CN202669120U - Film sticking machine - Google Patents

Film sticking machine Download PDF

Info

Publication number
CN202669120U
CN202669120U CN 201220271188 CN201220271188U CN202669120U CN 202669120 U CN202669120 U CN 202669120U CN 201220271188 CN201220271188 CN 201220271188 CN 201220271188 U CN201220271188 U CN 201220271188U CN 202669120 U CN202669120 U CN 202669120U
Authority
CN
China
Prior art keywords
film
laminator
support
blower
workpiece
Prior art date
Application number
CN 201220271188
Other languages
Chinese (zh)
Inventor
张富强
Original Assignee
珠海格力电器股份有限公司
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by 珠海格力电器股份有限公司 filed Critical 珠海格力电器股份有限公司
Priority to CN 201220271188 priority Critical patent/CN202669120U/en
Application granted granted Critical
Publication of CN202669120U publication Critical patent/CN202669120U/en

Links

Abstract

The utility model provides a film sticking machine which comprises a workpiece positioning component (700), a discharging mechanism (100) and a film feeding mechanism (500), wherein the workpiece positioning component (700) is used for positioning a workpiece to be subjected to film sticking; the discharging mechanism (100) is used for providing films required by film sticking; and the film feeding mechanism (500) is arranged corresponding to the workpiece positioning component (700) and used for drawing one film at a first end of the workpiece positioning component (700) to a second end of the same. The film sticking machine is capable of achieving film sticking for the workpiece.

Description

Laminator

Technical field

The utility model relates to the technological equipment field, in particular to a kind of laminator.

Background technology

The existing production phase for the Filming Technology requirement of air-conditioning products such as wind deflector etc., substantially all is manually-operated.Because artificial pad pasting labour intensity is large, and product quality is controlled by human factor, and homogeneity of product is difficult to guarantee.And do not have complete equipment to carry out pad pasting in the prior art, there is not supporting whole production line simultaneously yet.

The utility model content

The utility model aims to provide a kind of laminator that can carry out to workpiece pad pasting.

To achieve these goals, the utility model provides a kind of laminator to comprise: the workpiece positioning component is used for the workpiece that pad pasting is treated in the location; The film that provides pad pasting to need is provided discharge mechanism; Lower film mechanism, setting corresponding to the workpiece positioning component is used for film by the first end membrane of workpiece positioning component the second end to the workpiece positioning component.

Further, laminator also comprises film positioning apparatus, is arranged on a side of the first end of workpiece positioning component, is used for film is positioned so that lower film mechanism carries out membrane.

Further, laminator also comprises the first film cutting machine structure, is arranged on the both sides of workpiece positioning component, is used for cutting off film.

Further, laminator also comprises the second film cutting machine structure, is arranged between film positioning apparatus and the discharge mechanism, is used for film cutting is slit into the film of different in width.

Further, the workpiece positioning component comprises: location-plate, location-plate are provided with the keeper accommodation section; Keeper, adjustable ground are arranged in the keeper accommodation section, and keeper positions the workpiece that is positioned on the location-plate.

Further, the keeper accommodation section comprises a plurality of locating holes, has spacing between a plurality of locating holes; Keeper comprises a plurality of alignment pins, and alignment pin position is arranged in the locating hole adjustablely.

Further, lower film mechanism comprises: swing span, and first end forms stiff end, and the second end forms swinging end; Driving mechanism has output shaft, and the first end of swing span is connected to output shaft; The film clamping part is arranged on the second end of swing span, and the film clamping part has clip position and released position.

Further, swing span comprises two swing arms that be arranged in parallel, and the film clamping part is connected between the swinging end of two swing arms.

Further, driving mechanism comprises: drive source, drive source are motor or the first rotary cylinder; Rotating shaft supporting seat is oppositely arranged with drive source; Swing rotating shaft, its first end is connected with the output of drive source, and the second end is supported on the rotating shaft supporting seat, and the stiff end of two swing arms is fixedly attached to and swings in the rotating shaft.

Further, the film clamping part comprises: strap is connected between two swing arms; Ambulatory splint arranges movably along the swing arm direction, and ambulatory splint is arranged on strap towards a side of swing arm first end; Two ambulatory splint drive divisions are fixedly connected on respectively in two swing arms, and are connected with the ambulatory splint driving.

Further, the first film cutting machine structure comprises: what be oppositely arranged first cuts membrane element and second and cuts membrane element, first cuts the first end that membrane element is arranged on the workpiece positioning component, second cuts the second end that membrane element is arranged on the workpiece positioning component, wherein, first cuts membrane element has the first fusing section, and second cuts membrane element has the second fusing section.

Further, the first fusing section and the second fusing section are heating wire.

Further, first cut membrane element and also comprise: the first driving mechanism; The first rotating shaft, its first end is connected with the output of the first driving mechanism; Two the first oscillating bar assemblies, its first end forms the first swinging end, the second end forms the first stiff end, and the first fusing section is connected between the first swinging end of two the first oscillating bar assemblies, and the first stiff end of two the first oscillating bar assemblies is fixedly attached in the first rotating shaft.

Further, the first oscillating bar assembly comprises: the first fork, first end are connected in the first rotating shaft; The second fork, first end all are connected to the second end of the first fork, and the second end of the second fork offers the first installation portion for the first fusing section of connection.

Further, second cut membrane element and comprise: the second driving mechanism; The second rotating shaft, its first end is connected with the output of the second driving mechanism; Two the second oscillating bar assemblies, its first end forms the second swinging end, the second end forms the second stiff end, and the second fusing section is connected between the second swinging end of two the second oscillating bar assemblies, and the second stiff end of two the second oscillating bar assemblies is fixedly attached in the second rotating shaft.

Further, the second oscillating bar assembly comprises: the 3rd fork, first end are connected in the second rotating shaft; The 4th fork, first end all are connected to the second end of the 3rd fork, and the second end of the 4th fork offers the second installation portion for the second fusing section of connection.

Further, film positioning apparatus comprises: the first blower mechanism has the first air outlet that arranges towards workpiece positioning component direction; The second blower mechanism is arranged on the air side of the first air outlet of the first blower mechanism, and the second blower mechanism has upwards the second air outlet of air-out.

Further, film positioning apparatus also comprises: be used for the support member of film support, support member is between the first blower mechanism and the second blower mechanism, and the upper surface of support member is higher than the second air outlet.

Further, support member is support bar, and film positioning apparatus also comprises: two fixed boards that are oppositely arranged, support bar is connected between two fixed boards.

Further, have installing hole on the fixed board, the first blower mechanism two ends are installed in respectively in the installing hole, and film positioning apparatus also comprises the blower mechanism motor that drives the first blower mechanism, and the blower mechanism motor is fixedly mounted on the fixed board.

Further, the second film cutting machine structure comprises: cut the film holder, cut the film holder and have the installation site; Cutting part, the position is arranged in the installation site adjustablely.

Further, cutting part comprises: mount pad has blade installation slot; Blade is removably mounted in the blade installation slot.

Further, cut the film holder and be provided with T-shaped chute, be provided with the first securing member of cutting on the film holder for cutting part is fixed in the T-shaped chute, the first securing member is mounted slidably along T-shaped chute.

Further, discharge mechanism comprises: turning cylinder; Two support portions of positioned opposite, be supported on respectively the two ends of turning cylinder, each support portion comprises at least two rolling support spares, the pivot axis of rolling support spare is all parallel with the pivot axis of turning cylinder, two rolling support spares at least two rolling support spares support recess for forming between parallel that arrange and two rolling support spares, and the two ends of turning cylinder are supported on respectively on the support recess of two support portions.

Use the technical solution of the utility model, laminator comprises: the workpiece positioning component is used for the workpiece that pad pasting is treated in the location; Lower film mechanism, setting corresponding to the workpiece positioning component is used for film by the first end membrane of workpiece positioning component the second end to the workpiece positioning component; The first film cutting machine structure is arranged on the both sides of workpiece positioning component, is used for cutting off film.In cutting membrane process, the workpiece that to treat first pad pasting is put and is located on the workpiece positioning component, after film taken out from discharge mechanism, lower film mechanism clamps the initiating terminal of film, lower film mechanism again with the film membrane to covering behind the workpiece of pad pasting fully, the film tiling is adjacent at surface of the work, film is cut off the size that the size that makes film meets workpiece pad pasting needs.Just can finish pad pasting to workpiece by the parts of laminator, realize automation, and replaced the work of fully manually carrying out pad pasting, reduce staff's workload.

Description of drawings

The Figure of description that consists of the application's a part is used to provide further understanding of the present utility model, and illustrative examples of the present utility model and explanation thereof are used for explaining the utility model, do not consist of improper restriction of the present utility model.In the accompanying drawings:

Fig. 1 shows the structural representation of the embodiment of laminator of the present utility model;

Fig. 2 shows the part-structure schematic diagram of the laminator of Fig. 1;

Fig. 3 shows the structural representation of discharge mechanism of the laminator of Fig. 1;

Fig. 4 shows the partial structurtes schematic diagram of the discharge mechanism of Fig. 3;

Fig. 5 shows the structural representation of the second film cutting machine structure of the laminator of Fig. 1;

Fig. 6 shows the schematic side view of the second film cutting machine structure of Fig. 5;

Fig. 7 shows the schematic perspective view of base of cutting part of the second film cutting machine structure of Fig. 5;

Fig. 8 shows the structural scheme of mechanism of film positioning apparatus of the laminator of Fig. 1;

Fig. 9 shows the internal structure schematic diagram of the film positioning apparatus of Fig. 8;

Figure 10 shows the structural representation of lower film mechanism of the laminator of Fig. 1;

Figure 11 shows the structural representation of the first film cutting machine structure of the laminator of Fig. 1;

Figure 12 shows the first schematic perspective view of cutting membrane element of the first film cutting machine structure of Figure 11;

Figure 13 shows the second schematic perspective view of cutting membrane element of the first film cutting machine structure of Figure 11;

Figure 14 shows the structural representation of workpiece positioning component of the laminator of Fig. 1;

Figure 15 shows location-plate and the keeper scheme of installation of the workpiece positioning component of Figure 14;

Figure 16 shows the schematic flow sheet of the embodiment of laminator of the present utility model.

The specific embodiment

Need to prove, in the situation that do not conflict, embodiment and the feature among the embodiment among the application can make up mutually.Describe below with reference to the accompanying drawings and in conjunction with the embodiments the utility model in detail.

As depicted in figs. 1 and 2, laminator comprises workpiece positioning component 700, discharge mechanism 100 and lower film mechanism 500, and workpiece positioning component 700 is used for the workpiece that pad pasting is treated in the location; The film that provides pad pasting to need is provided discharge mechanism 100; Lower film mechanism 500 with the 700 corresponding settings of workpiece positioning component, is used for film by the first end membrane of workpiece positioning component 700 the second end to workpiece positioning component 700.

In cutting membrane process, referring to schematic flow sheet shown in Figure 16, the workpiece that to treat first pad pasting is put and is located on the workpiece positioning component 700, after film taken out from discharge mechanism 100, lower film mechanism 500 clamps the initiating terminal of film, lower film mechanism 500 again with the film membrane to covering behind the workpiece of pad pasting fully, the film tiling is adjacent at surface of the work, film is cut off the size that the size that makes film meets workpiece pad pasting needs.Just can finish pad pasting to workpiece by the parts of laminator, realize automation, and replaced the work of fully manually carrying out pad pasting, reduce staff's workload.

Preferably, laminator also comprises film positioning apparatus 400, is arranged on a side of the first end of workpiece positioning component 700, is used for film is positioned so that lower film mechanism 500 carries out membrane.When a side of the first end of workpiece positioning component 700 began to carry out membrane, film positioning apparatus 400 provided and more has been conducive to the film position that film is pressed from both sides in lower film mechanism 500, has increased production power in lower film mechanism 500.Laminator also comprises the first film cutting machine structure 600, is arranged on the both sides of workpiece positioning component 700, is used for cutting off film.Laminator also comprises the second film cutting machine structure 200, is arranged between film positioning apparatus 400 and the discharge mechanism 100, is used for film cutting is slit into the film of different in width.

According to discharge mechanism 100 parts of the laminator of Fig. 3 and the present embodiment shown in Figure 4, discharge mechanism 100 comprises two support portions 120 of turning cylinder 110 and positioned opposite.Two support portions 120 are supported on respectively the two ends of turning cylinder 110, each support portion 120 comprises parallel two rolling support spares 121 that arrange, the pivot axis of two rolling support spares 121 is all parallel with the pivot axis of turning cylinder 110, form between two rolling support spares 121 and support recess, the two ends of turning cylinder 110 are supported on respectively on the support recess of two support portions 120.

Verify by experiment and analyze discovery, the main cause that discharge mechanism 100 is prone to the problem of getting stuck is: turning cylinder 110 middle part load-bearing cause between the two ends of turning cylinder 110 and two support portions friction to cause more greatly rotating smooth and then the problem that easily gets stuck occurs.The support portion 120 of the discharge mechanism 100 of the present embodiment comprises parallel two rolling support spares 121 that arrange, two rolling support spares 121 provide a supporting role for turning cylinder 110, when turning cylinder 110 rotates, two rolling support spares 121 provide guide effect, reduce turning cylinder 110 frictional force, and then effectively solved the problem of getting stuck.

The discharge mechanism 100 of the present embodiment can be applied in the laminator, certainly is not limited to the said equipment, as long as material is that the web-like material can carry out blowing by the discharge mechanism 100 of the present embodiment.

Among the unshowned in the drawings embodiment, the quantity of rolling support spare can be greater than two, such as, the quantity of rolling support spare is three or four.When rolling support spare was three, the projection of the pivot axis of three rolling support spares in same vertical plane was defined as a triangle, and turning cylinder 110 is limited in this triangle.When rolling support spare was three, the projection of the pivot axis of three rolling support spares in same vertical plane was defined as a rectangle, and turning cylinder 110 is limited in this rectangle.

In addition, that the discharge mechanism 100 of the present embodiment also has advantages of is for convenience detach, be convenient to change material, particularly, works as material, after for example plastic foil is finished, in the time of need reloading, only needs turning cylinder 110 is upwards lifted, and wears material and get final product, light and easy to operate.Preferably, support portion 120 also comprises supporting vertical plate 122, and rolling support spare 121 is arranged on the supporting vertical plate 122 rotationally.The discharge mechanism 100 of the present embodiment is fit structure, and this discharge mechanism 100 can be fixed on the frame 300 of laminator by this supporting vertical plate 122.

Preferably, rolling support spare 121 is bearing, and the inner ring of bearing is connected on the supporting vertical plate 122 by connecting axle 121a.Bearing is general part, uses bearings so that the discharge mechanism 100 of the present embodiment is simple in structure.For fear of the interference of 122 pairs of turning cylinders 110 of supporting vertical plate, what supporting vertical plate 122 had an end of dodging turning cylinder 110 dodges breach 122a.

Turning cylinder 110 comprises body and the shaft end that is positioned at the body two ends, and shaft end comprises the first shell of column and the second shell of column that is positioned at the first shell of column outside, and the diameter of body is greater than the diameter of the first shell of column, and the diameter of the first shell of column is greater than the diameter of the second shell of column.Body is used for wearing material, form the First terrace between the first shell of column and the second shell of column, the First terrace is used for preventing the axial float of turning cylinder 110, form the second step face between body and the first shell of column, the second step face contacts, produces friction between the inner face of material and rolling support spare 121, and then it is not smooth that turning cylinder 110 is rotated.

According to second film cutting machine structure 200 parts of Fig. 5 to laminator shown in Figure 7, the second film cutting machine structure 200 comprises cuts film holder 210 and cutting part, wherein, cut on the film holder 210 and have the installation site, the cutting part position is arranged in the installation site adjustablely, the second film cutting machine structure 200 in the present embodiment is arranged on the cutting part position installation site of cutting on the film holder 210 adjustablely, so that cutting part can carry out the adjustment of position at installed position, to realize cutting the adjusting of film size, the second film cutting machine structure 200 of the present embodiment, to cutting the easy to adjust of film size, fast, improved production efficiency.

Cutting part comprises mount pad 220 and blade, wherein, comprise installing plate and protrude the blade installing rack of formation along installing plate one side, offer on the installing plate mount pad 220 is connected to the connecting hole 221 of cutting on the film holder 210, be provided with the cannelure that forms blade installation slot 222 on the blade installing rack and along the second screwed hole 223 of horizontally set, blade is removably mounted in the blade installation slot 222 on the mount pad 220, and is undertaken fastening by the second securing member blade that are arranged in the second screwed hole 223.

Cut and offer T-shaped chute 211 on the film holder 210, this T-shaped chute 211 forms the installation site of cutting film holder 210, has been mounted slidably the first securing member in T-shaped chute 211, and the first securing member is cut film holder 210 for cutting part is fixed on.Preferably, the first securing member is screw bolt and nut, wherein, the bolt head of bolt is spacing in T-shaped chute 211 with bolt, prevent that bolt breaks away from T-shaped chute 211, the threaded portion that has connecting hole 221 bolts on the mount pad 220 is stretched out T-shaped chute 211 and is located in the connecting hole 221, and mount pad 220 is connected on the bolt, nut sleeve is located on the bolt, mount pad 220 is fixed on cuts on the film holder 210.In the present embodiment, by the slip of bolt in T-shaped chute 211 to realize that bolt is in the adjusting of T-shaped chute 211 interior positions, and then realize being connected to mount pad 220 on the bolt in the adjusting of cutting installation site on the film holder 210, thereby that regulates the second film cutting machine structure 200 cuts the film size, simultaneously, for adapting to different Production requirements, T-shaped chute 211 can be a plurality of for what be arranged in parallel.

Cut the first screwed hole that offers a plurality of formation installation site on the film holder 210, a plurality of the first screw hole arrangement are on the straight line that extends along the length direction of cutting film holder 210, and preferably, a plurality of the first screwed holes are arranged on this straight line uniformly.Mount pad 220 was connected to and cut on the film holder 210 by wearing the connecting hole 221 that is opened on the mount pad 220 and being screwed onto screw in the first screwed hole.The second film cutting machine structure 200 of the present embodiment is regulated the link position that mount pad 220 is being cut on the film holder 210 by the position of adjustment screw in the first screwed hole, to realize cutting the adjusting of film size.

The second film cutting machine structure 200 of laminator, when the film size is cut in adjustment, only need the simple cutting part of adjusting in the position of cutting on the film holder 210, need not again change cutter, improved the efficient of the second film cutting machine structure 200, and the cutting part of the second film cutting machine structure 200 of laminator is separate, only need change the part of damage when damaging, and does not affect the use of all the other cutting parts.

According to film positioning apparatus 400 parts of Fig. 8 and laminator shown in Figure 9, film positioning apparatus 400 comprises that the first blower mechanism 420 and the second blower mechanism 430, the first blower mechanisms 420 have the first air outlet that arranges towards workpiece positioning component 700 directions; The second blower mechanism 430 is arranged on a side of the first blower mechanism 420, and the second blower mechanism 430 is arranged on the air side of the first air outlet of the first blower mechanism 420, and the second blower mechanism 430 has upwards the second air outlet 431 of air-out.

Film is positioned between the first blower mechanism 420 and the second blower mechanism 430, the wind that the first blower mechanism 420 blows out extends into film the second blowing mouth top of the second blower mechanism 430 towards the second blower mechanism 430, the second blower mechanism 430 blows out wind upwards, film is just extended obliquely, realized the location to film, make filming-drawing mechanism directly clamping film and membrane in the film sticking equipment, make film finish the obliquely location of side's extension by the first blower mechanism 420 and the second blower mechanism 430, convenient and swift, high efficiency.

Preferably, film positioning apparatus 400 also comprises: be used for the support member of film support, support member is between the first blower mechanism 420 and the second blower mechanism 430, and the upper surface of support member is higher than the second air outlet 431.Support member is support bar 413 in the present embodiment, and film positioning apparatus 400 also comprises two fixed boards 411 that are oppositely arranged, and support bar 413 is connected between two fixed boards 411.Support member is used for support film, and the first blower mechanism 420 continues blowing spreads film level on support member out, keeps smooth.Wherein, the present embodiment has adopted most preferred support bar 413, can certainly adopt according to concrete needs the support members such as gripper shoe.

Preferably, have installing hole on the fixed board 411, the first blower mechanism 420 two ends are installed in the installing hole respectively.Preferably, film positioning apparatus 400 also comprises the blower mechanism motor 440 that drives the first blower mechanism 420, and blower mechanism motor 440 is fixedly mounted on the side of fixed board 411 away from the first blower mechanism 420.

Preferably, first blower mechanism 420 of the present embodiment comprises wind deflector 421 and cross flow fan 423, cross flow fan 423 is located in the installing hole of fixed board 411, and wind deflector 421 is connected between two fixed boards 411 and forms the first air outlet, and wind deflector 421 is located on the cross flow fan 423.The second blower mechanism 430 comprises having inner chamber blowing box and blower, is provided with the second air outlet that is communicated with inner chamber on the blowing box, and blower is communicated with inner chamber.

Part according to the lower film mechanism 500 of laminator shown in Figure 10, lower film mechanism 500 comprises swing span 510, driving mechanism and film clamping part, wherein, the first end of swing span 510 forms stiff end, the second end of swing span 510 forms swinging end, and driving mechanism has output, is connected with the first end of swing span 510 on this output, the film clamping part is arranged on the second end of swing span 510, and this film clamping part has clip position and released position.The lower film mechanism 500 of the present embodiment, driving mechanism drives swing span 510, and then drive film clamping part pivots, make the membrane mode of film clamping part be transformed into oscillating motion by parallel, adopt the swing mode to carry out membrane, the angle that can make the membrane angle is greater than 90 degree, goes out membrane resistance when having reduced membrane, improved the resistance to overturning of product.

Swing span 510 comprises two swing arms that be arranged in parallel, the film clamping part is connected between the second end of two swing arms, the first end of swing arm links to each other with driving mechanism, driving mechanism comprises drive source 521, rotating shaft supporting seat 540 and swings rotating shaft 522, wherein, drive source 521 is oppositely arranged with rotating shaft supporting seat 540, the first end that swings rotating shaft 522 links to each other with the output of drive source 521, the second end that swings rotating shaft 522 is supported on the rotating shaft supporting seat 540, and swings the stiff end that is fixedly connected with swing arm in the rotating shaft 522.In a kind of preferred embodiment, drive source 521 can drive cylinder for motor or first.

But the setting of film clamping part is to make the end of lower film mechanism 500 clamping films of the present embodiment in order to carry out lower film, this clamping part comprises strap 531, ambulatory splint 532 and ambulatory splint drive division 533, wherein, strap 531 is arranged between the swinging end of two swing arms, ambulatory splint 532 is arranged on strap 531 towards a side of swing arm stiff end, and ambulatory splint 532 can move along the swing arm direction, in a kind of preferred embodiment, ambulatory splint drive division 533 is two, be separately positioned in two swing arms, and ambulatory splint drive division 533 drives with ambulatory splint 532 and links to each other, preferably, ambulatory splint drive division 533 is the second cylinder, and the piston rod of the second cylinder is connected to the end of ambulatory splint 532.

The course of work of lower film mechanism 500 is as follows:

Swing span 510 is positioned at initial position, and warming-up exercise, this moment, the film clamping part was in the released position; Start drive source 521, drive source 521 drives swing rotating shaft 522 and rotates, swinging rotating shaft 522 is with the swing span 510 that is automatically connected on it to swing, when swing to can the clamping film angle the time, one end of film is located between the strap 531 and ambulatory splint 532 of film clamping part, drive source 521 stop motions, ambulatory splint drive division 533 drives ambulatory splint 532 and moves to strap 531, until ambulatory splint 532 fits tightly with strap 531, clamping films, the film clamping part is finished by the conversion of released position to clamped position, drive source 521 starts again, and swing span 510 is swung to initial position, and the film clamping part drives film and together swings, tubular film is launched into sheet film, finishes the lower membrane process of lower film mechanism 500.Swing span 510 is back to cuts the film action behind the initial position, cuts after the film action finishes, and the film clamping part moves to the released position by clip position, and swing span is prepared again to move with the film clamping part.

Part according to the first film cutting machine structure 600 of the laminator shown in Figure 11 to Figure 13, the film cutting machine structure comprises first cutting membrane element 610 and second and cut membrane element 620 of being oppositely arranged, first cuts the first end that membrane element 610 is arranged on workpiece positioning component 700, second cuts the second end that membrane element 620 is arranged on workpiece positioning component 700, wherein, first cut and have the first fusing section 613, the second on the membrane element 610 and cut and have second on the membrane element 620 and cut membrane element 620.The first film cutting machine structure 600 of the present embodiment adopts the mode of fusing that film is cut, and first cuts membrane element 610 and second cuts membrane element 620 and can cut simultaneously film, controllability is strong, disposable can the cut-out the polylith film, to reach the purpose of cutting fast film, the phenomenon that the blade that can occur when having avoided using blade to cut film can't cut off film.

Preferably, the first fusing section 613 and the second fusing section 623 are heating wire, and the first fusing section 613 and the second fusing section 623 all are connected electrically in the voltage output end place of electric cabinet, when the first fusing section 613 and the second fusing section 623 close film, electric cabinet provides voltage for the first fusing section 613 and the second fusing section 623, and the heating heating wire is when heating wire contacts with film, the high temperature of utilization itself fuses to film, reaches the purpose of cutting film.

First cuts membrane element 610 comprises the first driving mechanism 611, the first rotating shaft 612 and two the first oscillating bar assemblies.Wherein, the first driving mechanism 611 is motor or rotary cylinder, the first end of the first rotating shaft 612 is connected to the output of the first driving mechanism 611, the first end of two the first oscillating bar assemblies forms the first swinging end, be connected with the first fusing section 613 between two the first swinging ends, the second end of the first oscillating bar assembly forms stiff end, be connected to the two ends of the first rotating shaft 612, such setting can make the first oscillating bar assembly rotate synchronously with the first rotating shaft 612, and then the first fusing section 613 that drives together rotates.

The first oscillating bar assembly in the present embodiment comprises the first fork 6141 and the second fork 6142, the first end of the first fork 6141 is connected to the end of the first rotating shaft 612, the second end of the first fork 6141 is connected with the first end of the second fork 6142, and the second end of the second fork 6142 is provided with the first installation portion of the first fusing section 613 of connection, the first installation portion can be installing hole or mounting groove, is connected on the second fork 6142 in order to see the first fusing section 613.For reducing the friction between the first fork 6141 and the first rotating shaft 612, the material of the first fork 6141 preferably adopts metal material, for avoiding the first fusing section 613 when switching on, the first driving mechanism 611 to be exerted an influence, guarantee that first cuts the reliability service of membrane element 610, the second fork 6142 should adopt the insulation material, preferably, the material of the second fork 6142 adopts bakelite.First this set of cutting membrane element 610 can make the first fusing section 613 rotate around the first rotating shaft 612 in the present embodiment, approaches or away from the purpose of film to reach.

Second cuts membrane element 620 comprises the second driving mechanism 621, the second rotating shaft 622 and two the second oscillating bar assemblies.Wherein, the second driving mechanism 621 is motor or rotary cylinder, the first end of the second rotating shaft 622 is connected to the output of the second driving mechanism 621, the first end of two the second oscillating bar assemblies forms the second swinging end, the second swinging end is connected with the second fusing section 623, the second end of the second oscillating bar assembly forms stiff end, be connected to the two ends of the second rotating shaft 622, second this set of cutting membrane element 620 can make the second oscillating bar assembly rotate synchronously with the second rotating shaft 622, and then the second fusing section 623 that drives together rotates.

The 3rd oscillating bar assembly comprises the 3rd fork 6241 and the 4th fork 6242, the first end of the 3rd fork 6241 is connected to the end of the second rotating shaft 622, the second end of the 3rd fork 6241 is connected with the first end of the 4th fork 6242, and the second end of the 4th fork 6242 is provided with the second installation portion of the second fusing section 623 of connection, the second installation portion can be installing hole or mounting groove, is connected on the 4th fork 6242 in order to see the first fusing section 613.For reducing the friction between the 3rd fork 6241 and the second rotating shaft 622, the material of the 3rd fork 6241 preferably adopts metal material, for avoiding the first fusing section 613 when switching on, the first driving mechanism 611 to be exerted an influence, guarantee that first cuts the reliability service of membrane element 610, the 4th fork 6242 should adopt the insulation material, preferably, the material of the 4th fork 6242 adopts bakelite.Second cuts membrane element 620 also includes a plurality of supporting seat 6243, the second rotating shafts 622 and is located in the supporting seat 6243, to fix the second rotating shaft 622.Second this set of cutting membrane element 620 can make the second fusing section 623 rotate around the second rotating shaft 622, approaches or away from the purpose of film to reach.

According to the part of the workpiece positioning component 700 of the laminator shown in Figure 14 and Figure 15, workpiece positioning component 700 comprises location-plate 71 and keeper, and location-plate 71 is provided with keeper accommodation section 72; Keeper is arranged in the keeper accommodation section 72, and keeper can be with workpiece on location-plate 71.Keeper accommodation section 72 is for being separately positioned on location-plate 71 near the two registration holes 721 at two ends, and keeper is a plurality of alignment pins 731, has a determining deviation between a plurality of locating holes 721, can be spaced set, 2 of the quantity of alignment pin 731.

According to a certain workpiece size size, operating personnel can select 2 in a plurality of locating holes, in these 2 locating holes alignment pin are installed, and spacing and workpiece size between per 2 adjacent alignment pins are complementary.In addition, adjust other dimension workpieces such as need, only need to adjust the adjacent spacing of alignment pin and get final product.So this workpiece positioning component 700 is behind a certain specific dimensions workpiece in location, operating personnel only need adjust the distance between the alignment pin, just can be used for the workpiece of other sizes; In addition, this workpiece positioning component 700 also can be gone up and locate simultaneously 2 workpiece that above size is different, and workpiece positioning component 700 can be located 3 workpiece simultaneously; Workpiece positioning component 700 can be located 2 workpiece simultaneously.Workpiece positioning component 700 can position the workpiece of different size size, has more standby versatility, has increased the operating efficiency of workpiece location.

Preferably, also be provided with on the location-plate 71 be used to the section that dodges 77 that dodges the workpiece projection, because the part workpiece has the part projection, for dodging these projections, dodge section 77 at workpiece location-plate 71, dodge section 77 and be generally the through hole that arranges according to the size of workpiece projection, dodge section 77 and block the projection of workpiece, indirectly play the effect of workpiece location, make so on the one hand workpiece unlikely generation projection on location-plate 71, on the one hand workpiece is more reliably located in addition.Workpiece positioning component 700 also comprises location holder 76, and location holder 76 is used for stationary positioned plate 71, is convenient to this workpiece positioning component 700 and is installed on the frame 300.

In this part of the workpiece positioning component 700 of laminator, in a kind of unshowned embodiment, workpiece positioning component 700 comprises location-plate 71 and keeper, and location-plate 71 is provided with keeper accommodation section 72; Keeper is arranged in the keeper accommodation section 72, keeper can be with workpiece on location-plate 71, keeper accommodation section 72 comprises the locating slot at the two ends that are separately positioned on location-plate 71 bearing of trends, keeper comprises a plurality of alignment pins 731, each locating slot is provided with more than one alignment pin 731, and the position of alignment pin 731 in locating slot is adjustable.According to a certain workpiece size size, operating personnel only need adjust to the spacing between the alignment pin 731 in the locating slot with the workpiece size coupling and get final product.The effect that workpiece positioning component 700 in the present embodiment reaches is identical with the effect that the embodiment shown in Figure 14 and Figure 15 reaches.

The utility model provides a kind of method for adhering film, uses the laminator of above-described embodiment that workpiece is carried out pad pasting, specifically may further comprise the steps:

Step 1: the workpiece that will treat pad pasting is fixed on the workpiece positioning component 700.

Step 2: film is taken out from discharge mechanism 100.

Step 3: the film cutting that takes out is slit into the film that needs width by the second film cutting machine structure 200.

Step 4: lower film mechanism 500 covers on the workpiece with the film membrane that takes out and with film.

Step 5: the size according to workpiece is cut off film.

Wherein, step 5 is specially by the first film cutting machine structure 600 and cuts off film.

The above is preferred embodiment of the present utility model only, is not limited to the utility model, and for a person skilled in the art, the utility model can have various modifications and variations.All within spirit of the present utility model and principle, any modification of doing, be equal to replacement, improvement etc., all should be included within the protection domain of the present utility model.

Claims (24)

1. a laminator is characterized in that, comprising:
Workpiece positioning component (700) is used for the workpiece that pad pasting is treated in the location;
The film that provides pad pasting to need is provided discharge mechanism (100);
Lower film mechanism (500) with the corresponding setting of described workpiece positioning component (700), is used for film by the first end membrane of described workpiece positioning component (700) the second end to described workpiece positioning component (700).
2. laminator according to claim 1, it is characterized in that, also comprise film positioning apparatus (400), be arranged on a side of the first end of described workpiece positioning component (700), be used for film is positioned so that described lower film mechanism (500) carries out membrane.
3. laminator according to claim 2 is characterized in that, also comprises the first film cutting machine structure (600), is arranged on the both sides of described workpiece positioning component (700), is used for cutting off film.
4. laminator according to claim 2 is characterized in that, also comprises the second film cutting machine structure (200), is arranged between described film positioning apparatus (400) and the described discharge mechanism (100), is used for film cutting is slit into the film of different in width.
5. laminator according to claim 1 is characterized in that, described workpiece positioning component (700) comprising:
Location-plate (71), described location-plate (71) is provided with keeper accommodation section (72);
Keeper, adjustable ground are arranged in the described keeper accommodation section (72), and keeper positions the workpiece that is positioned on the described location-plate (71).
6. laminator according to claim 5 is characterized in that, keeper accommodation section (72) comprise a plurality of locating holes (721), has spacing between described a plurality of locating holes (721); Described keeper comprises a plurality of alignment pins (731), and described alignment pin (731) position is arranged in the described locating hole (721) adjustablely.
7. laminator according to claim 1 is characterized in that, described lower film mechanism (500) comprising:
Swing span (510), first end forms stiff end, and the second end forms swinging end;
Driving mechanism has output shaft, and the first end of described swing span (510) is connected to described output shaft;
The film clamping part is arranged on the second end of described swing span (510), and described film clamping part has clip position and released position.
8. laminator according to claim 7 is characterized in that, described swing span (510) comprises two swing arms that be arranged in parallel, and described film clamping part is connected between the swinging end of described two swing arms.
9. laminator according to claim 8 is characterized in that, described driving mechanism comprises:
Drive source (521), described drive source (521) are motor or the first rotary cylinder;
Rotating shaft supporting seat (540) is oppositely arranged with described drive source (521);
Swing rotating shaft (522), its first end is connected with the output of described drive source (521), and the second end is supported on the described rotating shaft supporting seat (540), and the stiff end of described two swing arms is fixedly attached in the described swing rotating shaft (522).
10. laminator according to claim 8 is characterized in that, described film clamping part comprises:
Strap (531) is connected between two described swing arms;
Ambulatory splint (532) arranges movably along described swing arm direction, and described ambulatory splint (532) is arranged on described strap (531) towards a side of described swing arm first end;
Two ambulatory splint drive divisions (533) are fixedly connected on respectively in described two swing arms, and are connected with described ambulatory splint (532) driving.
11. laminator according to claim 3, it is characterized in that, described the first film cutting machine structure (600) comprising: what be oppositely arranged first cuts membrane element (610) and second and cuts membrane element (620), described first cuts the first end that membrane element (610) is arranged on described workpiece positioning component (700), described second cuts the second end that membrane element (620) is arranged on described workpiece positioning component (700), wherein, described first cuts membrane element (610) has the first fusing section (613), and described second cuts membrane element (620) has the second fusing section (623).
12. laminator according to claim 11 is characterized in that, described the first fusing section (613) and described the second fusing section (623) are heating wire.
13. according to claim 11 or 12 described laminators, it is characterized in that, described first cuts membrane element (610) also comprises:
The first driving mechanism (611);
The first rotating shaft (612), its first end is connected with the output of described the first driving mechanism (611);
Two the first oscillating bar assemblies, its first end forms the first swinging end, the second end forms the first stiff end, described the first fusing section (613) is connected between the first swinging end of two described the first oscillating bar assemblies, and the first stiff end of two described the first oscillating bar assemblies is fixedly attached in described the first rotating shaft (612).
14. laminator according to claim 13 is characterized in that, described the first oscillating bar assembly comprises:
The first fork (6141), first end are connected in described the first rotating shaft (612);
The second fork (6142), first end all are connected to the second end of described the first fork (6141), and the second end of described the second fork (6142) offers the first installation portion for the first fusing section (613) of connection.
15. according to claim 11 or 12 described laminators, it is characterized in that, described second cuts membrane element (620) comprising:
The second driving mechanism (621);
The second rotating shaft (622), its first end is connected with the output of described the second driving mechanism (621);
Two the second oscillating bar assemblies, its first end forms the second swinging end, the second end forms the second stiff end, described the second fusing section (623) is connected between the second swinging end of two described the second oscillating bar assemblies, and the second stiff end of two described the second oscillating bar assemblies is fixedly attached in described the second rotating shaft (622).
16. laminator according to claim 15 is characterized in that, described the second oscillating bar assembly comprises:
The 3rd fork (6241), first end are connected in described the second rotating shaft (622);
The 4th fork (6242), first end all are connected to the second end of described the 3rd fork (6241), and the second end of described the 4th fork (6242) offers the second installation portion for the second fusing section (623) of connection.
17. laminator according to claim 2 is characterized in that, described film positioning apparatus (400) comprising:
The first blower mechanism (420) has the first air outlet that arranges towards described workpiece positioning component (700) direction;
The second blower mechanism (430) is arranged on the air side of the first air outlet of the first blower mechanism (420), and described the second blower mechanism (430) has upwards second air outlet (431) of air-out.
18. laminator according to claim 17, it is characterized in that, described film positioning apparatus (400) also comprises: the support member that is used for film support, described support member is positioned between described the first blower mechanism (420) and the second blower mechanism (430), and the upper surface of described support member is higher than described the second air outlet (431).
19. laminator according to claim 18, it is characterized in that, described support member is support bar (413), described film positioning apparatus (400) also comprises: two fixed boards (411) that are oppositely arranged, described support bar (413) is connected between two described fixed boards (411).
20. laminator according to claim 19, it is characterized in that, described fixed board has installing hole on (411), described the first blower mechanism (420) two ends are installed in respectively in the described installing hole, described film positioning apparatus (400) also comprises the blower mechanism motor (440) that drives described the first blower mechanism (420), and described blower mechanism motor (440) is fixedly mounted on the described fixed board (411).
21. laminator according to claim 4 is characterized in that, described the second film cutting machine structure (200) comprising: cut film holder (210), the described film holder (210) of cutting has the installation site;
Cutting part, position are arranged in the described installation site adjustablely.
22. laminator according to claim 21 is characterized in that, described cutting part comprises:
Mount pad (220) has blade installation slot (222);
Blade is removably mounted in the described blade installation slot (222).
23. laminator according to claim 22, it is characterized in that, the described film holder (210) of cutting is provided with T-shaped chute (211), be provided with in the described T-shaped chute (211) for described cutting part being fixed to described the first securing member of cutting on the film holder (210), described the first securing member is mounted slidably along described T-shaped chute (211).
24. laminator according to claim 3 is characterized in that, described discharge mechanism (100) comprising: turning cylinder (110);
Two support portions (120) of positioned opposite, be supported on respectively the two ends of described turning cylinder (110), each described support portion (120) comprises at least two rolling support spares (121), the pivot axis of described rolling support spare (121) is all parallel with the pivot axis of described turning cylinder (110), two rolling support spares (121) in described at least two rolling support spares (121) support recess for forming between parallel that arrange and two rolling support spares (121), and the two ends of described turning cylinder (110) are supported on respectively on the support recess of described two support portions (120).
CN 201220271188 2012-06-08 2012-06-08 Film sticking machine CN202669120U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN 201220271188 CN202669120U (en) 2012-06-08 2012-06-08 Film sticking machine

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN 201220271188 CN202669120U (en) 2012-06-08 2012-06-08 Film sticking machine

Publications (1)

Publication Number Publication Date
CN202669120U true CN202669120U (en) 2013-01-16

Family

ID=47490050

Family Applications (1)

Application Number Title Priority Date Filing Date
CN 201220271188 CN202669120U (en) 2012-06-08 2012-06-08 Film sticking machine

Country Status (1)

Country Link
CN (1) CN202669120U (en)

Cited By (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN103465591A (en) * 2012-06-08 2013-12-25 珠海格力电器股份有限公司 Film adhering machine and film adhering method
CN104139887A (en) * 2013-05-10 2014-11-12 威光自动化科技股份有限公司 Plastic film towing method and apparatus
CN104295576A (en) * 2013-07-19 2015-01-21 珠海格力电器股份有限公司 Laminating part transmission mechanism
CN104290957A (en) * 2013-07-19 2015-01-21 珠海格力电器股份有限公司 Laminating part pasting unit
CN104647863A (en) * 2013-11-21 2015-05-27 珠海格力电器股份有限公司 Film pasting apparatus

Cited By (8)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN103465591A (en) * 2012-06-08 2013-12-25 珠海格力电器股份有限公司 Film adhering machine and film adhering method
CN103465591B (en) * 2012-06-08 2015-12-16 珠海格力电器股份有限公司 Laminator and method for adhering film
CN104139887A (en) * 2013-05-10 2014-11-12 威光自动化科技股份有限公司 Plastic film towing method and apparatus
CN104139887B (en) * 2013-05-10 2017-04-12 威光自动化科技股份有限公司 Plastic film towing method and apparatus
CN104295576A (en) * 2013-07-19 2015-01-21 珠海格力电器股份有限公司 Laminating part transmission mechanism
CN104290957A (en) * 2013-07-19 2015-01-21 珠海格力电器股份有限公司 Laminating part pasting unit
CN104295576B (en) * 2013-07-19 2016-12-28 珠海格力电器股份有限公司 Film-covered member drive mechanism
CN104647863A (en) * 2013-11-21 2015-05-27 珠海格力电器股份有限公司 Film pasting apparatus

Similar Documents

Publication Publication Date Title
CN202373915U (en) Wire-stripping machine
CN203289023U (en) Full-automatic coaxial wire stripping device
CN204205444U (en) The special apparatus for peeling off of a kind of cable
CN107097268B (en) A kind of efficient paper tube cutting machine of adjustable Cutting Length
CN203945632U (en) Scissoring device on PVC sheet material extrusion equipment
CN204564447U (en) A kind of release liners automatic double surface gluer
CN205021018U (en) Material cutting device
CN205218790U (en) Burnishing device of full -automatic hardware burnishing machine
CN206004583U (en) Case carries the adjustable solar-cell panel support of integral tilt
CN204135625U (en) Pipe fitting assembling welding fixture
CN208034768U (en) A kind of PE pipes cutting fixing device
CN203960639U (en) A kind of Scissoring device of fabric cutter
CN207172201U (en) A kind of explant cutter device
CN102136703A (en) Wire stripper
CN103659130B (en) The automatic positioning welding tooling device of axle base plate
CN202625427U (en) High-speed paper supply device with independent paper arms
CN205395421U (en) Automatic jump number step -by -step gilding press in succession
CN103363479B (en) Scalable rotation flush type LED lamp
CN203541935U (en) Omnibearing welding position-changing mechanism
CN201874892U (en) Fan mounting device
CN103657968A (en) Automatic circumferential dispensing mechanism
CN201881649U (en) Adjustable rotating laser marking machine for finger ring marking
CN207497760U (en) Thin film flattening device
CN202789633U (en) Elevation adjustment device of novel fan
CN203233110U (en) Fixed support for intermediate joint of hand-operated cable

Legal Events

Date Code Title Description
GR01 Patent grant
C14 Grant of patent or utility model
AV01 Patent right actively abandoned

Granted publication date: 20130116

Effective date of abandoning: 20151216

C25 Abandonment of patent right or utility model to avoid double patenting