CN214395419U - Local sticking film machine of big glass - Google Patents

Abstract

The utility model relates to a large glass local film sticking machine, which comprises a glass rotating device arranged on a frame, wherein a glass clamping and positioning mechanism is arranged on one side of the glass rotating device; the film feeding mechanism is arranged on one side of the glass clamping and positioning mechanism and is used for providing a film to be pasted; the film sticking mechanism is arranged above the glass clamping and positioning mechanism and used for sticking the film to be stuck, which is provided by the film feeding mechanism, to the glass; finished product material collecting device locates glass presss from both sides tight positioning mechanism's rear end for collect the glass after the pad pasting, the utility model discloses at first rotating glass through glass rotary device when adding man-hour, glass after the rotation carries out the location via glass location clamping device and presss from both sides tightly, realizes the local pad pasting to glass by pad pasting mechanism with sending the cooperation of membrane mechanism again, carries out product glass's automation through finished product material collecting device at last and collects, whole process full automation accomplishes, and production efficiency is high, and the recruitment is with low costs, and the pad pasting is efficient, has promoted the productivity of enterprise.

Description

Local sticking film machine of big glass

Technical Field

The utility model relates to a sticking film machine especially relates to a local sticking film machine for big glass.

Background

The improvement of the living standard of the society nowadays makes people's requirement to daily electronic article also more and more high, and the glass screen that is used for among them in the computer product needs very big, in actual production and processing, still need carry out the pad pasting to the camera on the glass to protect the camera.

However, most of the existing film pasting methods adopt workers to carry out film pasting operation of single glass films, and manual collection is carried out after processing is finished; after long-time production and processing, the film pasting efficiency is low in the operation mode, the film pasting quality does not meet the requirement, and a great deal of inconvenience is brought to actual production and processing of enterprises.

SUMMERY OF THE UTILITY MODEL

The utility model aims at overcoming prior art not enough and provide a convenient operation, can realize the local pad pasting to glass automatically to automatically, collect the local pad pasting machine of big glass that production efficiency is high to the glass behind the pad pasting.

In order to achieve the above purpose, the utility model adopts the technical scheme that: the utility model provides a local sticking film machine of big glass, includes the setting in the frame:

the glass rotating device is used for rotating the glass;

the glass clamping and positioning mechanism is arranged on one side of the glass rotating device and is used for clamping and positioning the rotated glass;

the film feeding mechanism is arranged on one side of the glass clamping and positioning mechanism and is used for providing a film to be pasted;

the film sticking mechanism is arranged above the glass clamping and positioning mechanism and is used for sticking the film to be stuck, which is provided by the film feeding mechanism, to the glass;

and the finished product receiving device is arranged at the rear end of the glass clamping and positioning mechanism and is used for collecting the glass after the film is pasted.

Further, the glass rotating apparatus includes:

the support frame is arranged on the rack;

rotating the bracket; the rotating bracket is rotatably arranged on the supporting frame;

the rotating shaft of the rotating motor is connected with the rotating bracket;

the conveying mechanism is arranged in the rotating support and comprises a plurality of conveying assemblies and a conveying roller power mechanism for driving the conveying assemblies to rotate, each conveying assembly comprises a conveying roller which is arranged oppositely up and down, and a plurality of conveying rings are arranged on the conveying rollers;

the adsorption mechanism comprises two adsorption components which are respectively arranged above and below the transmission mechanism and are symmetrically arranged, and the adsorption components are used for adsorbing glass;

the response subassembly, two the response subassembly is located both sides in the transmission device, just, the response subassembly links to each other with transmission roller power unit for respond to glass's both ends, wherein, the response subassembly includes the tablet, the front end of tablet is equipped with relative first infrared inductor and the infrared inductor of second that sets up.

Furthermore, the adsorption component comprises an adsorption panel, and the adsorption panel is arranged on the rotary bracket; an adsorption cylinder is arranged on the adsorption panel; the telescopic rod of the adsorption air cylinder penetrates through the adsorption panel to be connected with the fixing plate; the bottom of the fixed plate is provided with a plurality of suckers.

Further, the glass clamping and positioning mechanism comprises:

positioning the bracket;

the conveying assembly is arranged in the positioning support and comprises a plurality of conveying rollers and a conveying roller power mechanism for driving the conveying assembly to rotate, and a plurality of conveying rings are arranged on the conveying rollers;

the blocking assembly is arranged at the rear end of the conveying assembly and comprises a blocking frame, a blocking wheel is arranged at the front end of the blocking frame, and two blocking sensors connected with a power mechanism are arranged on one side of the blocking wheel;

and the clamping assembly is arranged below the conveying assembly and is used for clamping two ends of the glass.

Further, the clamping assembly comprises a jacking cylinder; a piston rod of the jacking cylinder is provided with a jacking plate; the jacking plate is provided with a synchronous belt conveying assembly; the synchronous belt transmission assembly comprises two synchronous wheels connected through a synchronous belt, wherein one synchronous wheel is driven by a motor; two sliding blocks which move reversely are arranged on the synchronous belt; the glass lifting device is characterized in that the sliding block is connected with a switching block, the bottom of the switching block is connected with the lifting plate through a guide rail, and a limiting rod used for limiting glass is arranged on the switching block.

Further, the film feeding mechanism comprises a film feeding rack, a film feeding disc, a transverse moving assembly, a bearing plate, a limiting plate, a transmission roller, a driving roller, a damping wheel and a film collecting disc; the top of the film feeding rack is provided with a film feeding disc, and a film to be pasted is borne on the film feeding disc; the front end of the film feeding disc is provided with a bearing plate which can transversely move through a transverse moving assembly, and the bearing plate is provided with two limiting plates which are oppositely arranged; two transmission rollers are arranged below the film feeding disc and the bearing plate; a driving roller is arranged below the bearing plate, and a rotatable damping wheel is arranged on one side of the driving roller; and a film collecting disc is arranged at the rear end of the damping wheel.

Further, the transverse moving assembly comprises a transverse moving cylinder, and the transverse moving cylinder is arranged on the film feeding rack; a piston rod of the transverse moving cylinder is connected with the bearing plate; the bearing plate is arranged on a transverse sliding rail, and the transverse sliding rail is arranged on the film feeding rack.

Further, the damping wheel is rotatably arranged on the mounting frame; the mounting rack is rotatably arranged on the damping wheel support, and the damping wheel support is further provided with an adjusting bolt for adjusting the angle of the damping wheel.

Further, the film sticking mechanism comprises a vertical guide rail and a vertical moving module which are oppositely arranged; one end of the transverse moving module is slidably arranged on the vertical guide rail, and the other end of the transverse moving module is driven by the vertical moving module to move vertically; the transverse moving module is provided with a transverse moving plate capable of transversely moving, and the transverse moving plate is provided with a moving plate capable of vertically moving through a lifting cylinder; the movable plate is provided with a visual detection system for detecting the position of the membrane; a vertical cylinder is arranged on one side of the visual detection system; the bottom of vertical cylinder is equipped with adsorbs the piece, the bottom that adsorbs the piece is equipped with a plurality of absorption holes.

Further, the finished product receiving device comprises a receiving plate; the two ends of the upper part of the material receiving plate are provided with material receiving brackets, and the opposite sides of the two material receiving brackets are provided with material receiving rollers; a rotary cylinder is also arranged between the two material receiving brackets; the bottom of the rotary cylinder is connected with an upper ejection cylinder penetrating through the material receiving plate; the top of the rotary cylinder is provided with a rotatable material receiving panel, and the material receiving panel is provided with a plurality of material receiving suckers; the outer sides of the two receiving brackets are provided with discharging brackets; and material receiving rollers are arranged on the opposite sides of the two discharging supports.

Because of above-mentioned technical scheme's application, compared with the prior art, the utility model have the following advantage:

the utility model discloses the local sticking film machine of big glass of scheme, can be automatic and preorder equipment seamless connection, add at first rotate glass through glass rotary device man-hour, glass after the rotation carries out the location via glass location clamping device and presss from both sides tightly, again by pad pasting mechanism with send the cooperation of membrane mechanism to realize the local pad pasting to glass, carry out product glass's automation through finished product material collecting device at last and collect, whole process automation accomplishes, high production efficiency, the recruitment is with low costs, the pad pasting position is accurate, the productivity of enterprise has been promoted greatly, accord with the market demand of enterprise.

Drawings

The technical scheme of the utility model is further explained by combining the attached drawings as follows:

FIG. 1 is a schematic structural view of the present invention;

fig. 2 is a schematic structural view of another view angle of the present invention;

FIG. 3 is a schematic view of a glass rotating apparatus;

FIG. 4 is an enlarged view of portion A of FIG. 3;

FIG. 5 is a schematic view of the structure of FIG. 3 from another perspective;

FIG. 6 is a schematic view of the structure of FIG. 3 from another perspective;

FIG. 7 is an enlarged view of the portion D of FIG. 6

FIG. 8 is a schematic structural view of a glass clamping and positioning mechanism;

FIG. 9 is an enlarged view of portion B of FIG. 8;

FIG. 10 is a schematic view of the structure of FIG. 8 from another perspective;

FIG. 11 is an enlarged view of portion C of FIG. 10;

FIG. 12 is a schematic view of the structure of FIG. 8 from another perspective;

FIG. 13 is an enlarged view of section E of FIG. 12;

FIG. 14 is a schematic structural view of a film feeding mechanism;

FIG. 15 is a schematic structural view of another view of the film feeding mechanism;

FIG. 16 is a schematic structural view of another view of the film feeding mechanism;

FIG. 17 is a schematic structural view of a film sticking mechanism;

FIG. 18 is a schematic view of the structure of the adsorption block;

FIG. 19 is a schematic structural view of a finished product receiving device;

FIG. 20 is a schematic view of the structure of FIG. 19 from another perspective;

wherein: the device comprises a rack 1, a glass rotating device 2, a glass clamping and positioning mechanism 3, a film feeding mechanism 4, a film sticking mechanism 5, a finished product receiving device 6, glass 7, a rotating support 20, a rotating motor 21, a transmission roller 22, a transmission ring 23, an adsorption component 24, an induction component 25, a support frame 26, a positioning support 30, a transmission roller 31, a stop frame 32, a stop wheel 33, a clamping component 34, a film feeding rack 40, a film feeding disc 41, a bearing plate 42, a limit plate 43, a transmission roller 44, a driving roller 45, a damping wheel 46, a film receiving disc 47, a film to be stuck 49, a vertical guide rail 50, a vertical moving module 51, a transverse moving module 52, a transverse moving plate 53, a visual detection system 54, a vertical cylinder 55, an adsorption block 56, an adsorption hole 57, a moving plate 58, a receiving plate 60, a receiving support 61, a receiving roller 62, a rotating cylinder 63, an upper jacking cylinder 64, a receiving panel 65, a receiving sucker 66, a discharging support 67, a receiving rod, The device comprises a transmission roller motor 80, a synchronous wheel mechanism 81, a transmission roller transmission shaft 82, a magnetic wheel 83, a conveying roller motor 90, a power wheel 91, an adsorption panel 240, an adsorption air cylinder 241, a fixing plate 242, a suction cup 243, an induction plate 250, a first infrared inductor 251, a second infrared inductor 252, a jacking air cylinder 340, a jacking plate 341, a synchronous belt 342, a synchronous wheel 343, a sliding block 344, a switching block 345, a limiting rod 346, a guide rail 347, a transverse moving air cylinder 480, a transverse moving slide rail 481, a damping wheel support 482, an adjusting bolt 483 and a mounting rack 484.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

Referring to fig. 1-2, the present invention provides a large glass local laminator, which comprises a frame 1: the glass rotating device 2 is used for rotating the glass transmitted by the preorder equipment by 360 degrees, so that the turnover operation of the glass is realized; the glass clamping and positioning mechanism 3 is arranged on the right side of the glass rotating device 2 and is used for clamping and positioning the rotated glass; the film feeding mechanism 4 is arranged on one side of the glass clamping and positioning mechanism 3 and is used for providing a film to be pasted; the film sticking mechanism 5 is arranged above the glass clamping and positioning mechanism 3 and is used for sticking the film to be stuck, which is provided by the film feeding mechanism 4, to the glass; the finished product receiving device 6 is arranged at the rear end of the glass clamping and positioning mechanism 3 and used for collecting the glass after the film is pasted.

Referring to fig. 3-7, as a further preferred embodiment, the glass rotating apparatus 2 includes a supporting frame 26, a rotating frame 20, a rotating motor 21, a transmission mechanism, an absorption mechanism and a sensing assembly 25; the support frame 26 is mounted on the frame 1; the rotating bracket 20 is rotatably arranged on the supporting frame 26 through two rotating shafts on two sides, and one of the rotating shafts is connected with the rotating motor 21, so that the rotating bracket 20 can be driven to rotate on the supporting frame 26 through the rotating motor 21, and a groove matched with the rotating bracket 20 to rotate for 360 degrees is formed in the bottom of the frame.

The conveying mechanism is installed in the rotating support 20 and is composed of a plurality of conveying assemblies arranged in parallel, the driving force of each conveying assembly is provided by a conveying roller power mechanism, each conveying assembly comprises a conveying roller 22 arranged up and down oppositely, five conveying rings 23 arranged at intervals are arranged on each conveying roller, glass is conveyed between the conveying rings 23 of the two conveying rollers, and the conveying rings 23 are made of materials which cannot damage the glass.

Wherein, transmission roller power unit includes transmission roller motor 80, transmission roller motor 80 passes through synchronizing wheel mechanism 81 drive transmission roller transmission shaft 82 and rotates be equipped with a plurality of magnetic force wheels 83 on the transmission roller transmission shaft 82, every magnetic force wheel 83 locates between two transmission rollers 22 that set up from top to bottom, just the transmission roller that sets up about the magnetic force wheel 83 drive carries out synchronous revolution, and during operation, transmission roller motor 80 drives the synchronous revolution of the transmission roller 22 that corresponds through a plurality of magnetic force wheels, and then the drive is located the glass forward transmission on transmission roller 22.

In addition, the adsorption mechanism comprises two adsorption components which are respectively arranged above and below the transmission mechanism and are symmetrically arranged, and the two adsorption components 24 are respectively used for adsorbing the front and back surfaces of the glass; the suction assembly comprises a suction panel 240, and the suction panel 240 is mounted on the rotating bracket 20; an adsorption cylinder 241 is arranged on the adsorption panel 240; the telescopic rod of the adsorption cylinder 241 downwards passes through the adsorption panel to be connected 242 with the fixing plate; six suction cups 243 are provided at the bottom of the fixing plate 242.

Two the response subassembly 25 is located both sides in the transmission device, the response subassembly 25 with transmission roller power unit link to each other for response glass's both ends position, wherein, the response subassembly includes tablet 250, tablet 250 is the Z style of calligraphy, and tablet 250's front end is equipped with relative first infrared inductor 251 and the infrared inductor 252 of second that sets up, is used for responding to glass's position respectively.

When the glass conveying device works, the glass is conveyed between the conveying rings of the two conveying rollers through the processing equipment in the prior art and then is continuously conveyed forwards, and the two ends between the two conveying rollers are also provided with limiting pulleys (not shown in the figure), so that when the width of the glass is just positioned between the two limiting pulleys, the two limiting pulleys ensure the stable linear conveying of the glass and limit the glass; when the glass moves forward to a set position, the left end and the right end of the glass are just positioned between the first infrared sensor 251 and the second infrared sensor 252 in the corresponding sensing assembly, so that the first infrared sensor 251 and the second infrared sensor 252 do not sense the glass, and the sensing assembly controls the transmission roller power mechanism to stop working at the moment, so that the glass stops transmission so as to rotate.

At the moment, the two adsorption air cylinders respectively positioned above and below start to work, and the suckers on the corresponding fixed plates respectively move downwards and upwards so that the upper and lower suckers respectively adsorb the upper and lower ends of the glass and the glass is fixedly connected with the rotary support; and immediately starting to rotate the rotating motor, synchronously rotating the whole rotating bracket with the glass by 360 degrees, and turning the glass from the front side to the back side.

Referring to fig. 8-13, as a further preferred embodiment, the glass clamping and positioning mechanism 3 includes a positioning bracket 30, a conveying assembly, a conveying roller power mechanism, a blocking assembly and a clamping assembly; the positioning bracket 30 is arranged on the frame 1; the conveying assembly is arranged in the positioning bracket 30 and comprises a plurality of conveying rollers 31 which are arranged in parallel, the power of the conveying rollers 31 is provided by a conveying roller power mechanism, a plurality of conveying rings 23 which are arranged at intervals are arranged on the conveying rollers, and the glass is conveyed linearly by the conveying rings; the blocking assembly is arranged at the rear end of the conveying assembly and comprises a blocking frame 32, and two blocking wheels 33 which are oppositely arranged are arranged at the front end of the blocking frame 32; two opposite blocking sensors connected with the power mechanism are arranged on one side of the blocking wheel, and the clamping assembly 34 is arranged below the conveying assembly and used for clamping two ends of glass.

The conveying roller power mechanism comprises a conveying roller motor 90, one end of the conveying roller 31 is connected with power wheels 91, the power wheels are connected through synchronizing wheels, the conveying roller motor drives any one power wheel to rotate through a synchronizing wheel assembly, all the power wheels are driven to rotate synchronously, the conveying roller 31 is driven to rotate, and finally glass is driven to be transmitted.

Specifically, the clamping assembly 34 includes a jacking cylinder 340; a piston rod of the jacking cylinder 340 is provided with a jacking plate 341; the jacking plate 341 is provided with a synchronous belt conveying assembly; the synchronous belt transmission assembly comprises two synchronous wheels 343 connected by a synchronous belt 342, wherein one synchronous wheel 343 is driven by a motor (not shown in the figure); two sliders 344 moving in opposite directions are arranged on the synchronous belt 342; the sliding block 344 is connected with a switching block 345, the bottom of the switching block 345 is connected with the lifting plate 341 through a guide rail 347, and two limiting rods 346 for limiting the end part of the glass are arranged on the switching block 345.

When the glass conveying device works, the glass enters the conveying ring of the conveying roller 31, then the glass is conveyed forwards, when the front end of the glass is positioned between the two blocking sensors, the glass is positioned at a set position, and the blocking sensors control the power mechanism of the conveying roller to stop working, so that the glass automatically stops being conveyed forwards; then the jacking cylinder jacks up the whole jacking plate so that the two ends of the glass are just positioned between the limiting rods on the two sides; the motor drive hold-in range carries out anticlockwise rotation next, and two sliders are close to each other just through hold-in range reverse motion back like this, and two connecting blocks 345 that are driven by two sliders are also close to each other, and the gag lever post that is located on connecting block 345 is also close to each other like this to the gag lever post through both sides presss from both sides tight location with glass's both ends clamp.

Wherein, the blocking wheel prevents the glass from moving forward too much and directly rushing out.

Referring to fig. 14-16, as a further preferred embodiment, the film feeding mechanism 4 includes a film feeding frame 40, a film feeding disc 41, a traverse assembly, a carrying plate 42, a limiting plate 43, a transmission roller 44, a driving roller 45, a damping wheel 46 and a film collecting disc 47; the top of the film feeding rack 40 is provided with a film feeding disc 41, the film feeding disc 41 is loaded with a film 49 to be pasted on glass, and a plurality of films to be pasted are sequentially and separably arranged on one film; the front end of the film feeding disc 41 is provided with a bearing plate 42 which can transversely move through a transverse moving assembly, the bearing plate 42 is provided with two oppositely arranged limiting plates 43, and the distance between the two limiting plates 43 is equal to the width of the whole film; two transmission rollers 44 are arranged below the film feeding disc 41 and the bearing plate 42; a driving roller 45 is arranged below the bearing plate 42, the driving roller 45 is driven by a corresponding motor to fall, and a rotatable damping wheel 46 is arranged on one side of the driving roller 45; the rear end of the damping wheel 46 is provided with a film collecting disc 47.

The transverse moving assembly comprises a transverse moving cylinder 480, and the transverse moving cylinder 480 is arranged on the film feeding rack 40; a piston rod of the transverse moving cylinder 480 is connected with the bearing plate 42; the bearing plate 42 is arranged on a traverse slide 481, and the traverse slide 481 is arranged on the film feeding rack 40.

In addition, the damping wheel 46 is rotatably disposed on the mounting bracket 484; the mounting bracket 484 is rotatably disposed on the damper wheel bracket 482, an adjusting bolt 483 for adjusting the angle of the damper wheel 46 is further disposed on the damper wheel bracket 482, and the front end of the adjusting bolt 483 is threadedly coupled to the mounting bracket 484, so that the angle between the damper wheel and the damper wheel bracket can be adjusted by tightening or loosening the adjusting bolt.

Referring to fig. 17-18, as a further preferred embodiment, the film sticking mechanism 5 includes a vertical guide 50 and a vertical moving module 51 which are oppositely arranged; one end of the traverse module 52 is slidably arranged on the vertical guide rail 50, and the other end of the traverse module is driven to move vertically by the vertical module 51; the transverse moving module 52 is provided with a transverse moving plate 53 capable of moving transversely, the transverse moving plate 53 is provided with a moving plate 58 capable of moving up and down through a lifting cylinder, the moving plate 58 is provided with a visual detection system 54, and the visual detection system 54 is used for detecting the position of a film at an adsorption block, so that the position of the film which can be adhered subsequently is ensured; a vertical cylinder 55 is arranged on one side of the visual detection system 54; the bottom of vertical cylinder 55 is equipped with adsorbs the piece 56, the bottom of adsorbing the piece 56 is equipped with a plurality of absorption holes 57.

When the film collecting device works, the whole film is conveyed out of the film conveying disc, enters the bearing plate after passing through the two transmission rollers 44 which are arranged left, right, up and down, is limited by the two limiting plates, is conveyed downwards through the conical surface on the left side of the bottom of the bearing plate and passes through the two transmission rollers, is conveyed to the position between the driving roller and the damping wheel towards the right side, and is finally recovered into the film collecting disc; when the film to be pasted needs to be taken out and pasted on the glass, at the moment, the adsorption block 56 moves to one film to be pasted on the bearing plate through the matching of the vertical moving module 51 and the transverse moving module, then the adsorption block is contacted with the film to be pasted through the matching of the lifting cylinder and the vertical cylinder 55, and the film to be pasted is adsorbed by utilizing the adsorption holes; then utilize sideslip cylinder 480 to drive the loading board and move to the right on sideslip slide rail 481 to can separate out waiting to pad pasting from whole membrane, and the absorption hole is in the state of waiting to pad pasting absorption this moment, will wait to pad pasting through pad pasting mechanism 5 and paste the local position to glass at last.

Wherein, the damping wheel can carry out the adjusting position through the angle, guarantees to treat that the pad pasting is in the state of tightening, is convenient for get and treats the pad pasting processing.

Referring to fig. 19-20, as a further preferred embodiment, the finished product receiving device 6 includes a receiving plate 60; the two ends of the upper part of the material receiving plate 60 are provided with material receiving brackets 61, and the opposite sides of the two material receiving brackets 61 are provided with a plurality of material receiving rollers 62 which are arranged in parallel; a rotary cylinder 63 is also arranged between the two material receiving brackets 61; the bottom of the rotary cylinder 63 is connected with an upper jacking cylinder 64 penetrating through the material collecting plate 60; a rotatable material receiving panel 65 is arranged at the top of the rotary cylinder 63, and a plurality of material receiving suckers 66 are arranged on the material receiving panel 65 and used for adsorbing glass; the outer sides of the two receiving brackets 61 are provided with a discharging bracket 67; a plurality of receiving rollers 62 arranged in parallel are arranged on the opposite sides of the two discharging brackets 67.

The during operation, glass conveys forward and is located the receipts material gyro wheel of receiving the material support, go up the cylinder and begin work after that, will receive the material sucking disc and up remove, until receiving the material sucking disc and adsorbing glass, go up the cylinder and continue up moving next, with glass up the top of the receipts material gyro wheel 62 who is located blowing support 67, revolving cylinder begins work, with whole glass rotation 90, make glass become horizontal placing by vertical placing, go up the cylinder and down remove, drive the both ends of transversely placing glass and move down to on the receipts material gyro wheel 62 of blowing support 67, receive the material sucking disc and close, go up the cylinder area and receive the material sucking disc and get back to original position, glass just goes out through horizontal conveying.

The utility model discloses a local sticking film machine of big glass, can be automatic and preorder equipment seamless connection, add at first rotate glass through glass rotary device man-hour, glass after the rotation carries out the location via glass location clamping device and presss from both sides tightly, again by pad pasting mechanism with send the cooperation of membrane mechanism to realize the local pad pasting to glass, carry out product glass's automation through finished product material collecting device at last and collect, whole process full automation accomplishes, high production efficiency, the recruitment is with low costs, the pad pasting position is accurate, the productivity of enterprise has been promoted greatly, accord with the market demand of enterprise.

The above is only a specific application example of the present invention, and does not constitute any limitation to the protection scope of the present invention. All the technical solutions formed by equivalent transformation or equivalent replacement fall within the protection scope of the present invention.

Claims (10)

1. The utility model provides a local sticking film machine of big glass which characterized in that, including setting up in the frame:

the glass rotating device is used for rotating the glass;

the glass clamping and positioning mechanism is arranged on one side of the glass rotating device and is used for clamping and positioning the rotated glass;

the film feeding mechanism is arranged on one side of the glass clamping and positioning mechanism and is used for providing a film to be pasted;

the film sticking mechanism is arranged above the glass clamping and positioning mechanism and is used for sticking the film to be stuck, which is provided by the film feeding mechanism, to the glass;

and the finished product receiving device is arranged at the rear end of the glass clamping and positioning mechanism and is used for collecting the glass after the film is pasted.

2. The large glass local laminator according to claim 1, wherein the glass rotation device comprises:

the support frame is arranged on the rack;

rotating the bracket; the rotating bracket is rotatably arranged on the supporting frame;

the rotating shaft of the rotating motor is connected with the rotating bracket;

the conveying mechanism is arranged in the rotating support and comprises a plurality of conveying assemblies and a conveying roller power mechanism for driving the conveying assemblies to rotate, each conveying assembly comprises a conveying roller which is arranged oppositely up and down, and a plurality of conveying rings are arranged on the conveying rollers;

the adsorption mechanism comprises two adsorption components which are respectively arranged above and below the transmission mechanism and are symmetrically arranged, and the adsorption components are used for adsorbing glass;

the response subassembly, two the response subassembly is located both sides in the transmission device, just, the response subassembly links to each other with transmission roller power unit for respond to glass's both ends, wherein, the response subassembly includes the tablet, the front end of tablet is equipped with relative first infrared inductor and the infrared inductor of second that sets up.

3. The large glass local laminator according to claim 2, wherein: the adsorption component comprises an adsorption panel, and the adsorption panel is arranged on the rotary bracket; an adsorption cylinder is arranged on the adsorption panel; the telescopic rod of the adsorption air cylinder penetrates through the adsorption panel to be connected with the fixing plate; the bottom of the fixed plate is provided with a plurality of suckers.

4. The large glass local laminator according to claim 1, wherein the glass clamping and positioning mechanism comprises:

positioning the bracket;

the conveying assembly is arranged in the positioning support and comprises a plurality of conveying rollers and a conveying roller power mechanism for driving the conveying assembly to rotate, and a plurality of conveying rings are arranged on the conveying rollers;

the blocking assembly is arranged at the rear end of the conveying assembly and comprises a blocking frame, a blocking wheel is arranged at the front end of the blocking frame, and two blocking sensors connected with a power mechanism are arranged on one side of the blocking wheel;

and the clamping assembly is arranged below the conveying assembly and is used for clamping two ends of the glass.

5. The large glass local laminator according to claim 4, wherein: the clamping assembly comprises a jacking cylinder; a piston rod of the jacking cylinder is provided with a jacking plate; the jacking plate is provided with a synchronous belt conveying assembly; the synchronous belt transmission assembly comprises two synchronous wheels connected through a synchronous belt, wherein one synchronous wheel is driven by a motor; two sliding blocks which move reversely are arranged on the synchronous belt; the glass lifting device is characterized in that the sliding block is connected with a switching block, the bottom of the switching block is connected with the lifting plate through a guide rail, and a limiting rod used for limiting glass is arranged on the switching block.

6. The large glass local laminator according to claim 1, wherein: the film feeding mechanism comprises a film feeding rack, a film feeding disc, a transverse moving assembly, a bearing plate, a limiting plate, a transmission roller, a driving roller, a damping wheel and a film collecting disc; the top of the film feeding rack is provided with a film feeding disc, and a film to be pasted is borne on the film feeding disc; the front end of the film feeding disc is provided with a bearing plate which can transversely move through a transverse moving assembly, and the bearing plate is provided with two limiting plates which are oppositely arranged; two transmission rollers are arranged below the film feeding disc and the bearing plate; a driving roller is arranged below the bearing plate, and a rotatable damping wheel is arranged on one side of the driving roller; and a film collecting disc is arranged at the rear end of the damping wheel.

7. The large glass local laminator according to claim 6, wherein: the transverse moving assembly comprises a transverse moving cylinder, and the transverse moving cylinder is arranged on the film conveying rack; a piston rod of the transverse moving cylinder is connected with the bearing plate; the bearing plate is arranged on a transverse sliding rail, and the transverse sliding rail is arranged on the film feeding rack.

8. The large glass local laminator according to claim 6, wherein: the damping wheel is rotatably arranged on the mounting frame; the mounting rack is rotatably arranged on the damping wheel support, and the damping wheel support is further provided with an adjusting bolt for adjusting the angle of the damping wheel.

9. The large glass local laminator according to claim 1, wherein: the film sticking mechanism comprises a vertical guide rail and a vertical moving module which are oppositely arranged; one end of the transverse moving module is slidably arranged on the vertical guide rail, and the other end of the transverse moving module is driven by the vertical moving module to move vertically; the transverse moving module is provided with a transverse moving plate capable of transversely moving, and the transverse moving plate is provided with a moving plate capable of vertically moving through a lifting cylinder; the movable plate is provided with a visual detection system for detecting the position of the membrane; a vertical cylinder is arranged on one side of the visual detection system; the bottom of vertical cylinder is equipped with adsorbs the piece, the bottom that adsorbs the piece is equipped with a plurality of absorption holes.

10. The large glass local laminator according to claim 1, wherein: the finished product receiving device comprises a receiving plate; the two ends of the upper part of the material receiving plate are provided with material receiving brackets, and the opposite sides of the two material receiving brackets are provided with material receiving rollers; a rotary cylinder is also arranged between the two material receiving brackets; the bottom of the rotary cylinder is connected with an upper ejection cylinder penetrating through the material receiving plate; the top of the rotary cylinder is provided with a rotatable material receiving panel, and the material receiving panel is provided with a plurality of material receiving suckers; the outer sides of the two receiving brackets are provided with discharging brackets; and material receiving rollers are arranged on the opposite sides of the two discharging supports.

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