, cover plate is offered with positioning convex with the use of locating hole, cover plate is arranged on impeller.This setting, makes the syndeton between blade and impeller simple, firm.

As improvement, described feed mechanism comprises feeding channel, and the outer end of feeding channel is positioned at the front of impeller, and the inner is positioned at the below of impeller; The outer end of feeding channel wears a spiral feeding axis, and on the spiral feeding axis being positioned at feeding channel, cover has cylinder.This setting, make the structure of feed mechanism simple, feeding is smooth and easy.

As improvement, the ultrasonic wave mainboard that described closing-cutting mechanism comprises mainboard in mainboard under feeding, feeding and is positioned between the two, the bottom of ultrasonic wave mainboard is provided with motor, welding decelerator, cam and connecting rod, one end of connecting rod is connected with mainboard under feeding, the other end is connected with cam, ultrasonic wave mainboard is offered the bar shaped groove passed for cam, motor is rotated by welding decelerator driving cam; Described ultrasonic wave mainboard wears two slide bars, the upper end of slide bar is connected with mainboard in feeding, lower end is connected with mainboard under feeding, be positioned at sheathed lower mainboard of slidably getting the raw materials ready on the slide bar above ultrasonic wave mainboard, the get the raw materials ready top of lower mainboard is provided with weldering knife assembly and snip assembly, bottom is provided with the pushing block inconsistent with cam, and cam promotes pushing block motion, thus drives lower mainboard of getting the raw materials ready to move up and down; The slide bar be positioned in feeding below mainboard is provided with upper mainboard of getting the raw materials ready, and the bottom of upper mainboard of getting the raw materials ready is provided with ultrasonic module, and ultrasonic module is oppositely arranged with weldering knife assembly and snip assembly, realizes cut-out and the sealing of bagged-spring bar.This setting, makes the structure of closing-cutting mechanism simple, motion stabilization.

As improvement, described pushing material component comprises pusher square tube, tooth bar and drive unit, and described pusher square tube is arranged on a left side and turns over groove and the right side is turned in groove, and tooth bar is connected with described pusher square tube, and drive unit can drive described rack synchronous to move; Described pushing material component also comprises the cogged gear shaft of band, and described gear shaft is horizontally set on a left side and turns over groove and the right side is turned on groove, and its gear engages with corresponding tooth bar, and drive unit can drive described gear shaft synchronous axial system; One end of described gear shaft is provided with bevel gear, and the side being positioned at bevel gear is provided with the guide rod vertical with gear shaft, and described guide rod is fixed on a left side and turns over groove and the right side is turned on groove, and guide rod is provided with the hexagonal bevel gear engaged with bevel gear in described gear shaft.This setting, controls tooth bar to utilize drive unit and synchronous movement occurs thus drives pusher square tube to turn over groove and right means of turning over the longitudinal direction movement of groove on a left side, released by bagged-spring; Groove and the right pusher square tube synchronizing moving turned in groove are turned in a left side, have and promote steadily, reliable advantage; Drive unit drives two gear shaft synchronous axial system can make to be positioned at a left side and turns over groove and the right pusher square tube synchronizing moving turning over groove, has structure simple, rational advantage.By the engagement of bevel gear and hexagonal bevel gear, guide rod is linked together with right two gear spindle drive turned in groove with the left groove that turns over, drive guide rod or one of them gear shaft that a left side can be made to turn over groove and the right pusher square tube synchronizing moving turned in groove by drive unit, have simple and reasonable, drive effective advantage.

The beneficial effects of the utility model are mainly reflected in: the first, and spring steel wire level can be made to enter into straightening wheels, and the conveying of keep-spring steel wire steadily, improves the quality of working (machining) efficiency and spring forming; Second, spring is continued compress conveying forward, at its compression leading portion, spring is heat-treated, section allows spring cool upon compression, and makes non-woven fabrics enter into non-woven fabrics cloth feeding mechanism from the side, compact overall structure, save the entire length of production line, take up room little, parts are few, the cost reduce production, safeguarding; 3rd, can count bagged-spring bar, count length rapidly, and reach specified bagged-spring number or the laggard cut-out of length, soldering and sealing, form bagged-spring section; 4th, mechanical bagged-spring to be released after rollover can being completed turning over groove mechanism.

Accompanying drawing explanation

Fig. 1 is the structural representation of the utility model Digital Control Plane Roll-up Spring device.

Fig. 2 is the front view of the utility model Digital Control Plane Roll-up Spring device.

Fig. 3 is the top view after the utility model elastic hot treating apparatus and compression conveyer assemble.

Fig. 4 is the overall structure schematic diagram after the utility model elastic hot treating apparatus and compression conveyer assemble.

Fig. 5 is the Facad structure schematic diagram after the utility model elastic hot treating apparatus and compression conveyer assemble.

Fig. 6 is the enlarged diagram in A portion in Fig. 4.

Fig. 7 is the explosive view after the utility model elastic hot treating apparatus amplifies.

Fig. 8 is the structural representation of the utility model pack welder.

Fig. 9 is the top view of the utility model pack welder.

Figure 10 is the enlarged diagram in B portion in Fig. 8.

Figure 11 is the structural representation of the utility model Song Huang mechanism.

Figure 12 is the sectional view of the utility model Song Huang mechanism.

Figure 13 is the explosive view of the utility model Song Huang mechanism.

Figure 14 is the structural representation of the utility model counting sealing-cutting device.

Figure 15 is the explosive view of counting mechanism in the utility model counting sealing-cutting device.

Figure 16 is the side sectional view of the utility model counting sealing-cutting device.

Figure 17 is the explosive view of closing-cutting mechanism in the utility model counting sealing-cutting device.

Figure 18 is the structural representation that the utility model turns over groove mechanism.

Shown in figure:

1, Digital Control Plane Roll-up Spring device, 11, spring steel wire, 111, hard alloy blocks, 12, straightening wheels, 121, straightening seat, 122, straightening fixture block, 123, dead axle holds, and 124, dynamic bearing, 125, straightening inlet block, 126, straightening goes out buccal mass, and 13, line sending seat, 14, line sending wheels, 15, spring diameter Control Component, 16, cutter assembly, 17, push-rod assembly, 18, the first frame, the 19, second frame, 10, line wheel;

2, elastic hot treating apparatus, 21, insulation board, 22, conductive plate, 23, wiring conductive pole, 24, fixed head, 25, bonding pad;

3, conveyer is compressed, 31, chain frame, 311, driving wheel, 312, driven pulley, the 313, first Power Component, 32, transmission chain, 321, shifting block, 322, storage tank, 33, baffle plate, 331, barrier support, 332, step, 34, fixed base plate, 341, connector, 342, locking member, 343, chute;

4, welder is packed, 41, header board, 42, rear plate, 43, cylinder work feed assembly, 431, drive roll, 432, follower rollers, 433, drive motors, 434, cylinder adjustable plate, 435, decelerator, 436, breach, 437, cylinder regulating block, 438, movable roll, 44, cloth assembly is entered, 45, turning plate, plate after 46, second, 47, bending edges;

5, counting sealing-cutting device, 511, second Power Component, 512, impeller axle, 513, impeller, 514, blade, 5141, clicking section, 5142, inserting part, 5143, positioning convex, 515, cover plate, 5151, locating hole, 521, feeding channel, 522, spiral feeding axis, 523, cylinder, 531, mainboard under feeding, 532, motor, 533, welding decelerator, 534, cam, 535, connecting rod, 541, mainboard in feeding, 551, ultrasonic wave mainboard, 552, bar shaped groove, 56, slide bar, 571, to get the raw materials ready lower mainboard, 572, weldering knife assembly, 573, snip assembly, 574, pushing block, 581, to get the raw materials ready upper mainboard, 582, ultrasonic module,

6, groove mechanism is turned over, 61, a left side turns over groove, 62, the right side turns over groove, 63, pushing material component, 631, pusher square tube, 632, tooth bar, 633, gear, 634, gear shaft, 635, bevel gear, 636, guide rod, 637, hexagonal bevel gear;

7, Song Huang mechanism, 71, base plate, 72, side plate, 721, hole, 722, side openings, 73, front rotating cylinder, 74, rear rotating cylinder, the 75, the 3rd Power Component, 76, feed belt, 77, magnet plate, 771, magnet, 772, cavity.

Detailed description of the invention

Below in conjunction with specification drawings and specific embodiments, the utility model is described in further detail.

Full-automatic numerical control bagged-spring production line, comprises Digital Control Plane Roll-up Spring device 1, elastic hot treating apparatus 2, compression conveyer 3, pack welder 4, counting sealing-cutting device 5 and turns over groove mechanism 6.

Digital Control Plane Roll-up Spring device 1 as shown in Figure 1 and Figure 2 comprises frame, pass for spring steel wire 11 and the straightening wheels 12 making its level stretching, for spring steel wire 11 is imported the line sending wheels 14 of line sending seat 13, adjustable and line sending seat 13 interval spring diameter Control Component 15, cut the cutter assembly 16 of spring steel wire 11 and the push-rod assembly 17 of regulating spring height.

Described frame comprises the first frame 18 and the second frame 19 of vertical display, described first frame 18 is vertically connected with the second frame 19, and described spring diameter Control Component 15, line sending seat 13, line sending wheels 14 and straightening wheels 12 are horizontally fixed in the first frame 18 along a straight line successively.Described cutter assembly 16 and push-rod assembly 17 to be fixed in the second frame 19 and between spring diameter Control Component 15 and line sending seat 13, the side of described straightening wheels 12 is provided with as spring steel wire 11 level enters the line wheel 10 that straightening wheels 12 lead, and the straight line at described line wheel 10 and spring diameter Control Component 15, line sending seat 13, line sending wheels 14 and straightening wheels 12 place is tangent.

Described straightening wheels 12 comprise straightening seat 121, straightening fixture block 122, some dead axles hold 123 and some dynamic bearings 124, described straightening seat 121 is connected with the first frame 18, straightening fixture block 122 can be arranged in straightening seat 121 up and downly, described dynamic bearing 124 is fixed on straightening fixture block 122, and dead axle holds 123 and to be fixed on straightening seat 121 and to be positioned at the below of straightening fixture block 122; Described straightening seat 121 is provided with the straightening inlet block 125 of passing for spring steel wire 11 and straightening goes out buccal mass 126, described dynamic bearing 124 and dead axle hold 123 be interspersed and respectively from both up and down be fitted in through spring steel wire 11; One end that described straightening goes out buccal mass 126 and line sending seat 13 is provided with hard alloy blocks 111.

Operationally, straightening wheels 12 are entered into the direction of level by straightening inlet block 125 from the bottom of line wheel 10 after spring steel wire 11 warp wheel 10 guiding, spring steel wire 11 is by holding 123 compressions by dynamic bearing 124 and dead axle during straightening wheels 12 thus being straightened, remittance abroad in the last hard alloy blocks 111 gone out from straightening buccal mass 126, spring steel wire 11 is carried to arrive spring diameter Control Component 15 by line sending seat 13 by line sending wheels 14, when spring steel wire 11 top is stopped by spring diameter Control Component 15, spring steel wire 11 bends due to the thrust of line sending wheels 14, spring is formed after pitch of the laps, by push-rod assembly 17 straightening spring heights, by moving back and forth of spring diameter Control Component 15, regulate the spacing distance of itself and line sending seat 13 thus the bending diameter changing spring reaches the shape that product specifies, and undertaken cutting off the machine-shaping that operation completes product by cutter assembly 16 timing.

Compression conveyer 3 as shown in Fig. 3, Fig. 4, Fig. 5 comprises left and right two pieces of chain frames 31 and two transmission chains 32, the two ends of chain frame 31 install driving wheel 311 and driven pulley 312 respectively, two driving wheels 311 are connected with left and right two group of first Power Component 313 respectively, and under the driving of the first Power Component 313, drive transmission chain 32 to move from front to back.Front end spacing between two transmission chains 32 is greater than rear end spacing.

Described transmission chain 32 is provided with the shifting block 321 of several equidistantly arrangements, forms the storage tank 322 for placing spring, the storage tank one_to_one corresponding on left and right two transmission chains between two adjacent shifting blocks.The outside of two transmission chains 32 is equipped with for the baffle plate 33 spacing to the end of spring.As shown in Figure 6, left and right two pieces of baffle plates 33 are fixed on left and right two chain frames 31 respectively by barrier support 331; The madial wall of described barrier support 331 is formed a step 332, baffle plate 33 to mount on this step 332 and welds with barrier support 331.

Described compression conveyer 3 also comprises that at least two pieces are arranged side by side, for the fixed base plate 34 of support chain frame 31, chain frame 31 is connected with fixed base plate 34 by connector 341; As shown in Figure 6, described connector 341 is L-shaped, and its perpendicular side is fixed on chain frame 31, horizontal side wears locking member 342, described fixed base plate 34 is offered with locking member 342 with the use of chute 343; Left chain frame is vertically fixed on fixed base plate 34, and right chain frame is obliquely installed relative to left chain frame, and is slided in chute 343 by the locking member 342 on connector 341 and adjust the spacing of itself and left chain frame, thus the spacing of adjustment two transmission chains.The bottom of above-mentioned barrier support 331 is fixed on above-mentioned connector 341.

Described elastic hot treating apparatus 2 is positioned at the front end of compression conveyer 3, it comprises two pieces of insulation boards 21 be separately positioned on left and right baffle plate 33, as shown in Figure 7, insulation board 21 is embedded with the conductive plate 22 inconsistent with the end of spring, conductive plate 22 wears a wiring conductive pole 23; Two pieces of conductive plates 22 are oppositely arranged.The length of described conductive plate 22 is greater than the distance of adjacent two springs.

The lateral wall evagination of described insulation board 21 in baffle plate 33, and is connected with a fixed head 24; Described fixed head 24 is fixed on baffle plate 33 by least one block welding sheet 25; In the present embodiment, described bonding pad 45 has two pieces, lays respectively at the two ends of fixed head 44.

During use, base material spring directly outputs to compression conveyer 3 from Digital Control Plane Roll-up Spring device 1, continued to be fed forward (two groups of Power Components 313 drive two transmission chains 32 to be synchronized with the movement respectively) by compression conveyer 3, base material spring, compressing the leading portion of conveyer 3 by elastic hot treating apparatus 2 electrical heating, obtains sizing; Complete the high temperature spring after heating and continue onwards transmission, and be compressed into the adapted length of non-woven fabrics pack, section also completes cooling upon compression.

Pack welder 4 as shown in Figure 8, Figure 9 comprises header board 41, rear plate 42 and is arranged on the cylinder work feed assembly 43 that non-woven fabrics can be driven to carry between header board 41 and rear plate 42.The side of described cylinder work feed assembly 43 is provided with into cloth assembly 44, and described rear plate 42 connects plate 46 after second, described in enter on the fixing plate 46 in the second rear of cloth assembly 44 and with cylinder work feed assembly 43 in plane orthogonal.Described enter the side of cloth assembly 44 be provided with turning plate 45, turning plate 45, the outbound course of non-woven fabrics in cloth assembly can be changed, be consistent with the non-woven fabrics throughput direction of cylinder work feed assembly after making it bend 90 degree.Described turning plate 45 is provided with one makes non-woven fabrics walk around the bending edges 47 that bending occurs, and in order to reduce friction, described bending edges 47 is 45 ° with the angle of header board 41 and rear plate 42.

In conjunction with Figure 10, described cylinder work feed assembly 43 comprises drive roll 431, follower rollers 432, axis of rolling group and drive motors 433, described drive roll 431 and follower rollers 432 through cylinder adjustable plate 434 be fixed on header board 41 and after on plate 42, described drive motors 433 to drive with drive roll 431 through decelerator 435 and is connected, drive roll 431 is nested with driving gear, follower rollers 432 is nested with driven gear, driving gear and driven gear engage each other, and described follower rollers 432 can make move toward one another with drive roll 431 after coordinating driving by gear.Described cylinder adjustable plate 434 is provided with breach 436, the two ends of described follower rollers 432 are installed in breach 436 by cylinder regulating block 437, cylinder regulating block 437 is set outside breach 436, cylinder regulating block 437 by spacing for follower rollers 432 in breach 436, cylinder regulating block 437 is provided with a screw rod, rotating screw bolt makes the conflict of its top on follower rollers 432 and promotes follower rollers 432, the interval of the adjustable follower rollers 432 of index drum regulating block 437 and drive roll 431.The below of described follower rollers 432 and drive roll 431 is provided with to be walked around and movable roll moving up and down 438 for non-woven fabrics.

Described production line also comprises Song Huang mechanism 7, as shown in Figure 11, Figure 12, Figure 13, this Song Huang mechanism 7 comprises the side plate 72 that base plate 71 and two pieces are separately positioned on base plate 71 left and right sides, the forward and backward two ends of two blocks of side plates 72 are respectively equipped with front rotating cylinder 73 and rear rotating cylinder 74, the arranged outside of side plate 72 is for driving the 3rd Power Component 75 of front rotating cylinder 73 rotation, one feed belt 76 is enclosed within outside front rotating cylinder 73 and rear rotating cylinder 74, and moves from front to back or from back to front under the drive of rotating cylinder.

Also be provided with one between two blocks of side plates and be positioned at magnet plate 77 inside feed belt 76, described magnet plate 77 is provided with magnet 771.Described magnet plate 77 is formed the cavity 772 for placing magnet 771, the two ends, left and right of magnet plate 77 are all fixed by screws on side plate 72.The end face of described magnet 771 and the inwall matched in clearance of feed belt 76; The hole 721 supplying the end of front rotating cylinder 73 to pass all is offered in the front end of two blocks of side plates 72, and the front portion in hole 721 is formed is convenient to the side openings 722 of installing front rotating cylinder 73, and the height of described side openings 722 is less than the internal diameter in hole 721.

Counting sealing-cutting device 5 as shown in figure 14 comprises the feed mechanism, counting mechanism and the closing-cutting mechanism that set gradually from right to left.In conjunction with Figure 15, Figure 16, described counting mechanism comprises the second Power Component 511, the impeller axle 512 be connected with the second Power Component 511 and the impeller 513 be fixed on impeller axle 512.The vertical blade of circumferential uniform polylith 514 on impeller 513: the lateral wall of described impeller 513 is formed the uniform slot of multiple circumference, described blade 514 comprises the clicking section 5141 on top and the inserting part 5142 of bottom, inserting part 5142 is plugged in slot, and the two ends of inserting part 5142 all stretch out and form evagination in the positioning convex 5143 of slot; On the impeller axle 512 being positioned at impeller 513 both sides, each cover has a cover plate 515, cover plate 515 is offered with positioning convex 5143 with the use of locating hole 5151, cover plate 515 is arranged on impeller 513.Leave between two pieces of adjacent blades for the spring-loaded spatial accommodation of putting bag; Second Power Component 511 drives impeller axle 512 rotation, and then impeller 513 is rotated, blade 514 is stirred bagged-spring and is fed forward, and completes counting.

In conjunction with Figure 14, Figure 16, described feed mechanism comprises feeding channel 521, and the outer end of feeding channel 521 is positioned at the front of impeller 513, and the inner is positioned at the below of impeller 513; The outer end of feeding channel 521 wears a spiral feeding axis 522, and on the spiral feeding axis 522 being positioned at feeding channel 521, cover has cylinder 523.

The ultrasonic wave mainboard 551 that closing-cutting mechanism as shown in figure 17 comprises mainboard 541 in mainboard 531 under feeding, feeding and is positioned between the two, the bottom of ultrasonic wave mainboard 551 is provided with motor 532, welding decelerator 533, cam 534 and connecting rod 535, one end of connecting rod 535 is connected with mainboard under feeding 531, the other end is connected with cam 534, ultrasonic wave mainboard 551 is offered the bar shaped groove 552 passed for cam 534, motor 532 is rotated by welding decelerator 533 driving cam 534; Described ultrasonic wave mainboard 551 wears two slide bars 56, the upper end of slide bar 56 is connected with mainboard in feeding 541, lower end is connected with mainboard under feeding 531, be positioned at sheathed lower mainboard 517 of slidably getting the raw materials ready on the slide bar 56 above ultrasonic wave mainboard 551, the get the raw materials ready top of lower mainboard 571 is provided with weldering knife assembly 572 and snip assembly 573, bottom is provided with the pushing block 574 inconsistent with cam 534, and cam 534 promotes pushing block 574 and moves, thus drives lower mainboard 571 of getting the raw materials ready to move up and down; The slide bar 56 be positioned in feeding below mainboard 541 is provided with upper mainboard 581 of getting the raw materials ready, the get the raw materials ready bottom of upper mainboard 581 is provided with ultrasonic module 582, ultrasonic module 582 is oppositely arranged with weldering knife assembly 572 and snip assembly 573, realizes cut-out and the sealing of bagged-spring bar.

The groove mechanism 6 that turns over as shown in figure 18 comprises and turns over bowl assembly for putting bag is spring-loaded, the described bowl assembly that turns over comprises the left side be oppositely arranged and turns over groove 61 and groove 62 is turned on the right side, described bagged-spring is clamped in a left side and turns over groove 61 and the right side is turned between groove 62, described in turn in bowl assembly that be provided with can by bagged-spring from turning over the pushing material component 63 ejected bowl assembly.

Described pushing material component 63 comprises pusher square tube 631, tooth bar 632 and drive unit, and described pusher square tube 631 is arranged on a left side and turns over groove 61 and the right side is turned in groove 62, and tooth bar 632 is connected with described pusher square tube 631, and drive unit can drive described tooth bar 632 synchronizing moving; Described pushing material component 63 also comprises the gear shaft 634 with gear 633, and described gear shaft 634 is horizontally set on a left side and turns over groove 61 and the right side is turned on groove 62, and its gear 633 engages with corresponding tooth bar 632, and drive unit can drive described gear shaft 634 synchronous axial system; One end of described gear shaft 634 is provided with bevel gear 635, the side being positioned at bevel gear 635 is provided with the guide rod 636 vertical with gear shaft 634, described guide rod 636 is fixed on a left side and turns over groove 61 and the right side is turned on groove 62, and guide rod 636 is provided with the hexagonal bevel gear 637 engaged with bevel gear 635 in described gear shaft 634.

Below be only described with regard to the utility model preferred embodiment, but can not be interpreted as it is limitations on claims.The utility model is not only confined to above embodiment, and its concrete structure allows to change.All various changes done in the protection domain of the utility model independent claims are all in protection domain of the present utility model.

Claims (12)

1. full-automatic numerical control bagged-spring production line, comprise Digital Control Plane Roll-up Spring device (1), elastic hot treating apparatus (2), compression conveyer (3), pack welder (4), count sealing-cutting device (5) and turn over groove mechanism (6), Digital Control Plane Roll-up Spring device (1) comprises frame, pass and the straightening wheels (12) making its level stretching for spring steel wire (11), for spring steel wire (11) being imported the line sending wheels (14) of line sending seat (13), the spring diameter Control Component (15) at adjustable and line sending seat (13) interval, the cutter assembly (16) of cutting spring steel wire (11) and the push-rod assembly (17) of regulating spring height, it is characterized in that:

Described frame comprises the first frame (18) and second frame (19) of vertical display, described first frame (18) is vertically connected with the second frame (19), described spring diameter Control Component (15), line sending seat (13), line sending wheels (14) and straightening wheels (12) are horizontally fixed in the first frame (18) along a straight line successively, described cutter assembly (16) and push-rod assembly (17) are fixed on the second frame (19) and go up and be positioned between spring diameter Control Component (15) and line sending seat (13), the side of described straightening wheels (12) is provided with as spring steel wire (11) level enters line wheel (10) that straightening wheels (12) lead, described line wheel (10) and spring diameter Control Component (15), line sending seat (13), the straight line at line sending wheels (14) and straightening wheels (12) place is tangent,

Described compression conveyer (3) comprises left and right two pieces of chain frames (31) and two transmission chains (32), the two ends of chain frame (31) install driving wheel (311) and driven pulley (312) respectively, two driving wheels (311) are connected with left and right two group of first Power Component (313) respectively, and under the driving of the first Power Component (313), drive transmission chain (32) to move from front to back; Described transmission chain (32) is provided with the shifting block (321) of several equidistantly arrangements, forms the storage tank (322) for placing spring, the storage tank one_to_one corresponding on left and right two transmission chains between two adjacent shifting blocks; The outside of two transmission chains (32) is equipped with for the baffle plate (33) spacing to the end of spring, and the front end spacing between two transmission chains (32) is greater than rear end spacing;

Described elastic hot treating apparatus (2) is positioned at the front end of compression conveyer (3), it comprises two pieces of insulation boards (21) be separately positioned on left and right baffle plate (33), insulation board (21) is embedded with the conductive plate (22) inconsistent with the end of spring, conductive plate (22) wears a wiring conductive pole (23); Two pieces of conductive plates (22) are oppositely arranged;

Described pack welder (4) comprises header board (41), rear plate (42) and is arranged on the cylinder work feed assembly (43) that non-woven fabrics can be driven to carry between header board (41) and rear plate (42), the side of described cylinder work feed assembly (43) is provided with into cloth assembly (44), described in enter cloth assembly (44) side be provided with the turning plate (45) that the outbound course that can change non-woven fabrics in cloth assembly makes the non-woven fabrics throughput direction of itself and cylinder work feed assembly be consistent;

Described counting sealing-cutting device (5) comprises the feed mechanism, counting mechanism and the closing-cutting mechanism that set gradually, the impeller (513) that described counting mechanism comprises the second Power Component (511), the impeller axle (512) be connected with the second Power Component (511) and is fixed on impeller axle (512), the upper vertical blade of the circumferential uniform polylith (514) of impeller (513), leaves between two pieces of adjacent blades for the spring-loaded spatial accommodation of putting bag;

The described groove mechanism (6) that turns over comprises and turns over bowl assembly for putting bag is spring-loaded, the described bowl assembly that turns over comprises the left side be oppositely arranged and turns over groove (61) and groove (62) is turned on the right side, described bagged-spring is clamped in a left side and turns over groove (61) and the right side is turned between groove (62), described in turn in bowl assembly that be provided with can by bagged-spring from turning over the pushing material component (63) ejected bowl assembly.

2. full-automatic numerical control bagged-spring production line according to claim 1, it is characterized in that: described straightening wheels (12) comprise straightening seat (121), straightening fixture block (122), some dead axles hold (123) and some dynamic bearings (124), described straightening seat (121) is connected with the first frame (18), straightening fixture block (122) can be arranged in straightening seat (121) up and downly, described dynamic bearing (124) is fixed on straightening fixture block (122), and dead axle holds (123), and to be fixed on straightening seat (121) upper and be positioned at the below of straightening fixture block (122); Described straightening seat (121) is provided with and goes out buccal mass (126) for spring steel wire (11) the straightening inlet block (125) of passing and straightening, described dynamic bearing (124) and dead axle hold (123) be interspersed and respectively from both up and down be fitted in through spring steel wire (11); One end that described straightening goes out buccal mass (126) and line sending seat (13) is provided with hard alloy blocks (111).

3. full-automatic numerical control bagged-spring production line according to claim 1, is characterized in that: the lateral wall evagination of described insulation board (21) in baffle plate (33), and is connected with a fixed head (24); Described fixed head (24) is fixed on baffle plate (33) by least one block welding sheet (25); The length of described conductive plate (22) is greater than the distance of adjacent two springs.

4. full-automatic numerical control bagged-spring production line according to claim 3, it is characterized in that: described compression conveyer (3) also comprises that at least two pieces are arranged side by side, for the fixed base plate (34) of support chain frame (31), chain frame (31) is connected with fixed base plate (34) by connector (341); Described connector (341) is L-shaped, and its perpendicular side is fixed on chain frame (31), horizontal side wears locking member (342), described fixed base plate (34) is offered with locking member (342) with the use of chute (343); Left chain frame is vertically fixed on fixed base plate (34), right chain frame is obliquely installed relative to left chain frame, and slided chute (343) in by the locking member (342) on connector (341) and adjust the spacing of itself and left chain frame, thus adjust the spacing of two transmission chains.

5. full-automatic numerical control bagged-spring production line according to claim 4, is characterized in that: left and right two pieces of baffle plates (33) are fixed on left and right two chain frames (31) respectively by barrier support (331); The madial wall of described barrier support (331) is formed a step (332), baffle plate (33) mounts at this step (332) upper and weld with barrier support (331), and the bottom of barrier support (331) is fixed on above-mentioned connector (341).

6. full-automatic numerical control bagged-spring production line according to claim 1, it is characterized in that: plate (46) after the upper connection second of described rear plate (42), described in enter the fixing plate (46) in the second rear of cloth assembly (44) upper and with cylinder work feed assembly (43) in plane orthogonal; Described turning plate (45) is provided with a bending edges (47), and described bending edges (47) is 45 ° with the angle of header board (41) and rear plate (42); Described cylinder work feed assembly (43) comprises drive roll (431), follower rollers (432), axis of rolling group and drive motors (433), described drive roll (431) and follower rollers (432) through cylinder adjustable plate (434) be fixed on header board (41) and after on plate (42), described drive motors (433) to drive with drive roll (431) through decelerator (435) and is connected, described follower rollers (432) by gear coordinate drive after can make move toward one another with drive roll (431); Described cylinder adjustable plate (434) is provided with breach (436), the two ends of described follower rollers (432) are installed in breach (436) by cylinder regulating block (437), the interval of index drum regulating block (437) adjustable follower rollers (432) and drive roll (431); The below of described follower rollers (432) and drive roll (431) is provided with to be walked around and movable roll moving up and down (438) for non-woven fabrics.

7. full-automatic numerical control bagged-spring production line according to claim 1, it is characterized in that: described production line also comprises Song Huang mechanism (7), this Song Huang mechanism (7) comprises the side plate (72) that base plate (71) and two pieces are separately positioned on base plate (71) left and right sides, before two pieces of side plates (72), rear two ends are respectively equipped with front rotating cylinder (73) and rear rotating cylinder (74), the arranged outside of side plate (72) is for driving the 3rd Power Component (75) of front rotating cylinder (73) rotation, one feed belt (76) is enclosed within front rotating cylinder (73) and rear rotating cylinder (74) outward, the magnet plate (77) that one is positioned at feed belt (76) inner side is also provided with between two blocks of side plates, described magnet plate (77) is provided with magnet (771).

8. full-automatic numerical control bagged-spring production line according to claim 7, it is characterized in that: the upper cavity (772) formed for placing magnet (771) of described magnet plate (77), the two ends, left and right of magnet plate (77) are all fixed by screws on side plate (72); The end face of described magnet (771) and the inwall matched in clearance of feed belt (76); The hole (721) supplying the end of front rotating cylinder (73) to pass all is offered in the front end of two pieces of side plates (72), the front portion in hole (721) is formed is convenient to the side openings (722) of installing front rotating cylinder (73), and the height of described side openings (722) is less than the internal diameter of hole (721).

9. full-automatic numerical control bagged-spring production line according to claim 1, it is characterized in that: the lateral wall of described impeller (513) is formed the uniform slot of multiple circumference, described blade (514) comprises the clicking section (5141) on top and the inserting part (5142) of bottom, inserting part (5142) is plugged in slot, and the two ends of inserting part (5142) all stretch out and form evagination in the positioning convex (5143) of slot; Impeller axle (512) Shang Getao being positioned at impeller (513) both sides has a cover plate (515), cover plate (515) is offered with positioning convex (5143) with the use of locating hole (5151), cover plate (515) is arranged on impeller (513).

10. full-automatic numerical control bagged-spring production line according to claim 1, it is characterized in that: described feed mechanism comprises feeding channel (521), the outer end of feeding channel (521) is positioned at the front of impeller (513), and the inner is positioned at the below of impeller (513); The outer end of feeding channel (521) wears a spiral feeding axis (522), and the upper cover of spiral feeding axis (522) being positioned at feeding channel (521) has cylinder (523).

11. full-automatic numerical control bagged-spring production lines according to claim 10, it is characterized in that: described closing-cutting mechanism comprises mainboard (531) under feeding, mainboard (541) and the ultrasonic wave mainboard (551) that is positioned between the two in feeding, the bottom of ultrasonic wave mainboard (551) is provided with motor (532), welding decelerator (533), cam (534) and connecting rod (535), one end of connecting rod (535) is connected with mainboard under feeding (531), the other end is connected with cam (534), ultrasonic wave mainboard (551) is offered the bar shaped groove (552) passed for cam (534), motor (532) is rotated by welding decelerator (533) driving cam (534), described ultrasonic wave mainboard (551) wears two slide bars (56), the upper end of slide bar (56) is connected with mainboard in feeding (541), lower end is connected with mainboard under feeding (531), be positioned at the upper sheathed lower mainboard (517) of slidably getting the raw materials ready of slide bar (56) of ultrasonic wave mainboard (551) top, the get the raw materials ready top of lower mainboard (571) is provided with weldering knife assembly (572) and snip assembly (573), bottom is provided with the pushing block (574) inconsistent with cam (534), cam (534) promotes pushing block (574) motion, thus drive lower mainboard (571) of getting the raw materials ready to move up and down, the slide bar (56) being positioned at mainboard in feeding (541) below is provided with upper mainboard (581) of getting the raw materials ready, the get the raw materials ready bottom of upper mainboard (581) is provided with ultrasonic module (582), ultrasonic module (582) is oppositely arranged with weldering knife assembly (572) and snip assembly (573), realizes cut-out and the sealing of bagged-spring bar.

12. full-automatic numerical control bagged-spring production lines according to claim 1, it is characterized in that: described pushing material component (63) comprises pusher square tube (631), tooth bar (632) and drive unit, described pusher square tube (631) is arranged on a left side and turns over groove (61) and the right side is turned in groove (62), tooth bar (632) is connected with described pusher square tube (631), and drive unit can drive described tooth bar (632) synchronizing moving; Described pushing material component (63) also comprises the gear shaft (634) with gear (633), described gear shaft (634) is horizontally set on a left side and turns over groove (61) and the right side is turned on groove (62), its gear (633) engages with corresponding tooth bar (632), and drive unit can drive described gear shaft (634) synchronous axial system; One end of described gear shaft (634) is provided with bevel gear (635), the side being positioned at bevel gear (635) is provided with the guide rod (636) vertical with gear shaft (634), described guide rod (636) is fixed on a left side and turns over groove (61) and the right side is turned on groove (62), and guide rod (636) is provided with the hexagonal bevel gear (637) engaged with bevel gear (635) in described gear shaft (634).