CN201347216Y

CN201347216Y - Carton conveying mechanism used in cartooning machine

Info

Publication number: CN201347216Y
Application number: CNU200920066469XU
Authority: CN
Inventors: 黄志伟; 刘恒珍
Original assignee: Individual
Current assignee: Shanghai Kingsun Packing Machinery Co Ltd
Priority date: 2009-01-05
Filing date: 2009-01-05
Publication date: 2009-11-18
Anticipated expiration: 2019-01-05

Abstract

A carton conveying mechanism used in a cartooning machine realizes carton conveyance through a first movable edge chain transmission mechanism and a second movable edge chain transmission mechanism arranged on the movable edges of a machine frame, as well as a first fixed edge chain transmission mechanism and a second fixed edge chain transmission mechanism on the fixed edges, drives a synchronous driving mechanism at the driving ends of the first movable edge chain transmission mechanism, the second movable edge chain transmission mechanism, the first fixed edge chain transmission mechanism and the second fixed edge chain transmission mechanism, and also can synchronously adjust the carton clamping distances between first movable edge clamping teeth and second movable edge clamping teeth as well as first fixed edge clamping teeth and second fixed edge clamping teeth. The utility model can meet requirements of different cartons, and has the advantages of stable carton clamping operation, simple adjustment, and high-speed operation of cartons.

Description

The employed box conveying mechanism of box packing machine

Technical field

The utility model relates to employed box conveying mechanism in a kind of box packing machine.

Background technology

In order to enhance productivity and level of management, to press for High-Speed Automatic box packing machine and replace manual dress box at present.In automatic box packing machine, the dress box be to be transported to after carton is opened, sign indicating number, envelope box and shaping station beaten, the mechanism that finishes this task is exactly the carton conveyer.The useful cutting groove on sheet of the carton conveyer of box packing machine adapts to the width of carton and adjusts the forms such as width that spacing adapts to carton with three chains at present, preceding a kind of form incompatibility continous way box packing machine, low and the adjustment trouble of speed, a kind of form grip box instability in back, go wrong incompatibility high speed box packing machine easily.Thereby will design a kind of carton conveyer and overcome above problem, make that grip box is stable, it is simple to adjust and can high-speed operation, so that adapt to High-Speed Automatic box packing machine.

The utility model content

Technical problem to be solved in the utility model is the box conveying mechanism that a kind of grip box is stable, adjust simple and high-speed operation box is provided, so that adapt to High-Speed Automatic box packing machine requirement.

Technical problem to be solved in the utility model can be achieved through the following technical solutions:

The employed box conveying mechanism of box packing machine comprises:

One frame, this frame comprise moving limit and deckle;

Be arranged at the first moving side chain transmission device and the second moving side chain transmission device on the moving limit of frame; The first moving side chain bar of the first moving side chain transmission device is provided with the first moving limit folder tooth, and the second moving side chain bar of the second moving side chain transmission device is provided with the second moving limit folder tooth;

Be arranged at the first deckle chain drive and the second deckle chain drive of frame deckle; The first deckle chain of the first deckle chain drive is provided with first deckle folder tooth, and the second deckle chain of the second deckle chain drive is provided with second deckle folder tooth;

Be arranged at the first moving side chain transmission device, the second moving side chain transmission device, the first deckle chain drive, the synchronous drive mechanism of the second deckle chain drive drive end and the synchronous follow-up mechanism of driven end; Described synchronous drive mechanism can also press from both sides between the tooth and the second moving limit folder tooth and the grip box distance between first deckle folder tooth and second deckle folder tooth in the synchronization regulation first moving limit.

Be provided with the translation mechanism of regulating distance between moving limit and the deckle between the moving limit of described frame and the deckle, this translation mechanism adapts to the carton of different length by regulating distance between moving limit and the deckle.

Described synchronous drive mechanism comprises:

Be fixedly installed in moving limit and the moving limit imput shaft bearing on the deckle and the deckle imput shaft bearing of described frame;

Coaxial first moving limit flange of the tape spool cover in moving limit imput shaft bearing and the deckle imput shaft bearing and the first deckle flange of tape spool cover of being installed in; On the flange of the described first deckle flange, offer in order to adjust the arcuation slotted hole I of the first deckle drive sprocket angular transposition in the first deckle chain drive, on the flange of the described first moving limit flange, offer the arcuation slotted hole II that adjusts the first moving limit drive sprocket angular transposition in the first moving side chain transmission device;

Drive deckle bevel-gear pair and moving limit bevel-gear pair that the first deckle flange and the first moving limit flange rotate respectively; Wherein the driven wheel of differential key of deckle bevel-gear pair is located on the axle sleeve of the first deckle flange, and the driven wheel of differential key of moving limit bevel-gear pair is located on the axle sleeve of the first moving limit flange;

Run through the first deckle flange and the first moving limit flange shaft sleeve but do not drive the first deckle flange and castellated shaft that the first moving limit flange rotates synchronously; One end of described castellated shaft has an optical axis, and there is an outer-hexagonal termination of castellated shaft;

Be fixed on the optical axis of castellated shaft and with the adjusting flange that castellated shaft rotates synchronously, on described adjusting flange, offer arcuation slotted hole III;

Key is located at the butt flange on the axle sleeve of the first deckle flange, on described butt flange, be evenly equipped with screw hole I, the uniform circle diameter of these screw holes I equates with the circle diameter of arcuation slotted hole III, and described adjusting flange passes bolt that described arcuation slotted hole III screws in different screw hole I on the butt flange and regulates flange and be connected by some;

Key is located on the castellated shaft and by castellated shaft and drives the second deckle flange that it rotates synchronously; On the flange of the second deckle flange, offer in order to adjust some screw hole II of the second deckle drive sprocket angular transposition in the second deckle chain drive;

Be installed in the second deckle drive sprocket of flange one side of the second deckle flange, on the described second deckle drive sprocket, offer in order to adjust the arcuation slotted hole IV of the second deckle drive sprocket angular transposition, the uniform circle diameter of screw hole II equates with arcuation slotted hole IV circle diameter on the second deckle flange, and the described second deckle flange passes the bolt that described arcuation slotted hole IV screws in different screw hole II on the second deckle flange and is connected with the second deckle drive sprocket scalable by some;

Cover also is positioned at the first deckle drive sprocket in the first deckle chain drive of flange opposite side of the second deckle flange, is evenly equipped with some screw hole III on the described first deckle drive sprocket; The uniform circle diameter of these screw holes III equates with arcuation slotted hole I circle diameter on the first deckle flange, and the first deckle flange passes the bolt that described arcuation slotted hole I screws in different screw hole III on the first deckle drive sprocket and is connected with the first deckle drive sprocket by some;

Key is located on the castellated shaft and moves second in the side chain transmission device with second of castellated shaft rotation synchronously and move the limit drive sprocket;

Cover also is positioned at the first moving limit drive sprocket and the second moving limit flange in the first moving side chain transmission device of flange one side of the first moving limit flange, and the described second moving limit flange is captiveed joint and rotation synchronously with the described second moving limit drive sprocket; Be evenly equipped with some screw hole IV on the described first moving limit drive sprocket, the uniform circle diameter of these screw holes IV equates with the arcuation slotted hole II circle diameter of the described first moving limit flange, and the described first moving limit flange passes bolt and first that described arcuation slotted hole II screws in different screw hole IV and moves the limit drive sprocket and be connected by some.

Synchronous follow-up mechanism comprises:

Be installed in moving limit and the moving limit driven shaft bearing on the deckle and the deckle driven shaft bearing of frame,

Be supported in moving limit driven shaft and deckle driven shaft on described moving limit driven shaft bearing and the deckle driven shaft bearing rotationally;

Be sleeved on driven flange in moving limit and the driven flange of deckle on moving limit driven shaft and the deckle driven shaft;

Be sleeved on the second moving limit driven sprocket in the first moving limit driven sprocket in the moving side chain transmission device of first on the driven flange in described moving limit, moving limit follower ring and the second moving side chain transmission device, the first moving limit driven sprocket is captiveed joint with moving limit follower ring, and the second moving limit driven sprocket is captiveed joint with the driven flange in moving limit;

Be sleeved on the second deckle driven sprocket in the first deckle driven sprocket, deckle follower ring and the second deckle chain drive in the first deckle chain drive on the driven flange of described deckle, the first deckle driven sprocket is captiveed joint with the deckle follower ring, and the second deckle driven sprocket is captiveed joint with the driven flange of deckle.

Be connected by seam between the described first moving limit driven sprocket and moving limit follower ring, the first deckle driven sprocket and deckle follower ring and the driven flange in moving limit, the driven flange of deckle.

Owing to adopted technique scheme, the utility model can be suitable for the requirement of different cartons, have grip box and stablize, adjust advantage simple and energy high-speed operation carton,

Description of drawings

Fig. 1 is the moving limit of box conveying mechanism drive end of the present utility model and the view that deckle is removed.

Fig. 2 is the moving limit and the close view of deckle of box conveying mechanism drive end of the present utility model.

Fig. 3 is the structural representation of adjusting flange of the present utility model.

Fig. 4 is the left view of Fig. 3.

The structural representation of Fig. 5 butt flange of the present utility model.

Fig. 6 is the left view of Fig. 5.

Fig. 7 is the structural representation of the first deckle flange of the present utility model.

Fig. 8 is the left view of Fig. 7.

Fig. 9 is the structural representation of the first deckle drive sprocket of the present utility model.

Figure 10 is the left view of Fig. 9.

Figure 11 is the structural representation of the second deckle flange of the present utility model.

Figure 12 is the left view of Figure 11.

Figure 13 is the structural representation of the second deckle drive sprocket of the present utility model.

Figure 14 is the left view of Figure 13.

Figure 15 is the structural representation of the of the present utility model second moving limit drive sprocket.

Figure 16 is the left view of Figure 15.

Figure 17 is the structural representation of the of the present utility model second moving limit flange.

Figure 18 is the structural representation of the of the present utility model first moving limit drive sprocket.

Figure 19 is the left view of Figure 18.

Figure 20 is the structural representation of the of the present utility model first moving limit flange.

Figure 21 is the left view of Figure 20.

Figure 22 is the structural representation of moving (deciding) side chain transmission device of the present utility model.

Figure 23 is a driven end synchronous follow-up mechanism structure scheme drawing of the present utility model.

Figure 24 is the driven flange plate structure scheme drawing in moving (deciding) limit of the present utility model.

Figure 25 is the structural representation of moving (deciding) limit of the present utility model follower ring.

Figure 26 is the structural representation of of the present utility model first fixed (moving) limit driven sprocket.

Figure 27 is the left view of Figure 26.

Figure 28 is the structural representation of of the present utility model second fixed (moving) limit driven sprocket.

Figure 29 is the left view of Figure 28.

The specific embodiment

For technological means, creation characteristic that the utility model is realized, reach purpose and effect is easy to understand, below in conjunction with concrete diagram, further set forth the utility model.

The employed box conveying mechanism of box packing machine, referring to Fig. 1,2 and Figure 23, its frame 100 parts comprise moving limit 110 and deckle 120, wherein moving limit 110 parts are arranged on (not shown) on the track, be provided with the translation mechanism of regulating distance between moving limit 110 and the deckle 120 between moving limit 110 and the deckle 120, as the leading screw and nut mechanism (not shown), carton for different length, only need shake the screw mandrel in the leading screw and nut mechanism, just move with respect to deckle 120 with drive moving limit 110 by nut, move on to the position of Fig. 2 as position from Fig. 1, the first deckle chain drive and the distance between the second deckle chain drive that are installed in the first moving side chain transmission device on the moving limit 110 and the second moving side chain transmission device like this and are installed on the deckle 120 just can be close mutually, to adapt to short carton.Fairly simple in view of translation mechanism, just do not giving unnecessary details in this specific embodiment.

Referring to Figure 22, the first moving side chain transmission device, the second moving side chain transmission device and the first deckle chain drive, the second deckle chain drive includes drive sprocket, driven sprocket and the chain on drive sprocket and driven sprocket constitute, wherein on the first moving side chain bar 210, equidistantly be provided with the first moving limit folder tooth 211 at interval, equidistantly be provided with the second moving limit folder tooth 221 on the second moving side chain bar 220 at interval, the interval equidistantly is provided with second deckle folder tooth 241 on first deckle folder tooth, 231, the second deckle chains 240 equidistantly being provided with at interval on the first deckle chain 230.The such first moving limit folder tooth 211 and the second moving limit folder tooth 221 just can be clamped an end of carton 600, and first deckle folder tooth 231 and second deckle folder tooth 241 are clamped the other end of carton 600, reposefully carton 600 are delivered to next station.Certainly, it is adjustable will describing the distance that distance between the first moving limit folder tooth 211 and the second moving limit folder tooth 221 and first deckle folder tooth 231 and second deckle press from both sides between the tooth 241 in the back, so just can adapt to the carton of different in width.In the present embodiment, the shape of the first moving limit folder tooth, 211, the second moving limit folder tooth 221, first deckle folder tooth 231, second deckle folder tooth 241 is the quadrantal triangle structure, and straight flange is in order to clip the box wall of carton 600.

Core of the present utility model is on the structure of synchronous follow-up mechanism of the synchronous drive mechanism of the first moving side chain transmission device, the second moving side chain transmission device, the first deckle chain drive, the second deckle chain drive drive end and driven end; Below emphasis is described in detail the synchronous drive mechanism of drive end and the synchronous follow-up mechanism of driven end.

Referring to Fig. 2, on the moving limit 110 of frame 100 and deckle 210, adopt fastener to be coaxially installed with moving limit imput shaft bearing 530 and deckle imput shaft bearing 430, axle sleeve 541 parts of the first moving limit flange 540 are supported on the moving limit imput shaft bearing 530 rotationally by bearing 531, and axle sleeve 441 parts of the first deckle flange 440 are supported on the deckle imput shaft bearing 430 rotationally by bearing 431, and the first moving limit flange 540 is relative with the flange portions of the first deckle flange 440.

Referring to Fig. 7 and Fig. 8, on the flange 442 of the first deckle flange 440, be evenly equipped with in order to adjust three arcuation slotted hole I 443 of the first deckle drive sprocket angular transposition in the first deckle chain drive.

Equally, referring to Figure 20 and Figure 21, on the flange 542 of the first moving limit flange 540, be evenly equipped with three arcuation slotted hole II543 that adjust the first moving limit drive sprocket angular transposition in the first moving side chain transmission device, and being provided with one section step axle 544, the axial plane of step axle 544 is provided with ring-type jump ring groove 545 one.

Referring to Fig. 2, pass axle sleeve 441 parts of the axle sleeve 541 partial sums first deckle flange 440 of the first moving limit flange 540 with a castellated shaft 700, the end that castellated shaft 700 is positioned at deckle 210 has one section optical axis 710 part, one outer-hexagonal 720 is arranged in the termination of this end, so that spanner rotates castellated shaft 700, adjust distance between first deckle folder tooth 231 and second deckle folder tooth 241 and first deckle folder tooth 211 and second deckle synchronously and press from both sides distance between the tooth 221, to adapt to the carton of different in width, concrete control method will be described later.Because axle sleeve 441 parts of the axle sleeve 541 partial sums first deckle flange 440 of the first moving limit flange 540 are unthreaded hole, therefore when castellated shaft 700 rotated, the first moving limit flange 540 and the first deckle flange 440 did not rotate.

For when normally carrying carton, castellated shaft 700 can rotate synchronously with the first moving limit flange 540 and the first deckle flange 440, this specific embodiment just is provided with a butt flange 460 and is fixed with an adjusting flange 450 in optical axis 710 parts by a latch 451 at the axle sleeve 441 part rear keys of the first deckle flange 440, butt flange 460 just can rotate synchronously with the first deckle flange 440 like this, rotates synchronously with castellated shaft 700 and regulate flange 450.Referring to Fig. 5 and Fig. 6, be evenly equipped with eight screw hole I 461 at butt flange 460.Referring to Fig. 3 and Fig. 4, regulating flange 450 is provided with a pin hole 452 and is evenly equipped with two arcuation slotted hole III453, the uniform circle diameter of these screw holes I461 on the butt flange 460 equates with the circle diameter of two arcuation slotted hole III453 on regulating flange 450, pass arcuation slotted hole III453 and screw in different screw hole I461 and can couple together with butt flange 460 with some bolts, can rotate synchronously with the first moving limit flange 540 and the first deckle flange 440 to realize castellated shaft 700 with regulating flange 450.When needs adjust synchronously distance between first deckle folder tooth 420 and second deckle folder tooth 520 and first deckle folder tooth 420 and second deckle press from both sides between the tooth 520 apart from the time, bolt can be unclamped, rotate and regulate 450 1 angles of flange, drive castellated shaft 700 and rotate an angle, tighting a bolt gets final product again.

Referring to Fig. 2, the synchronous rotation of the first moving limit flange 540 and the first deckle flange 440 can adopt deckle bevel-gear pair and moving limit bevel-gear pair to realize, wherein driven wheel of differential 472 keys of deckle bevel-gear pair are located on the axle sleeve 441 of the first deckle flange 440, and driven wheel of differential 552 keys of moving limit bevel-gear pair are located on the axle sleeve 541 of the first moving limit flange 540; The drive bevel gear 551 of the drive bevel gear 472 of deckle bevel-gear pair and moving limit bevel-gear pair drives rotation synchronously by the power system of box packing machine, drives the first deckle flange 440 and first moving limit flange 540 rotation synchronously synchronously by driven wheel of differential 472 and driven wheel of differential 552 respectively then.

Key is provided with one second deckle flange 480 on castellated shaft 700, is driven by castellated shaft 700 and rotates synchronously.In conjunction with referring to Figure 11 and Figure 12, the center of the second deckle flange 480 is provided with a splined hole 481, the both sides of flange 482 respectively are provided with a

step axle

483 and 484, have a ring-type jump ring groove 485 on the axial plane of step axle 484, are evenly equipped with 12 screw hole II486 on flange 482.Referring again to Fig. 2, the second deckle drive sprocket 250 and the first deckle drive sprocket 260 are set on the

step axle

483 and 484 of the second deckle flange 480, and it is spacing that wherein the first deckle drive sprocket 260 is snapped into the jump ring (not shown) of ring-type jump ring groove 485.

Referring to Fig. 9 and Figure 10,12 screw hole III261 are evenly arranged on the first deckle drive sprocket 260, the uniform circle diameter of these screw holes III261 equates with three arcuation slotted hole I443 circle diameters on the first deckle flange 440, the first deckle flange 440 passes the bolt that three arcuation slotted hole I443 screw in different screw hole III261 and is connected with the first deckle drive sprocket 260 by some, unclamp these bolts, can adjust the first deckle drive sprocket 260.

Referring to Figure 13 and Figure 14, be evenly equipped with three arcuation slotted hole IV251 on the second deckle drive sprocket 250, the uniform circle diameter of 12 screw hole II486 on the second deckle flange 480 equates with the circle diameter of three arcuation slotted hole IV251, the second deckle drive sprocket 250 is connected with the second deckle flange 480 by the bolt that passes three arcuation slotted hole IV251 and screw in different screw hole II486, unclamp these bolts, can adjust the second deckle drive sprocket 250.

Referring to Fig. 2, the second moving limit drive sprocket 270 directly is enclosed within on the castellated shaft 700 and with castellated shaft and rotates synchronously, and the first moving limit drive sprocket 280 and the second moving limit flange 560 are enclosed within on the step axle 544 of the first moving limit flange 540 and are spacing by the jump ring that snaps in the annular spring groove 545.

Referring to Figure 15 and Figure 16, the center of the second moving limit drive sprocket 270 is a splined hole 271, is evenly equipped with six unthreaded holes 272.Referring to Figure 17, be evenly equipped with six screw holes 561 on the second moving limit flange 560, passing six unthreaded holes 272 on the second moving limit drive sprocket 270 with six bolts is screwed on the second moving limit flange 560 and is evenly equipped with in six screw holes 561, the second moving limit drive sprocket 270 can be captiveed joint with the second moving limit flange 560, to limit second moving limit drive sprocket 270 end float misalignments.

Referring to Figure 18 and Figure 19, be evenly equipped with some screw hole IV281 on the described first moving limit drive sprocket 280, the uniform circle diameter of these screw holes IV281 equates with the arcuation slotted hole II543 circle diameter of the first moving limit flange 540, the first moving limit flange 540 passes bolt and first that arcuation slotted hole II543 screws in different screw hole IV281 and moves limit drive sprocket 280 and be connected by some, unclamp these bolts, i.e. the scalable first moving limit drive sprocket 280.

Referring to Figure 23, the synchronous follow-up mechanism of driven end comprises moving limit 110 and moving limit driven shaft bearing 530a on the deckle 120 and the deckle driven shaft bearing 430a that is installed in frame 100, and moving limit driven shaft 730 and deckle driven shaft 740 are supported on moving limit driven shaft bearing 530a and the deckle driven shaft bearing 430a by bearing 731,741 respectively.Be respectively installed with moving driven flange 570 in limit and the driven flange 490 of deckle at moving limit driven shaft 730 and deckle driven shaft 740.Referring to Figure 24, on the driven flange 570 in moving limit, be evenly equipped with six pin-and-holes 571 and two step axles 572,573, step axle 573 is provided with a seam ring 574.Be evenly equipped with six pin-and-holes 491 and two step axles 492,493 on the driven flange 490 of deckle, step axle 493 is provided with a seam ring 494.

Referring to Figure 25, be evenly equipped with six screw holes 581 on the moving limit follower ring 580, be provided with the seam circle 582 that is complementary with seam ring 574 in the centre hole of moving limit follower ring 580.Be evenly equipped with six screw holes 401 on the deckle follower ring 400, be provided with the seam circle 402 that is complementary with seam ring 494 in the centre hole of deckle follower ring 400.

Referring to Figure 26 and Figure 27, be evenly equipped with three unthreaded hole 281a on the first moving limit driven sprocket 280a, six screw holes, the 581 uniform circle diameters on the uniform circle diameter of three unthreaded hole 281a and the moving limit follower ring 580 equate.Be evenly equipped with three unthreaded hole 261a on the first deckle driven sprocket 260a, six screw holes, the 401 uniform circle diameters on the uniform circle diameter of three unthreaded hole 261a and the deckle follower ring 400 equate.

Referring to Figure 28 and Figure 29, be evenly equipped with six pin-and-hole 271a on the second moving limit driven sprocket 270a, six pin-and-hole 571 uniform circle diameters equate on the uniform circle diameter of second moving last six the pin-and-hole 271a of limit driven sprocket 270a and the driven flange 570 in moving limit.Be evenly equipped with six pin-and-hole 251a on the second deckle driven sprocket 250a, six pin-and-hole 491 uniform circle diameters equate on the uniform circle diameter of last six the pin-and-hole 251a of the second deckle driven sprocket 250a and the driven flange 490 of deckle.

During concrete the installation, moving driven flange 570 in limit and the driven flange 490 of deckle are sleeved on moving limit driven shaft 730 and deckle driven shaft 740 and block with jump ring.

The first step will be moved limit follower ring 580 and first earlier and move seam ring 574 both sides that limit driven sprocket 280a is enclosed within the step axle 573 of the driven flange 570 in moving limit, seam circle 582 on the wherein moving limit follower ring 580 is corresponding with seam ring 574, pass three unthreaded hole 281a on the first moving limit driven sprocket 280a with three bolts then and be screwed into moving limit follower ring 580 wherein in three screw holes 581, limit follower ring 580 is captiveed joint with the first moving limit driven sprocket 280a, because the combined action of seam ring 574 and bolt, the moving limit follower ring 580 and the first moving limit driven sprocket 280a can only rotate synchronously, and can not end float misalignment.

In like manner, deckle follower ring 400 and the first deckle driven sprocket 260a are enclosed within seam ring 494 both sides of the step axle 493 of the driven flange 490 of deckle, wherein the seam circle 402 on the deckle follower ring 400 is corresponding with seam ring 494, pass three unthreaded hole 261a on the first deckle driven sprocket 260a with three bolts then and be screwed into deckle follower ring 400 wherein in three screw holes 401, deckle follower ring 400 is captiveed joint with the first deckle driven sprocket 260a, because the combined action of seam ring 494 and bolt, the deckle follower ring 400 and the first deckle driven sprocket 260a can only rotate synchronously, and can not end float misalignment.

Second step was enclosed within the second moving limit driven sprocket 270a on the step axle 572 on the driven flange 570 in moving limit, passes on the second moving limit driven sprocket 270a and the driven flange 570 in moving limit six pin-and-

hole

271a, 571 with pin the second moving limit driven sprocket 270a is captiveed joint with the driven flange 570 in moving limit.In like manner, the second deckle driven sprocket 250a is enclosed within on the step axle 492 on the driven flange 490 of deckle, passes on the second deckle driven sprocket 250a and the driven flange 490 of deckle six pin-and-

hole

251a, 491 with pin the second deckle driven sprocket 250a is captiveed joint with the driven flange 490 of deckle.

Principle of work of the present utility model is: deckle bevel-gear pair and the moving limit bevel-gear pair driven in synchronism first deckle flange 440 and the first moving limit flange 540 rotate synchronously, be connected with the first deckle flange, 440 keys owing to butt flange 460 simultaneously, be connected with castellated shaft 700, butt flange 460 simultaneously and regulate flange 450, so castellated shaft 700 also rotates thereupon synchronously.The first deckle flange 440 that rotates synchronously, the first moving limit flange 540, castellated shaft 700, the second deckle flange 480 (because the second deckle flange 480 is connected with castellated shaft 700 keys) drive, the first deckle drive sprocket 260, the second deckle drive sprocket 250, the first moving limit drive sprocket 280, the second moving limit drive sprocket 270 rotate synchronously.The first deckle drive sprocket 260, the second deckle drive sprocket 250, the first moving limit drive sprocket 280, the second moving limit drive sprocket 270 that rotates synchronously stably drives the first deckle chain 230, the second deckle chain, 240, first moving side chain bar 210, the second moving side chain bar 220 rotatablely moves, second deckle folder tooth 241 on the second moving limit folder tooth 221 on the first moving side chain bar 210 on the first moving limit folder tooth 211 and the second moving side chain bar 220, the first deckle chain 230 on first deckle folder tooth 231 and the second deckle chain 240, stably carry at clamping carton 600 two ends.

Carry the carton of different in width if desired, only need unclamp the bolt of regulating between flange 450 and the butt flange 460, make the castellated shaft 700 and the first deckle flange 440, the drive connection of the first moving limit flange 540 breaks away from, rotate castellated shaft, drive the second moving limit drive sprocket 270 and drive the second deckle drive sprocket 250 with respect to the first moving limit drive sprocket 280 by the second deckle flange 480, the first deckle drive sprocket, 260 cws or inhour are rotated an angle, can press from both sides between the tooth 211 and the second moving limit folder tooth 221 and the grip box distance between first deckle folder tooth 231 and second deckle folder tooth 241 in the synchronization regulation first moving limit, to adapt to the carton of different in width.After regulating, the bolt that locking is regulated between flange 450 and the butt flange 460 gets final product.

If between the first moving limit folder tooth 211 and first deckle folder tooth 231, the second moving limit folder tooth 221 and second deckle folder tooth, 241 positions are not at once, can unclamp the bolt between the first moving limit drive sprocket 280 and the first moving limit flange 540, bolt between the first deckle drive sprocket 260 and the first deckle flange 440, bolt between the second deckle drive sprocket 250 and the second moving deckle flange 480, cw or the counterclockwise rotation first moving limit drive sprocket 280 that makes a movement, the first deckle drive sprocket 260, the second deckle drive sprocket 250 is between scalable first moving limit folder tooth 211 and first deckle folder tooth 241, the second moving limit folder tooth 221 and second deckle folder tooth, 231 correspondence positions, locking bolt separately gets final product after regulating.

More than show and described groundwork of the present utility model and principal character and advantage of the present utility model.The technical personnel of the industry should be understood; the utility model is not restricted to the described embodiments; that describes in the foregoing description and the specification sheets just illustrates principle of the present utility model; under the prerequisite that does not break away from the utility model spirit and scope; the utility model also has various changes and modifications, and these changes and improvements all fall in claimed the utility model scope.The claimed scope of the utility model is defined by appending claims and equivalent thereof.

Claims

1, the employed box conveying mechanism of box packing machine is characterized in that, comprising:

One frame, this frame comprise moving limit and deckle;

2. the employed box conveying mechanism of box packing machine according to claim 1, it is characterized in that, be provided with the translation mechanism of regulating distance between moving limit and the deckle between the moving limit of described frame and the deckle, this translation mechanism adapts to the carton of different length by regulating distance between moving limit and the deckle.

3. the employed box conveying mechanism of box packing machine according to claim 1 and 2 is characterized in that described synchronous drive mechanism comprises:

4. the employed box conveying mechanism of box packing machine according to claim 3 is characterized in that synchronous follow-up mechanism comprises:

Be sleeved on the second deckle driven sprocket in the first deckle driven sprocket, deckle follower ring and the second deckle chain drive in the first deckle chain drive on the driven flange of described deckle, the first deckle driven sprocket is captiveed joint with the deckle follower ring, and the second deckle driven sprocket is captiveed joint with the driven flange of deckle;