CN202922714U - Production line of double-sided automatic edge-sealing device - Google Patents

Abstract

The utility model discloses a production line of a double-sided automatic edge-sealing device. The production line comprises an automatic feeding device, a first edge-sealing device, a conveying device, a second edge-sealing device and an automatic discharging device, wherein a feed port is formed on the front side of the first edge-sealing device; a discharge port is formed in the rear side of the second edge-sealing device; the automatic feeding device is arranged in front of the feed port; the automatic discharging device is arranged behind the discharge port; and the conveying device is arranged between the first edge-sealing device and the second edge-sealing device so as to form a production line for automatically sealing edges of a plate. According to the production line of the double-sided automatic edge-sealing device, a series of actions, such as the automatic feeding, the automatic edge-sealing, automatic conveying, automatic discharging and automatic straightening after discharging, on the plate can be realized without manual operation, so that the production efficiency is improved greatly and the production cost is reduced greatly.

Description

Two-sided automatic banding device production line

Technical field

The utility model relates to the edge sealing apparatus field technology in woodworking machinery, refers in particular to a kind of two-sided automatic banding device production line.

Background technology

Plate fitment production and woodwork producer carry out edge sealing for the side of composite plate, originally mostly adopt traditional manual edge sealing operating type, the whole operation of traditional manual edge sealing needs at least two people La Bian, at least two people's edge sealing, both spent manpower, production efficiency is low again, and due to handwork, it is larger that product quality is affected by the artificial factors such as personnel are unstable, method of operating is unskilled, unstable product quality and be difficult to be guaranteed.

Quick progress along with science and technology, automatic edger has appearred in the market, but this edge banding machine only carries out the single face edge sealing, and need the workman to carry out loading and unloading, the workman that need to have senior experience when artificial loading carries out the position adjustment to the sheet material of material loading, could adapt to the edge sealing position of edge banding machine, and workman's loading and unloading easily cause the pause of work, the job insecurity problem can't solve that human cost is high, the problem of unstable product quality, operation inconvenience, inefficiency.

Also having a kind of both-end automatic edger is that the left and right sides of sheet material is carried out edge sealing simultaneously, and the edge sealing at this edge banding machine its two ends is difficult to realize synchronous, regulates difficulty, is difficult to ensure the quality of products stable.

Therefore, be necessary for market a kind of two-sided automatic banding device production line is provided, there is the drawback of synchronous operation difficulty in both-end automatic edger while edge sealing to break through existing single face edge banding machine inefficiency, to reduce production costs and the unstable technical problem of quality.

The utility model content

In view of this, the utility model is for the disappearance of prior art existence, its main purpose is to provide a kind of two-sided automatic banding device production line, realizes ajusting of automatic loading/unloading, independent left and right edge sealing, automatic transmission and sheet material, improves product quality, reduces costs and enhance productivity.

For achieving the above object, the utility model adopts following technical scheme:

A kind of two-sided automatic banding device production line comprises

One first edge banding apparatus, this first edge banding apparatus comprises the first edge sealing frame, is positioned at the feeding port of the first envelope frame front end, in micro-adjusting mechanism and first edge-sealing mechanism at feeding port rear, wherein micro-adjusting mechanism has the minitrim wheel that the oblique transmission of sheet material is fitted in this first edge-sealing mechanism, and this minitrim wheel is tilted by the inboard of export-oriented the first edge-sealing mechanism;

One second edge banding apparatus, this second edge banding apparatus comprises the second edge sealing frame, is positioned at the feed opening of the second edge-sealing mechanism, micro-adjusting mechanism and rear end on the second edge sealing frame, wherein micro-adjusting mechanism has the minitrim wheel that the oblique transmission of sheet material is fitted in this second edge-sealing mechanism, and this minitrim wheel is tilted by the inboard of export-oriented the second edge-sealing mechanism;

one automatic charging device, be positioned at the front side of the first edge banding apparatus, comprise feed frame, be installed on the material loading lifting platform of feed frame, material loading is close to conveying mechanism, and can be touched by sheet material and control the material loading touch switch that material loading lifting platform and material loading are close to the conveying mechanism self-starting, this material loading lifting platform is positioned at the feeding port front side, this material loading touch switch is positioned at above the material loading lifting platform, this material loading is close to the first charging belt group and the second charging belt group that conveying mechanism comprises that the sheet material that can be movable relatively to clamp the material loading lifting platform transmits, this the first charging belt group and the second charging belt group are positioned at respectively the feeding port left and right sides,

one automatic blanking device, be positioned at the rear side of the second edge banding apparatus, comprise the blanking frame, the blanking that is installed on the blanking frame is close to conveying mechanism, the blanking lifting platform, positioned in alignment mechanism, transmitted sheet material touching and controlled the blanking touch switch of positioned in alignment mechanism self-starting, and transmitted sheet material to block and controlled the blanking lifting platform and automatically descend and order about blanking and be close to the automatically reset optoelectronic switch of conveying mechanism and positioned in alignment mechanism, this blanking is close to conveying mechanism and comprises and can be movable relatively to be pressed in plate surface to its first blanking belt group of transmitting and the second blanking belt group, this the first blanking belt group and the second blanking belt group are positioned at respectively the left and right sides of feed opening, this blanking touch switch is positioned at the feed opening position, this optoelectronic switch is towards the blanking lifting platform, this positioned in alignment mechanism comprises that the both sides that can be movable relatively to clamp sheet material drive sheet material the 3rd blanking belt group and the 4th blanking belt group of mobile and backtracking backward, the 3rd blanking belt group and the 4th blanking belt group are positioned at respectively the blanking lifting platform left and right sides,

One conveyer, comprise linear transmission mechanism and oblique transmission mechanism, this linear transmission mechanism includes the linear transmission frame and is installed on a plurality of horizontal cylinders on the linear transmission frame, the top of this linear transmission frame has at least two first crossbeams that are set in parallel on same level, the direction that each horizontal cylinder is arranged is vertical with first crossbeam, and each horizontal cylinder drives the sheet linear transmission by motor-driven; This oblique transmission mechanism comprises oblique transmission frame and is installed on a plurality of oblique cylinder on oblique transmission frame, the top of this oblique transmission frame has at least two second cross beams that are set in parallel on same level, this second cross beam is connected in the rear of aforementioned first crossbeam, direction and second cross beam that each oblique cylinder is arranged acutangulate, and each oblique cylinder is driven the oblique transmission of sheet material by motor-driven.

The utility model compared with prior art has obvious advantage and beneficial effect, particularly, as shown from the above technical solution, it is mainly because production line comprises automatic charging device, the first edge banding apparatus, conveyer, the second edge banding apparatus and automatic blanking device, can realize automatically ajusting a series of actions after automatic charging, automatic edge sealing, automatic transmission, automatic blanking and the blanking of sheet material, do not need manually-operated fully, enhance productivity widely and reduce production costs.

Wherein, first, this automatic charging device is mainly to be close to conveying mechanism and to be combined by material loading lifting platform, material loading touch switch, material loading, and the height of a thickness of slab of the every rising of material loading lifting platform is when making that sheet material of top touch the material loading touch switch, can automatically start material loading and be close to the conveying mechanism action, realize the automation of material loading, the labour who effectively reduces a staff uses simple, processing ease is beneficial to the post training time that shortens the new technology personnel; In addition, the first charging belt group and the second charging belt group that this material loading is close to conveying mechanism are to clamp the dual-side of sheet material from the left and right sides, keep neat when being conducive to make sheet material to transmit, and can be delivered to feeding port in the path of regulation.

Two, sheet material is to carry out separately respectively respectively the edge sealing on left side and right side with the first edge banding apparatus and the second edge banding apparatus, be conducive to guarantee sealing edge quality, phenomenon stuck or that edge sealing is too fluffy can not appear, and be provided with micro-adjusting mechanism on the first edge banding apparatus and the second edge banding apparatus, can make the conduction of sheet material ecto-entad side, thereby when sheet material enters into edge-sealing mechanism, the lateral margin of its sheet material can closely press close to edge-sealing mechanism by the gear, the assurance feed entrance point is accurate, to guarantee the tightness of edge sealing, improve product quality.

Three, conveyer is comprised of linear transmission mechanism and oblique transmission mechanism, and because oblique transmission mechanism can be partial to sheet material the right side and be carried, further the edge-sealing mechanism applying for the margo dexter of sheet material and the second edge banding apparatus provides condition.

Four, by increasing automatic blanking device, realize the automatic blanking function, compared with adopting artificial blanking, greatly improved production efficiency, reduced production cost; Also have, mechanism can locate very accurately to sheet material by positioned in alignment, and its positioning accuracy and efficient are all located more manually and is much improved; Moreover this positioned in alignment mechanism is touched touch switch and is started by sheet material, and lifting platform is blocked optoelectronic switch and started by sheet material, realizes that automation controls, and its action is coherent, need not manually-operated, further saves human cost.

For more clearly setting forth architectural feature of the present utility model and effect, below in conjunction with accompanying drawing and specific embodiment, the utility model is elaborated.

Description of drawings

Fig. 1 is the assembling schematic perspective view of the embodiment of the utility model;

Fig. 2 is the three-dimensional enlarged diagram of automatic charging device in the embodiment of the utility model;

Fig. 3 is another visual angle figure of automatic charging device in the embodiment of the utility model;

Fig. 4 is the schematic diagram that is close to conveying mechanism in the embodiment of the utility model;

Fig. 5 is the schematic diagram of the second belt group in the embodiment of the utility model;

Fig. 6 is the sliding mode schematic diagram of the second belt group in the embodiment of the utility model;

Fig. 7 is the schematic diagram of the first edge banding apparatus in the embodiment of the utility model;

Fig. 8 is the partial schematic diagram of the first edge banding apparatus in the embodiment of the utility model;

Fig. 9 is the top view of Fig. 8;

Figure 10 is the enlarged diagram of automatic charging device and the first edge banding apparatus junction in Fig. 1;

Figure 11 is the schematic diagram of conveyer in the embodiment of the utility model;

Figure 12 is the overall schematic of oblique transmission mechanism in the embodiment of the utility model;

Figure 13 is the partial schematic diagram of oblique transmission mechanism in the embodiment of the utility model;

Figure 14 is the top view of Figure 13;

Figure 15 is the enlarged diagram of the first edge banding apparatus and conveyer junction in Fig. 1;

Figure 16 is the partial schematic diagram of the second edge banding apparatus in the embodiment of the utility model;

Figure 17 is the schematic perspective view of automatic blanking device in the embodiment of the utility model;

Figure 18 is another visual angle figure of automatic blanking device in the embodiment of this utility model;

Figure 19 is the stereogram that is close to conveying mechanism and positioned in alignment mechanism in the embodiment of the utility model;

Another visual angle of Figure 20 Figure 19 figure;

Figure 21 is the enlarged diagram of the right device and automatic blanking device junction in the embodiment of the utility model.

The accompanying drawing identifier declaration:

10, automatic charging device 11, feed frame

111, back side panel 112, left plate

12, material loading lifting platform 121, cylinder

13, material loading is close to conveying mechanism 131, the first charging belt group

1311, drive motors 132, the second charging belt group

1321, drive motors 1322, passing motor

1323, mount pad 1324, rolling wheels

1325, holder 14, material loading touch switch

15, directive slide track 151, chute

152, scale 16, power supply box

20, the first edge banding apparatus 21, band to band transfer module

211, gear 22, micro-adjusting mechanism

221, installing rack 222, drive motors

223, pull-up mechanism 224, minitrim wheel

2241, internal layer minitrim wheel 2242, outer minitrim wheel

23, the first edge sealing frame 24, feeding port.

30, conveyer 31, linear transmission mechanism

311, linear transmission frame 312, horizontal cylinder

313, first crossbeam 314, motor

32, oblique transmission mechanism 321, oblique transmission frame

322, oblique cylinder 3221, long cylinder

3222, short cylinder 323, second cross beam

3231, left crossbeam 3232, right crossbeam

324, motor 325, the first belt

326, power transmission shaft 327, the second belt

40, the second edge banding apparatus 41, micro-adjusting mechanism

411, minitrim wheel 42, feed opening

43, the second edge sealing frame

50, automatic blanking device 51, blanking frame

511, underframe 512, front side board

513, right plate 52, blanking lifting platform

522, cylinder

53, blanking is close to conveying mechanism 531, the first blanking belt group

532, the second blanking belt group 533, drive motors

54, blanking touch switch 55, optoelectronic switch

56, guidance set 561, holder

562, directive slide track 563, slide

564, connecting rod 57, positioned in alignment mechanism

571, the 3rd belt group 572, the 4th press nips

573, drive motors 574, roller

58, blanking power supply box.

The specific embodiment

please refer to shown in Figure 1, it has demonstrated the concrete structure of the preferred embodiment of the utility model, include automatic charging device 10, the first edge banding apparatus 20, conveyer 30, the second edge banding apparatus 40 and automatic blanking device 50, this the first edge banding apparatus 20 front sides have feeding port 24, these the second edge banding apparatus 40 rear sides have feed opening 42, this automatic charging device 10 is positioned at feeding port 24 the place aheads, automatic blanking device 50 is positioned at feed opening 42 rears, conveyer 30 is between the first edge banding apparatus 20 and the second edge banding apparatus 40, form an automation and sheet material is carried out the streamline of edge sealing processing.

At first, the front, rear, left and right direction of mentioning in literary composition is as the criterion with the direction of Fig. 1 indication.

Wherein, as shown in Figure 2, this automatic charging device 10 comprises that feed frame 11, material loading lifting platform 12, material loading are close to conveying mechanism 13, material loading touch switch 14 and directive slide track 15.As shown in Figure 3, the outside of this feed frame 11 is equipped with material loading power supply box 16, provides electric power by material loading power supply box 16 for each motor that material loading lifting platform 12 and material loading are close to conveying mechanism 13.Described material loading lifting platform 12 is arranged on feed frame 11, this material loading lifting platform 12 is risen or down maneuver by hydraulic-driven, and wherein, this material loading lifting platform 12 tops are paved into table top by a plurality of cylinders 121, can reduce the frictional force with the sheet material course of conveying, be beneficial to material loading.This directive slide track 15 is arranged on the position of the corresponding feeding port 24 of side plate 111 after feed frame 11, as shown in Figure 4, directive slide track 15 upper surfaces have the chute 151 of spill, and the other scale 152 that from left to right is provided with of the side of chute 151, the plate that can measure like a cork sheet material is wide, also can measure the distance that following the second charging belt group 132 is slided simultaneously.As shown in Figure 2, this material loading touch switch 14 is positioned at the top of material loading lifting platform 12, can automatically start material loading after it is touched by the sheet material of material loading lifting platform 12 tops and be close to conveying mechanism 13, delivering to feeding port 24 after the sheet material clamping.this material loading is close to the position that conveying mechanism 13 is positioned at the corresponding feeding port 24 of material loading lifting platform 12, it comprises the first charging belt group 131 and the second charging belt group 132, this the first charging belt group 131 and the second charging belt group 132 side-stand type are respectively installed, wherein as shown in Figure 4, the first belt group 131 is fixed in the left side of corresponding feeding port 24 on the left plate 112 of feed frame 11, and the drive motors 1311 of this first charging belt group 131 also is fixedly installed in feed frame 11, driving the first charging belt group 131 by drive motors 1311 rotates, and the second charging belt group 132 can move along directive slide track 15 relative to the first charging belt group 131, its correspondence is positioned at the right side of feeding port 24.In the present embodiment, this the second charging belt group 132 is furnished with drive motors 1321 and passes motor 1322, this drive motors 1321 is used for driving the second charging belt group 132 rotations, and this passing motor 1322 moves along directive slide track 15 for driving mount pad 1323 integral body of the second charging belt group 132 together with the second charging belt group 132.And as shown in Figure 5 and Figure 6, for this move mode, be provided with rolling wheels 1324 in mount pad 1323 bottoms of the second charging belt group 132, can reduce the resistance when mobile, guarantee reaction rapidly with mobile required distance; In addition, see Fig. 2 or Figure 10, pass motor 1322 for this, back side panel 111 in feed frame 11 also is provided with a holder 1325, aforementioned directive slide track 15 passes this holder 1325, pass motor 1322 and be locked on holder 1325, drive the second charging belt group 132 by the drive shaft turns of passing motor 1322 and mount pad 1323 integral body move along directive slide track 15.

As shown in Figure 7, described the first edge banding apparatus 20 is used for the independent edge sealing in the left side of sheet material, thereby is different from traditional bilateral processing mode of edge sealing simultaneously, and one-sided edge sealing more can guarantee the tightness of product edge sealing.This first edge banding apparatus 20 comprises the first edge sealing frame 23 and is installed on micro-adjusting mechanism 22, the first edge-sealing mechanism (not shown), band to band transfer module 21 on this first edge sealing frame 23.Its first edge-sealing mechanism can be existing or unknown variety of way, does not carefully state at this.In the present embodiment, the head end of this first edge banding apparatus 20 and end are equipped with band to band transfer module 21, and this band to band transfer module 21 surfaces are provided with a plurality of gears 211, are used for sheet material with feeding port 24 and carry out straight line and carry.The particularly important is, micro-adjusting mechanism 22 is positioned at the top of this band to band transfer module 21, and in conjunction with Fig. 8 and Fig. 9, these micro-adjusting mechanism 22 integral body are tilted by the inboard of lateral edge-sealing mechanism, be used for the left side edge of sheet material is close to by keeping off ground guiding the first edge-sealing mechanism, be beneficial to carrying out smoothly of edge sealing.particularly, this micro-adjusting mechanism 22 comprises installing rack 221, drive motors 222, pull-up mechanism 223 and a plurality of minitrim wheel 224, two-layer being located on installing rack 221 inside and outside each minitrim wheel 224 minutes, in the present embodiment, the quantity of minitrim wheel 224 has five, wherein internal layer minitrim wheel 2241 is distributed with three, outer minitrim wheel 2242 is distributed with two, each outer minitrim wheel 2242 is affixed on internal layer minitrim wheel 2241 surfaces, and each minitrim wheel 224 is obliquely installed, thereby these five minitrim wheels 224 make the constantly skew to the inside of left side edge of sheet material in constantly rotating, to realize the fine setting effect.Described pull-up mechanism 223 is connected between the installing rack 221 of the first edge sealing frame 23 and micro-adjusting mechanism 22, during non-working condition, can micro-adjusting mechanism 22 integral body upwards be packed up a segment distance by this pull-up mechanism 223, perhaps can regulate micro-adjusting mechanism 22 and the distance of band to band transfer module 21 when the state of use, with the sheet material of adaptive different thicknesss of slab.

Extremely shown in Figure 10 in conjunction with Fig. 1, the material loading principle of this production line is as follows: under non-action status, the drum-type table top at material loading lifting platform 12 tops is positioned at the below of feeding port 24 horizontal planes, by artificial or manipulator stacking sheet material on the drum-type table top, generally can be stacking tens to tens sheet materials.then start material loading lifting platform 12, these material loading lifting platform 12 climbeds, that sheet material bottom of top is flushed with the horizontal plane of feeding port 24, and the sheet material end face of top is encountered material loading touch switch 14, make the drive motors 1311 of the first charging belt group 131 and the second charging belt group 132, 1321 start automatically, the inboard of feeding port 24 pushed the second charging belt group 132 to by this passing motor 1322 simultaneously, make the second charging belt group 132 can coordinate with the first charging belt group 131 two sides that clamp top sheet material, and drive sheet material enters into edge banding apparatus 20.After sheet material enters band to band transfer module 21, each gear 211 by band to band transfer module 21 continues sheet material is carried, in this process, the left side of sheet material is along being attached on the minitrim wheel 224 of micro-adjusting mechanism 22, owing to sloping inwardly inside and outside each minitrim wheel 224, therefore make sheet material constantly near inboard transmission when the process of rotating, thereby the left border of sheet material can near envelope by gear, fluffy phenomenon can not occur during edge sealing.

As shown in figure 11, described conveyer 30 comprises linear transport mechanism 31 and oblique connecting gear 32, and this linear transport mechanism 31 connects the first edge banding apparatus 20 ends (seeing Figure 15), and this oblique connecting gear 32 connects the front end of aforementioned the second edge banding apparatus 40.Wherein this linear transmission mechanism 31 includes linear transmission frame 311 and is installed on a plurality of horizontal cylinders 312 on linear transmission frame 311, the top of this linear transmission frame 311 has at least two first crossbeams 313 that are set in parallel on same level, the direction that each horizontal cylinder 312 is arranged is vertical with first crossbeam 313, and each horizontal cylinder 312 drives the transmission of drive sheet linear by motor 314.As shown in figure 12, described oblique transmission mechanism 32 comprises oblique transmission frame 321 and is installed on a plurality of oblique cylinder 322 on oblique transmission frame 321, the top of this oblique transmission frame 321 has at least two second cross beams 323 that are set in parallel on same level, this second cross beam 323 is connected in the rear of aforementioned first crossbeam 313, direction and second cross beam 313 that each oblique cylinder 322 is arranged acutangulate, and each oblique cylinder 323 is driven and the oblique transmission of drive sheet material by motor 324.in conjunction with Figure 12 to Figure 14, in the present embodiment, the second cross beam 323 of described oblique transmission mechanism 32 comprises left crossbeam 3231 and right crossbeam 3232, described oblique cylinder 322 comprises group leader's cylinder 3221 and two groups short cylinders 3222, the two ends of this long cylinder 3221 are overlapped on the medium position of left crossbeam 3231 and right crossbeam 3232, wherein one group short cylinder 3222 is positioned at the corner, front side of long cylinder 3221 and has an end to be overlapped in left crossbeam 3231, the short cylinder 3222 of another group is positioned at the rear side corner of long cylinder 3221 and has an end to be overlapped in right crossbeam 3232, all long cylinders 3221 that are overlapped in left crossbeam 3231 be connected cylinder 3222 and connect power transmission shafts 326 by the first belt 325, and power transmission shaft 325 is driven by motor 324, mutually connect by the second belt 327 between the short cylinder 3222 of right crossbeam 3232 and be overlapped in, and be connected with the other long cylinder 3221 of side, each short cylinder 3221 that this long cylinder 3222 drives the corner synchronously rotates, therefore sheet material constantly skew to the right in transmitting procedure, to fall on the second edge banding apparatus 40.

As shown in figure 16, the structure of described the second edge banding apparatus 40 and aforementioned the first edge banding apparatus 20 are basic identical, it comprises the second edge sealing frame 43, is positioned at the feed opening 42 of the second edge-sealing mechanism (not diagram), micro-adjusting mechanism 41 and rear end on the second edge sealing frame 43, wherein micro-adjusting mechanism 41 has the minitrim wheel 411 that the oblique transmission of sheet material is fitted in this second edge-sealing mechanism, this minitrim wheel 411 is tilted by the inboard of export-oriented the second edge-sealing mechanism, guarantees that the right side of sheet material can be close to the second edge sealing by blocking.

Wherein, as shown in figure 17, this automatic blanking device 50 comprises that blanking frame 51, blanking lifting platform 52, blanking are close to conveying mechanism 53, blanking touch switch 54, optoelectronic switch 55, guidance set 56 and positioned in alignment mechanism 57.

As shown in figure 18, this blanking frame 51 comprises underframe 511, front side board 512 and right plate 513, in right plate 513 outsides, blanking power supply box 58(is installed and sees Figure 17), provide electric power by blanking power supply box 58 for each motor that blanking lifting platform 52, positioned in alignment mechanism 57 and blanking are close to conveying mechanism 53.

Described blanking lifting platform 52 is arranged on right plate 513 inboards of blanking frame 51, and the rising of this blanking lifting platform 52 or down maneuver are by hydraulic-driven.In addition, the top of this blanking lifting platform 52 is paved into table top by a plurality of cylinders 522, can reduce the frictional force with the sheet material course of conveying, is beneficial to blanking.

This blanking is close to the position that conveying mechanism 53 is positioned at the corresponding feed opening 42 of blanking lifting platform 52, as Figure 19 and shown in Figure 20, it comprises the first blanking belt group 531 and the second blanking belt group 532, and this first blanking belt group 531 and the second blanking belt group 532 be the corresponding left and right sides that is positioned at feed opening 42 respectively.Wherein the first blanking belt group 531 is fixed on the right plate 513 of blanking frame 51, and the drive motors 533 of this first blanking belt group 531 also is fixedly installed in blanking frame 51, drive the first blanking belt group 531 by drive motors 533 and rotate, and the second blanking belt group 532 can move along guidance set 56 relative to the first blanking belt group 531.In the present embodiment, the strap surface of this first blanking belt group 531 and the second blanking belt group 532 is to arrange down, can push down like this upper surface of sheet material, and frictionally drives sheet material and move, rather than clamps the lateral edges of sheet material.

These guidance set 56 correspondences are positioned at feed opening 42 positions, and it comprises holder 561, directive slide track 562, slide 563 and two connecting rods 564.This directive slide track 562 is fixed in the left of front side board 512, and its upper surface has the slide rail of convex, and aforementioned slide 563 is installed on slide rail, and slide 563 slides along slide rail.Aforementioned the second blanking belt group 532 is fixed on this slide 563, thereby drives the second blanking belt group 532 integrated movings when slide 563 slides on slide rail.Described holder 561 is positioned at the end of directive slide track 562, the end that this two connecting rod 564 connects is fixed in the first blanking belt group 531, the other end is connected on holder 561 after passing the second blanking belt group 532, and it is stable that these connecting rods 564 can be guaranteed to keep when the second blanking belt group 532 moves.

As shown in figure 21, this blanking touch switch 54 is positioned at feed opening 42 positions, the sheet material of completing after edge sealing is sent from feed opening 42, the front-end edge of sheet material can be touched this blanking touch switch 54, this blanking touch switch 54 keeps being failure to actuate when beginning to touch, when the tail end of full wafer sheet material and blanking touch switch 54 break away from, can automatically start positioned in alignment mechanism 57, so that the sheet material alignment is put.

Described positioned in alignment mechanism 57 comprises that the 3rd belt group 571 and the 4th press nips 572, the three belt groups 571 and the 4th press nips 572 are installed on respectively the rear side of aforementioned the first blanking belt group 531 and the second blanking belt group 532 and are positioned at the left and right sides of blanking lifting platform 52.Wherein, the 3rd belt group 571 is installed on the right plate 513 of the first blanking belt group 531 rear sides, and the 3rd belt group 571 is laterally disposed, and its strap surface is driven and rotated by drive motors 573 towards blanking lifting platform 52, the three belt groups 571.The 4th press nips 572 is installed on the slide 563 of the second blanking belt group 532, and it is to be made of a plurality of rollers 574 of two rows, when aforementioned slide 563 slides, and the 4th press nips 572 and the second blanking belt group 532 synchronizing movings.When non-working condition, the 3rd belt group 571 is accommodated in right plate 513, when positioned in alignment mechanism 57 is subjected to 54 actions of blanking touch switch and when starting, the 3rd belt group 571 is stretched out from right plate 513, coordinate with the 4th press nips 572 both side edges that clamps sheet material, it transmits action is first sheet material to be carried backward, when sheet material breaks away from feed opening 42 fully and is placed in the table top of blanking lifting platform 52, the edge of sheet material can be adjacent to front side board 512 inwalls and block following optoelectronic switch 55, descends thereby automatically start blanking lifting platform 52.

As shown in figure 21, described optoelectronic switch 55 is installed on before blanking frame 51 side plate 512 towards a side of blanking lifting platform 52, when blanking lifting platform 52 descends, that sheet material of top covers optoelectronic switch 55, makes the height of blanking lifting platform 52 decline one monolithic sheet, when this moment, optoelectronic switch 55 was unobstructed, blanking lifting platform 52 stops, until there is new one sheet material again to cover optoelectronic switch 55, descend the again height of a thickness of slab of blanking lifting platform 52, so repetitive operation.

In conjunction with Figure 17 to Figure 21, the principle of blanking is as follows: under non-action status, the slack work of the motor of each mechanism, distance between distance, the 3rd belt group 571 and the 4th press nips 572 between this first blanking belt group 531 and the second blanking belt group 532 is greater than the width of plank, and the 3rd belt group 571 is accommodated in right plate.In the process of plate cutting, band to band transfer module and micro-adjusting mechanism 41 and blanking are close to each electric motor starting of conveying mechanism 53, described band to band transfer module carries out linear transmission to sheet material, coordinates the oblique transmission of micro-adjusting mechanism 41, makes the transmission locus of sheet material tilt to be partial to feed opening 42 positions that set.When sheet material was delivered to feed opening 42, sheet material entered the first blanking belt group 531 and the second blanking belt group 532 belows, both coordinates from the top to be pressed in plate surface, and frictionally drives sheet material and rearward carries.sheet material is in the transmitting procedure of feed opening 42 positions, can touch blanking touch switch 54, beginning blanking touch switch 54 is failure to actuate, when sheet material integral body is left the end of feed opening 42 and sheet material and blanking touch switch 54 and is broken away from, positioned in alignment mechanism 57 starts automatically, the 3rd belt group 571 is stretched out right plate 513, and the 4th press nips 572 on the other side comes closer, both coordinate the both side edges of clamping sheet material, under drive motors 573 forward effects, driving sheet material moves backward, this moment, the cephalolateral margin of sheet material blocked optoelectronic switch 55, made the height of blanking lifting platform 52 decline a slice thicknesss of slab by optoelectronic switch 55 actions, the 3rd belt group 571 and the 4th press nips 572 retreat into original position simultaneously.After blanking lifting platform 52 descended, optoelectronic switch 55 was in unobstructed state, and this moment, all mechanisms returned to reset condition, treated that next sheet material carries out blanking, so perseveration.

In sum, design focal point of the present utility model is: automatically ajust a series of actions after automatic charging, automatic edge sealing, automatic transmission, automatic blanking and the blanking that can realize sheet material on this production line, do not need manually-operated fully, enhance productivity widely and reduce production costs.

The above, it is only preferred embodiment of the present utility model, be not that technical scope of the present utility model is imposed any restrictions, therefore every foundation technical spirit of the present utility model all still belongs in the scope of technical solutions of the utility model any trickle modification, equivalent variations and modification that above embodiment does.

Claims (10)

1. a two-sided automatic banding device production line, is characterized in that: comprise

One first edge banding apparatus, this first edge banding apparatus comprises the first edge sealing frame, is positioned at the feeding port of the first envelope frame front end, in micro-adjusting mechanism and first edge-sealing mechanism at feeding port rear, wherein micro-adjusting mechanism has the minitrim wheel that the oblique transmission of sheet material is fitted in this first edge-sealing mechanism, and this minitrim wheel is tilted by the inboard of export-oriented the first edge-sealing mechanism;

One second edge banding apparatus, this second edge banding apparatus comprises the second edge sealing frame, is positioned at the feed opening of the second edge-sealing mechanism, micro-adjusting mechanism and rear end on the second edge sealing frame, wherein micro-adjusting mechanism has the minitrim wheel that the oblique transmission of sheet material is fitted in this second edge-sealing mechanism, and this minitrim wheel is tilted by the inboard of export-oriented the second edge-sealing mechanism;

one automatic charging device, be positioned at the front side of the first edge banding apparatus, comprise feed frame, be installed on the material loading lifting platform of feed frame, material loading is close to conveying mechanism, and can be touched by sheet material and control the material loading touch switch that material loading lifting platform and material loading are close to the conveying mechanism self-starting, this material loading lifting platform is positioned at the feeding port front side, this material loading touch switch is positioned at above the material loading lifting platform, this material loading is close to the first charging belt group and the second charging belt group that conveying mechanism comprises that the sheet material that can be movable relatively to clamp the material loading lifting platform transmits, this the first charging belt group and the second charging belt group are positioned at respectively the feeding port left and right sides,

one automatic blanking device, be positioned at the rear side of the second edge banding apparatus, comprise the blanking frame, the blanking that is installed on the blanking frame is close to conveying mechanism, the blanking lifting platform, positioned in alignment mechanism, transmitted sheet material touching and controlled the blanking touch switch of positioned in alignment mechanism self-starting, and transmitted sheet material to block and controlled the blanking lifting platform and automatically descend and order about blanking and be close to the automatically reset optoelectronic switch of conveying mechanism and positioned in alignment mechanism, this blanking is close to conveying mechanism and comprises and can be movable relatively to be pressed in plate surface to its first blanking belt group of transmitting and the second blanking belt group, this the first blanking belt group and the second blanking belt group are positioned at respectively the left and right sides of feed opening, this blanking touch switch is positioned at the feed opening position, this optoelectronic switch is towards the blanking lifting platform, this positioned in alignment mechanism comprises that the both sides that can be movable relatively to clamp sheet material drive sheet material the 3rd blanking belt group and the 4th blanking belt group of mobile and backtracking backward, the 3rd blanking belt group and the 4th blanking belt group are positioned at respectively the blanking lifting platform left and right sides,

One conveyer, comprise linear transmission mechanism and oblique transmission mechanism, this linear transmission mechanism includes the linear transmission frame and is installed on a plurality of horizontal cylinders on the linear transmission frame, the top of this linear transmission frame has at least two first crossbeams that are set in parallel on same level, the direction that each horizontal cylinder is arranged is vertical with first crossbeam, and each horizontal cylinder drives the sheet linear transmission by motor-driven; This oblique transmission mechanism comprises oblique transmission frame and is installed on a plurality of oblique cylinder on oblique transmission frame, the top of this oblique transmission frame has at least two second cross beams that are set in parallel on same level, this second cross beam is connected in the rear of aforementioned first crossbeam, direction and second cross beam that each oblique cylinder is arranged acutangulate, and each oblique cylinder is driven the oblique transmission of sheet material by motor-driven.

2. two-sided automatic banding device production line according to claim 1, it is characterized in that: described the first charging belt group is fixed in feed frame and the corresponding left side that is positioned at feeding port, this the second charging belt group can be movably arranged in feed frame and the corresponding right side that is positioned at feeding port relatively, and the strap surface of this first charging belt group and the second charging belt group all arranges to clamp the left and right sides edge of sheet material to be processed in opposite directions.

3. two-sided automatic banding device production line according to claim 2, it is characterized in that: the position of the corresponding feeding port of described feed frame laterally is provided with a directive slide track, described directive slide track surface from left to right is provided with for the scale of measuring the second charging belt group moving displacement, and described directive slide track is provided with chute, described the second charging belt assembly has the drive motors that drives the second charging belt group rotation, and drive the passing motor that the second charging belt group integral body moves along directive slide track, pass motor for this, back side panel in feed frame also is provided with a holder, aforementioned directive slide track passes this holder, passing motor is installed on holder, be provided with the rolling wheels bottom the second charging belt group, these rolling wheels are affixed on runner movement by passing motor-driven.

4. two-sided automatic banding device production line according to claim 1, it is characterized in that: described the first blanking belt group is fixed in blanking frame and the corresponding right side that is positioned at feed opening, this the second blanking belt group can be movably arranged in blanking frame and the corresponding left side that is positioned at feed opening relatively, and the strap surface of this first blanking belt group and the second blanking belt group all arranges to push down the surface of completing edge sealing sheet material down and transmits.

5. two-sided automatic banding device production line according to claim 4, it is characterized in that: the corresponding aforementioned feed opening of described blanking frame laterally is provided with a guidance set, this guidance set comprises holder, directive slide track, slide and two connecting rods, the upper surface of this directive slide track is raised with slide rail, slide is installed on slide rail, and aforementioned the second blanking belt group is fixed on this slide, described fixed seating is in the end of directive slide track, the end that this two connecting rod connects is fixed in the first blanking belt group, the other end is connected on holder after passing the second blanking belt group, described slide slides to drive the second blanking belt group integrated moving along slide rail.

6. two-sided automatic banding device production line according to claim 5, it is characterized in that: described the 3rd belt group and the 4th press nips lay respectively at the rear side of aforementioned the first blanking belt group and the second blanking belt group, the 4th press nips is installed on aforementioned slide and by motor-driven together with the second blanking belt group and rotates, the 3rd blanking belt group normality is accommodated in the right plate of frame, when touch switch moves, the 3rd blanking belt group is protruding, simultaneously left side the 4th press nips comes closer, and both coordinates to clamp sheet material both sides.

7. two-sided automatic banding device production line according to claim 1, it is characterized in that: each minitrim wheel of described micro-adjusting mechanism all is assembled on a mount pad, and this mount pad is connected in the first edge sealing frame by a pull-up mechanism that can drive that minitrim wheel upwards packs up.

8. two-sided automatic banding device production line according to claim 7 is characterized in that: described minitrim wheel is divided into inside and outside two-layer, and wherein the quantity of internal layer minitrim wheel is more than outer minitrim wheel, and each outer minitrim wheel is affixed on internal layer minitrim wheel surface.

9. according to claim 1,7 or 8 described two-sided automatic banding device production lines, it is characterized in that: on the frame below described micro-adjusting mechanism, band to band transfer module is installed also, this band to band transfer module surface is provided with a plurality of gears for sheet material being carried out straight line and carrying, and its minitrim wheel with a plurality of oblique settings of micro-adjusting mechanism coordinates sheet material is carried out constantly being offset transmission.

10. two-sided automatic banding device production line according to claim 1, it is characterized in that: the second cross beam of described oblique transmission mechanism comprises left crossbeam and right crossbeam, described oblique cylinder comprises group leader's cylinder and two groups of short cylinders, the two ends of this long cylinder are overlapped on the medium position of left crossbeam and right crossbeam, wherein one group of short cylinder is positioned at the corner, front side of long cylinder and has an end to be overlapped in left crossbeam, the short cylinder of another group is positioned at the rear side corner of long cylinder and has an end to be overlapped in right crossbeam, all long cylinders that are overlapped in left crossbeam be connected cylinder and connect a power transmission shaft by the first belt, and power transmission shaft is by motor-driven, mutually connect by the second belt between the short cylinder of right crossbeam and be overlapped in, and be connected with the other long cylinder of side, each short cylinder that this long cylinder drives the corner synchronously rotates.

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