CN220535066U - Automatic wear assembly structure of carrying cell-phone - Google Patents

Abstract

The utility model relates to an assembly structure of an automatic lifting mobile phone in the technical field of lifting machine, which comprises a machine body, a lifting machine paper feeding mechanism, a paperboard punching mechanism, a lifting coil buckling mechanism and a lifting film feeding mechanism, wherein an operation table is arranged on the surface of the machine body and is arranged at one end of the machine body through a steady frame; the equipment has an automatic material arranging function, and can automatically and continuously work after the materials are loaded in batches; the automatic structure is adopted, so that the problems of more operators, low working benefit, high labor cost and high labor intensity in the existing working procedure are improved.

Description

Automatic wear assembly structure of carrying cell-phone

Technical Field

The utility model relates to the technical field of handle threading machines, in particular to an assembly structure for automatically threading a mobile phone.

Background

The paper box is a most widely used packaging product, and comprises a corrugated paper box, a single-layer paper box and the like according to different materials, wherein the paper box is provided with various specifications and models, the paper box is commonly used with three layers and five layers, the seven layers are used less, each layer is divided into inner paper, corrugated paper, medium paper and surface paper, the inner paper and the surface paper comprise tea board paper and kraft paper, the corrugated paper for the medium paper is different in color and hand feeling, the paper produced by different manufacturers is also different, and the mobile phone is a processing device for assisting the paper box to carry out a handle penetrating process.

The prior Chinese patent with reference to the publication number CN210881111U discloses a carton penetrating mobile phone, which comprises a carton feeding device, a main frame body, a carton counting and paper collecting device and a master controller which are sequentially arranged; the carton folding and lifting device is characterized in that the carton folding and lifting device, the carton punching device and the lifting device are sequentially arranged above the main frame body, a first synchronous belt assembly penetrating through the head and the tail and used for conveying cartons is arranged on the main frame body, a power chain mechanism is arranged on the side face of the main frame body, the first synchronous belt assembly, the carton folding and lifting device and the carton punching device are connected with the power chain mechanism, and the carton feeding device, the carton folding and lifting device, the carton punching device, the lifting device, the carton counting and collecting device and the first synchronous belt assembly are controlled by a master controller. The problem that the efficiency of the upper device is low, the lug folding and punching device is imperfect and the paper collection counting device is imperfect in the processing process of the carton threading handle is solved, and the working efficiency of the carton threading handle is greatly improved.

The utility model provides an assembly structure for automatically putting on a mobile phone, which solves the technical problems that when a paper box is fed, the assembly structure needs to be assembled with the paper box correspondingly, and the assembly structure is not improved, and when the paper box is not aligned with the punched position of the paper box in the previous process, the assembly of the paper box and the paper box is not matched, and the assembly of the paper box is also needed to be assembled manually or semi-automatically.

Disclosure of Invention

The utility model aims to overcome the defects of the prior art and provides a technical scheme capable of solving the problems.

The utility model provides an automatic wear assembly structure of carrying cell-phone, includes the organism, wears handle machine paper feeding mechanism, cardboard mechanism of punching a hole, handle coil stock spiral-lock mechanism and handle film feeding mechanism, the surface mounting of organism has the operation panel, and the operation panel passes through the firm frame to be installed in the one end of organism, wears handle machine paper feeding mechanism, cardboard mechanism of punching a hole, handle coil stock spiral-lock mechanism and handle film feeding mechanism all with the one end butt of organism.

Further, the paper feeding mechanism of the handle threading machine comprises a PVC steel wire hose, a distributing mechanism, a transmission assembly, a transmission rod assembly and a supporting assembly, wherein the PVC steel wire hose is arranged at one end of the transmission assembly, and the distributing mechanism is arranged in the transmission assembly; the transmission assembly comprises a servo motor and an air suction belt which are sequentially arranged from top to bottom, and the material distributing mechanism is arranged between the supporting assembly and the air suction belt; the supporting component comprises a paperboard bin and a paperboard placing table which are sequentially arranged from top to bottom, and the induced draft belt and the distributing mechanism are arranged at the bottom of the paperboard bin; the material distributing mechanism comprises an ejector plate, a driving cylinder and an ejector rod which are sequentially arranged from top to bottom, wherein the ejector rod is arranged at one end of the driving cylinder, and the ejector plate is arranged at one end of the ejector rod.

Further, the transmission assembly comprises a transmission belt, a first transmission wheel, a second transmission wheel and a conveying wheel, wherein the first transmission wheel is arranged at one end of the output end of the servo motor, the transmission belt is respectively sleeved at the middle parts of the first transmission wheel and the second transmission wheel, the conveying wheel is arranged on the upper surface of the induced draft belt, the transmission assembly comprises a hand wheel, a first rolling wheel and a second rolling wheel, the transmission rod assembly comprises a first transmission rod, a second transmission rod and a third transmission rod, the first transmission rod is arranged at one end of the hand wheel, the second transmission rod is arranged at one end of the second transmission wheel, and the third transmission rod is arranged in the conveying wheel;

the supporting component comprises a paperboard limiting plate, a baffle and a supporting frame, wherein the paperboard limiting plate is arranged at one end of a first transmission rod, the baffle is arranged on the surface of the first transmission rod, the supporting frame is arranged at one end of a second transmission wheel, a hand wheel and a third transmission rod, the ejection rod is arranged at the bottom of a paperboard storage bin, the ejection rod is connected with the paperboard storage bin, and the PVC steel wire hose is arranged at one end of an induced draft belt and one end of the paperboard storage bin.

Further, the cardboard mechanism of punching a hole includes beam assembly and the double force cylinder that punches a hole, beam assembly includes entablature and entablature, and the one end of the double force cylinder that punches a hole is connected with the subassembly that punches a hole, and the subassembly that punches a hole includes pre-compaction mould, punches a hole and goes up the cutter, punches a hole and cut down cutter and exhaust material pipe, and the surface mounting of entablature has the locating component that is used for carrying out the location to the cardboard, and the surface connection of entablature has the swager subassembly that is used for carrying out the swager to the cardboard, and the locating component includes installation piece, limiting plate and locating piece, and the installation piece is installed in the surface of entablature, and the limiting plate passes through the one end butt of slide bar and installation piece.

Further, the pressing wheel assembly comprises a first paperboard pressing wheel set and a second paperboard pressing wheel set, the first paperboard pressing wheel set and the second paperboard pressing wheel set are connected with the surface of an upper cross beam through fixing plates, the upper cross beam is connected with a lower cross beam through a supporting frame, an adjusting block is arranged on the surface of the lower cross beam, a connecting plate for increasing connection stability is used at one ends of the upper cross beam and the lower cross beam, an adjusting slide plate is arranged at one end of a punching force doubling cylinder, the adjusting slide plate is arranged on the surface of the upper cross beam, and a guide pillar and a guide sleeve for limiting the stroke are arranged in the inner mounting of the pre-pressing die.

Further, the handle coil stock buckling mechanism comprises a handle pressing plate, a transmission rod, a cam servo motor, a pressing wheel, a workbench, a material blocking component, a handle feeding cam mechanism, a handle pre-pressing cam mechanism, a handle shaping cam mechanism, a handle strip supporting mechanism, a feeding component and a cutting component; the handle feeding cam mechanism comprises a first feeding connecting rod, a feeding cam and a second feeding connecting rod which are sequentially arranged from top to bottom; the feeding assembly comprises a handle strip pressing wheel, a pressing plate, a handle strip pressing wheel supporting rod, a handle strip pressing wheel supporting plate, a strip positioning track and a handle strip which are sequentially arranged from top to bottom; the cutting assembly comprises a cutting mechanism, a waste discharge port, a sensor and a cutting machine supporting frame which are sequentially arranged from top to bottom.

Further, the feeding assembly comprises a feeding transmission rod, a supporting plate, a feeding belt, a feeding plate, a conveying belt, a second feeding rolling wheel, a first feeding rolling wheel and a feeding servo motor, the handle belt supporting mechanism comprises a handle belt driving wheel, a belt support and a handle fixing support frame which are sequentially arranged from top to bottom, the handle pre-pressing cam mechanism comprises a pre-pressing cam, a first pre-pressing cam connecting rod, a second pre-pressing cam connecting rod and a fixing block, the handle shaping cam mechanism comprises a cam fixing block, a shaping cam, a first shaping cam connecting rod and a second shaping cam connecting rod, the shaping cam is arranged in the transmission rod, the cam fixing block is arranged at one end of the handle pressing plate, the first shaping cam connecting rod is arranged at one side of the cam fixing block, and the second shaping cam connecting rod is arranged at one end of the first shaping cam connecting rod.

Further, keep off material subassembly and include first baffle, second baffle, third baffle and first fixed bolster, keep off material subassembly and include second fixed bolster, keep off material pole, stop material mechanism and fender material piece, keep off material subassembly and include driving motor, slide bar and automatic conveyor belt, driving motor installs the one end at the second fixed bolster, the one end at driving motor is installed to the slide bar, the slide bar is connected with driving motor's output, automatic conveyor belt cover is established at the upper surface of slide bar, the one end at second pay-off connecting rod, first pre-compaction cam connecting rod and second plastic cam connecting rod is all installed to the pinch roller, pay-off cam, plastic cam and pre-compaction cam all laminate the upper surface at the pinch roller.

Further, handle film feeding mechanism is including being used for assisting the pay-off frame that the handle film carried out the material transportation, the ejecting subassembly of handle film and be used for assisting the handle film to carry out the conveying subassembly of pay-off, conveying subassembly includes servo motor, hold-in range and synchronizing wheel, the one end of pay-off frame is connected with the reducing gear, the ejecting subassembly of handle film includes the locating piece, connector and vacuum pump, the one end of reducing gear is connected with the transfer line, the surface connection of transfer line has the film release cam that is used for assisting the handle film promotion, the inside of pay-off frame is equipped with the conveying chain, the internally mounted of pay-off frame has the push pedal, the one end of push pedal is equipped with the push rod that is used for releasing the handle film, the internally mounted of pay-off frame has the removal track, the surface of pay-off frame is equipped with handle film support rail, handle film support rail structure installs in the both ends of pay-off frame symmetrically.

Further, the surface mounting of pay-off frame has handle film cartridge holder feed bin, and the inside of handle film cartridge holder feed bin is used for placing the handle film, and the locating piece is installed in the one end of pay-off frame, the connector is connected with the vacuum pump through outside trachea, and the handle film jacking slider that is used for assisting the handle film to remove is installed to the one end of locating piece.

Compared with the prior art, the utility model has the beneficial effects that:

1. automatic production is realized through mechanical operation, and labor output is reduced;

2. the equipment has an automatic material arranging function, and can automatically and continuously work after the materials are loaded in batches;

3. the automatic structure is adopted, so that the problems of more operators, low working benefit, high labor cost and high labor intensity in the existing working procedure are improved.

Drawings

FIG. 1 is a front view of an assembly structure of an automatic carrying handset;

FIG. 2 is a top view of an assembly structure of an automatic carrying handset;

FIG. 3 is a perspective view of an assembly structure of an automatic carrying handset;

FIG. 4 is another perspective view of an assembly structure of an automatic carrying handset;

FIG. 5 is a perspective view of the paper feed mechanism of the handle threading machine;

FIG. 6 is a schematic diagram of a paper feed mechanism of the handle threading machine;

FIG. 7 is an enlarged schematic view of the paper feed mechanism of the handle threading machine as A-A;

FIG. 8 is an enlarged schematic view of the handle threading machine paper feed mechanism as B-B;

FIG. 9 is an enlarged schematic view of the paper feed mechanism C-C of the handle threading machine as a material distributing mechanism;

FIG. 10 is a perspective view of a paperboard punching mechanism;

FIG. 11 is an enlarged partial schematic view of FIG. 10A;

FIG. 12 is a perspective view of a pre-compression mold in the paperboard punching mechanism;

FIG. 13 is a perspective view of a positioning assembly in the paperboard punching mechanism;

FIG. 14 is a partial schematic view of a paperboard punching mechanism;

FIG. 15 is a schematic perspective view of a handle coil stock fastening mechanism;

FIG. 16 is a schematic view of the internal structure of the handle roll buckle mechanism;

FIG. 17 is a schematic view of the handle shaping cam mechanism in the handle roll buckle mechanism;

FIG. 18 is a schematic view of a handle strip support mechanism in a handle roll buckle mechanism;

FIG. 19 is a schematic view of the structure of the stop assembly in the handle coil buckle mechanism;

FIG. 20 is a schematic view of the handle roll buckle mechanism;

FIG. 21 is an enlarged schematic view of the handle roll buckle mechanism A-A;

FIG. 22 is a perspective view of a handle chassis feed mechanism;

FIG. 23 is an enlarged partial schematic view of A in FIG. 22;

FIG. 24 is another perspective view of the handle chassis feed mechanism;

fig. 25 is a partially enlarged schematic view of B in fig. 24.

Detailed Description

The utility model is described in further detail below with reference to the drawings and the detailed description.

Referring to fig. 1 to 25, in this embodiment, an assembly structure of an automatic lifting mobile phone includes a machine body 100, a lifting machine paper feeding mechanism a, a cardboard punching mechanism B, a lifting coil buckling mechanism C and a lifting film feeding mechanism D, and is characterized in that: the surface of the machine body 100 is provided with an operation table 200, the operation table 200 is arranged at one end of the machine body 100 through a stabilizing frame 300, and a handle threading machine paper feeding mechanism A, a paperboard punching mechanism B, a handle coil stock buckling mechanism C and a handle negative film feeding mechanism D are all abutted with one end of the machine body 100, as shown in figures 1-4.

As shown in fig. 5-9, the paper feeding mechanism a of the handle threading machine comprises a PVC steel wire hose 1, a distributing mechanism 40, a transmission assembly 10, a transmission rod assembly 20 and a supporting assembly 30, wherein the transmission rod assembly 20 is installed in the transmission assembly 10, the transmission assembly 10 and the transmission rod assembly 20 are both installed in the supporting assembly 30, the PVC steel wire hose 1 is installed at one end of the transmission assembly 10, and the distributing mechanism 40 is installed in the transmission assembly 10;

the transmission assembly 10 comprises a servo motor 101 and an induced draft belt 102 which are sequentially arranged from top to bottom, the servo motor 101 is arranged in the support assembly 30, the induced draft belt 102 is arranged at the bottom of the support assembly 30, and the material distributing mechanism 40 is arranged between the support assembly 30 and the induced draft belt 102;

the supporting component 30 comprises a paperboard bin 305 and a paperboard placing table 304 which are sequentially arranged from top to bottom, the paperboard placing table 304 is arranged at one end of the paperboard bin 305, the paperboard placing table 304 is connected with the paperboard bin 305, and the induced draft belt 102 and the distributing mechanism 40 are arranged at the bottom of the paperboard bin 305; the material distributing mechanism 40 comprises an ejector plate 401, a driving cylinder 402 and an ejector rod 403 which are sequentially arranged from top to bottom, wherein the ejector rod 403 is arranged at one end of the driving cylinder 402, and the ejector plate 401 is arranged at one end of the ejector rod 403; the arrangement of the PVC steel wire hose 1 can facilitate the suction of the paper board placed on the paper board storage bin 305, the paper board displacement phenomenon is prevented, the output end of the driving motor drives the first driving wheel 105 to rotate, then the first driving wheel 105 drives the conveying belt 106 to rotate, the conveying belt 106 drives the second driving wheel 108 to rotate together, simultaneously, when the second driving wheel 108 rotates, the first rolling wheel 107 driving the surface of the second driving wheel 108 to rotate, the first rolling wheel 107 drives the suction type belt 102 to rotate together, then the suction type belt 102 is driven by the first rolling wheel 107 and also drives the conveying wheel 104 to rotate together, the paper board to be processed is placed conveniently through the arrangement of the paper board placing table 304, the driving cylinder 402 drives the ejection rod 403 to move upwards when the detection equipment detects that the paper board exists on the suction type belt 102, meanwhile, the ejection rod 403 drives the ejection plate 401 to move upwards, the paper board 305 is ejected on the storage bin 305, the rest paper board 305 is separated from the suction type belt 102, the paper board is driven by the suction type belt 403 to be ejected onto the suction type belt 102 when the detection equipment detects the paper board 102, and the paper board is ejected onto the paper board 102 by the suction type belt 401, and the paper board is further processed by the suction type belt 102.

The transmission assembly 10 comprises a transmission belt 106, a first transmission wheel 105, a second transmission wheel 108 and a conveying wheel 104, wherein the first transmission wheel 105 is arranged at one end of the output end of the servo motor 101, the transmission belt 106 is respectively sleeved at the middle parts of the first transmission wheel 105 and the second transmission wheel 108, and the conveying wheel 104 is arranged on the upper surface of the induced draft belt 102; the servo motor 101 drives the first driving wheel 105 to rotate, the first driving wheel 105 drives the conveying belt 106 to rotate, the conveying belt 106 drives the second driving wheel 108 to rotate together, then the second driving wheel 108 also drives the second driving rod 202 to rotate, the air suction belt 102 and the second rolling wheel 110 on the second driving rod 202 rotate together, when the air suction belt 102 and the second rolling wheel 110 rotate, the conveying wheel 104 is driven to rotate, the paper board is driven to move forwards conveniently, and the conveying wheel 104 plays an auxiliary role.

The transmission assembly 10 comprises a hand wheel 103, a first rolling wheel 107 and a second rolling wheel 110, wherein the hand wheel 103 is arranged at one end of the support assembly 30, and the first rolling wheel 107 and the second rolling wheel 110 are respectively sleeved in the air suction belt 102; when paperboards with different sizes need to be processed, the first transmission rod 201 is adjusted by the hand wheel 103, then the position of the baffle 302 is moved and adjusted by the first transmission rod 201 under the action of the hand wheel 103, paperboards to be processed and processed are convenient to fix, one end of the second transmission wheel 108 drives the second transmission rod 202 to rotate, then the second rolling wheel 110 is driven to rotate, and meanwhile the second rolling wheel 110 drives the first rolling wheel 107 to rotate together through the air suction type belt 102, so that paperboards on the paperboard bin 305 can be conveniently moved forwards.

The transmission rod assembly 20 comprises a first transmission rod 201, a second transmission rod 202 and a third transmission rod 203, wherein the first transmission rod 201 is arranged at one end of the hand wheel 103, the second transmission rod 202 is arranged at one end of the second transmission wheel 108, and the third transmission rod 203 is arranged inside the conveying wheel 104; through the arrangement of the third transmission rod 203, a supporting effect can be achieved on the conveying wheel 104, the phenomenon that the conveying wheel 104 is driven by the air suction type belt 102 to displace is prevented, and meanwhile, the stability of the conveying wheel 104 is improved.

The supporting component 30 comprises a paperboard limiting plate 301, a baffle plate 302 and a supporting frame 303, wherein the paperboard limiting plate 301 is arranged at one end of the first transmission rod 201, the baffle plate 302 is arranged on the surface of the first transmission rod 201, and the supporting frame 303 is arranged at one end of the second transmission wheel 108, one end of the hand wheel 103 and one end of the third transmission rod 203; through the arrangement of the paperboard limiting plate 301, the paperboard can be further fixed and positioned conveniently, the paperboard is prevented from being displaced in the process of being processed, and through the arrangement of the supporting frame 303, the hand wheel 103, the second driving wheel 108, the first driving rod 201 and the third driving rod 203 are fixed at one end of the supporting frame 303 conveniently, so that the stability is improved; the ejector rod 403 is installed in the bottom of cardboard feed bin 305, and ejector rod 403 is connected with cardboard feed bin 305, and PVC steel wire hose 1 is installed in the one end of induced draft belt 102 and cardboard feed bin 305.

As shown in fig. 10-14, the paper board punching mechanism B includes a beam assembly and a punching force cylinder 1, the beam assembly includes an upper beam 2 and a lower beam 3, the punching force cylinder 1 is mounted on the surface of the upper beam 2, one end of the punching force cylinder 1 is connected with a punching assembly, the punching assembly includes a pre-pressing die 4, an upper punching cutter 5, a lower punching cutter 6 and a waste discharge pipe 7, a material pressing area is formed between the upper punching cutter 5 and the lower punching cutter 6, when the paper board is transferred to the material pressing area, the upper punching cutter 5 and the lower punching cutter 6 perform punching on the paper board through opening and closing of the pre-pressing die 4 so as to complete the punching process, the punching force cylinder 1 is used for providing driving force for punching the paper board, a positioning assembly a for positioning the paper board is mounted on the surface of the upper beam 2, and the surface of the upper beam 2 is connected with a material pressing wheel assembly for pressing the paper board.

The positioning assembly A comprises a mounting block 8, a limiting plate 9 and a positioning block 10, wherein the mounting block 8 is mounted on the surface of the upper cross beam 2, the limiting plate 9 is abutted to one end of the mounting block 8 through a sliding rod 11, the mounting block 8 can slide along the surface of the sliding rod 11, the limiting plate 9 is pushed to drive the positioning block 10 to move along the surface of the sliding rod 11, so that the distance adjustment function is achieved, when paperboards of different sizes are processed, the adjustment mode is adopted, the situation that the paperboards are oversized and collide with the surface of the positioning block 10 is avoided, the follow-up procedure is affected, when the positioning block 10 limits the positions of the edges of the paperboards, the position of the edges of the paperboards is limited due to square or rectangle, and the automatic positioning function of the paperboards is achieved through the position limitation of the positioning block 10.

The pressing wheel assembly comprises a first paper board pressing wheel set 12 and a second paper board pressing wheel set 13, the first paper board pressing wheel set 12 and the second paper board pressing wheel set 13 are connected with the surface of the upper beam 2 through a fixing plate 14, the first paper board pressing wheel set 12 and the second paper board pressing wheel set 13 comprise a plurality of rollers, the distance between two adjacent rollers is equidistantly arranged, a structure with a plurality of rollers equidistantly arranged is adopted, when the paper board is conveyed to the pressing range of the pressing wheel assembly, the pressing wheel assembly applies uniform pressure to the surface of the paper board, the phenomenon that the paper board generates offset or slides is reduced, the paper board is assisted to be conveyed to the punching process, when the paper board is conveyed to the blanking process after the punching process is finished, the phenomenon that the paper board generates offset or slides is reduced through the pressing wheel assembly, and the paper board is assisted to be conveyed to the specified blanking area.

The upper beam 2 and the lower beam 3 are connected through the supporting frame 15, the regulating block 16 is arranged on the surface of the lower beam 3, the connecting plates 17 used for increasing the connection stability are used at one ends of the upper beam 2 and the lower beam 3, the supporting frame 15 is connected with the upper beam 2 and the lower beam 3 through the connecting plates 17, and the supporting frame 15 plays a role in bearing the upper beam 2 and the lower beam 3.

An adjusting slide plate 18 is arranged at one end of the punching force doubling cylinder 1, the adjusting slide plate 18 is arranged on the surface of the upper beam 2, the adjusting slide plate 18 can slide along the surface of the upper beam 2, and the adjusting slide plate 18 is used for adjusting the position of the punching force doubling cylinder 1 on the surface of the upper beam 2, so that the effect of adjusting the punching stroke is achieved.

One end of the waste discharge pipe 7 extends to the inside of the pre-pressing die 4, the other end of the waste discharge pipe 7 extends along the outside of the pre-pressing die 4, and when the upper punching cutter 5 and the lower punching cutter 6 punch the paperboard, waste generated by punching is discharged out of the outside of the pre-pressing die 4 through the waste discharge pipe 7, so that the discharging process is completed.

The guide post 19 and the guide sleeve 20 for limiting the travel are arranged in the pre-pressing die 4, the guide post 19 and the guide sleeve 20 are coaxially arranged, and when the pre-pressing die 4 performs an opening and closing process, the guide post 19 and the guide sleeve 20 play roles in positioning and guiding. The mode that adopts the gyro wheel to transmit the cardboard makes the cardboard carry to appointed district of punching a hole through outside conveyer, when the cardboard removes, moves through cardboard positioner, makes cardboard positioner carry out the position to the edge of cardboard and prescribes a limit to correct the position of cardboard, make the cardboard accomplish the effect of automatic positioning, adopt outside cylinder drive locating component to carry out the cardboard location, its doubly strength cylinder that punches a hole 1 makes the pre-compaction mould open and shut through the driving force, thereby be convenient for punch a hole and go up cutter 5 and punch a hole cutter 6 down to punch a hole to the cardboard blanking, realize the accurate process of punching a hole of cardboard, in order to accomplish the process of punching a hole.

15-21, the handle coil stock fastening mechanism C comprises a handle pressing plate 1, a transmission rod 2, a cam servo motor 3, a pressing wheel 4, a workbench 5, a material blocking assembly 10, a handle feeding cam 302 mechanism 30, a handle pre-pressing cam mechanism 40, a handle shaping cam mechanism 50, a feeding assembly 60 and a cutting assembly 70, wherein the handle pressing plate 1 is arranged between the handle pre-pressing cam mechanism 40 and the handle shaping cam mechanism 50, the feeding assembly 60 is arranged at one ends of the handle pre-pressing cam mechanism 40 and the handle pressing plate 1, the pressing wheel 4 is arranged at one ends of the handle pre-pressing cam mechanism 40 and the handle shaping cam mechanism 50, the cam servo motor 3 is arranged at one ends of the cam servo motor 3, the transmission rod 2 is arranged inside the handle pre-pressing cam mechanism 40 and the handle shaping cam mechanism 50, the cutting assembly 70 is arranged on the upper surface of the feeding assembly 60, the material blocking assembly is arranged at one end of the workbench 5, the handle cam 302 mechanism 30, the handle cam mechanism 40, the feeding assembly 50, the cutting assembly 60 and the cutting assembly 70 are arranged on the pre-pressing surface of the workbench 5;

the handle feeding cam mechanism 30 comprises a first feeding connecting rod 301, a feeding cam 302 and a second feeding connecting rod 303 which are sequentially arranged from top to bottom, the first feeding connecting rod 301 is arranged at one end of the feeding assembly 60, the second feeding connecting rod 303 is arranged at one end of the first feeding connecting rod 301, and the feeding cam 302 is arranged in the transmission rod 2;

the feeding assembly 60 comprises a handle strip pressing wheel 601, a pressing plate 612, a handle strip pressing wheel supporting rod 610, a handle strip pressing wheel supporting plate 611, a strip positioning rail 604 and a handle strip 602 which are sequentially arranged from top to bottom, wherein the handle strip pressing wheel supporting rod 610 is arranged at one end of the handle strip pressing wheel supporting plate 611, the handle strip pressing wheel 601 is arranged at one end of the handle strip pressing wheel supporting rod 610, the handle strip pressing wheel 601 is arranged on the upper surface of the pressing plate 612, the strip positioning rail 604 and the handle strip 602 are arranged on the upper surface of the pressing plate 612, the handle strip 602 is arranged on the upper surface of the strip positioning rail 604, and the handle strip pressing wheel supporting plate 611 is arranged on the upper surface of the pressing plate 612;

the cutting assembly 70 comprises a cutting mechanism 701, a waste discharge port 702, a sensor 703 and a cutting machine support frame 704 which are sequentially arranged from top to bottom, wherein the cutting mechanism 701 is arranged on the upper surface of the cutting machine support frame 704, the sensor 703 is arranged on the upper surface of the cutting machine support frame 704, and the waste discharge port 702 is arranged at the bottom of the cutting mechanism 701; with the arrangement of the sensor 703, the cutting mechanism 701 will cut the handle strip 602 as the handle strip 602 passes the bottom of the sensor 703.

The feeding assembly 60 comprises a feeding transmission rod 609, a supporting plate 613, a feeding belt 605, a feeding plate 606, a conveying belt 614, a second feeding roller 608, a first feeding roller 607 and a feeding servo motor 603, wherein the feeding transmission rod 609 is arranged on two sides of the supporting plate 613, the first feeding roller 607 and the second feeding roller 608 are arranged in the feeding transmission rod 609, the conveying belt 614 is arranged at one end of the first feeding roller 607 and one end of the feeding servo motor 603, the feeding servo motor 603 is arranged at one end of the handle belt pinch roller supporting plate 611, and the feeding belt 605 is sleeved on the upper surface of the second feeding roller 608.

The handle strip supporting mechanism 20 comprises a handle strip driving wheel 201, a strip support 202 and a handle fixing support frame 203 which are sequentially arranged from top to bottom, wherein the handle strip support 202 is arranged on two sides of the handle fixing support frame 203, the handle strip driving wheel 201 is arranged on the upper surface of the handle strip support frame 202, and the handle fixing support frame 203 is arranged on one side of a pressing plate 612.

The handle pre-pressing cam mechanism 40 comprises a pre-pressing cam 401, a first pre-pressing cam connecting rod 402, a second pre-pressing cam connecting rod 403 and a fixed block 405, wherein the pre-pressing cam 401 is arranged in the transmission rod 2, the first pre-pressing cam connecting rod 402 is arranged on one side of the pre-pressing cam 401, the second pre-pressing cam connecting rod 403 is arranged at one end of the first pre-pressing cam connecting rod 402, the second pre-pressing cam connecting rod 403 is arranged on one side of the fixed block 405, and the fixed blocks 405 are all arranged on the front end face of the handle pressing plate 1; the handle shaping cam mechanism 50 comprises a cam fixing block 501, a shaping cam 502, a first shaping cam connecting rod 503 and a second shaping cam connecting rod 504, wherein the shaping cam 502 is arranged in the transmission rod 2, the cam fixing block 501 is arranged at one end of the handle pressing plate 1, the first shaping cam connecting rod 503 is arranged at one side of the cam fixing block 501, and the second shaping cam connecting rod 504 is arranged at one end of the first shaping cam connecting rod 503.

The material blocking assembly 10 comprises a first baffle 101, a second baffle 102, a third baffle 103 and a first fixing bracket 104, wherein the first baffle 101 is arranged at the front end of the first fixing bracket 104, and the second baffle 102 and the third baffle 103 are arranged at two sides of the first fixing bracket 104; the material blocking assembly 10 comprises a second fixed support 105, a material blocking rod 107, a material blocking mechanism 106 and a material blocking block 108, wherein the material blocking mechanism 106 is arranged at one end of the first fixed support 104, the material blocking block 108 and the material blocking rod 107 are arranged in the material blocking mechanism 106, and the first fixed support 104 and the material blocking rod 107 are arranged on the upper surface of the second fixed support 105; the material blocking assembly comprises a driving motor 109, a sliding rod 110 and an automatic conveying belt 111, wherein the driving motor 109 is arranged at one end of the second fixed support 105, the sliding rod 110 is arranged at one end of the driving motor 109, the sliding rod 110 is connected with the output end of the driving motor 109, and the automatic conveying belt 111 is sleeved on the upper surface of the sliding rod 110; when the paper board falls to the automatic conveying belt 111, the driving motor 109 drives the sliding rod 110 to rotate, and then the sliding rod 110 drives the automatic conveying belt 111 to rotate together, so that the purpose of transporting the paper board on the automatic conveying belt 111 forwards is achieved, the working efficiency is improved, and a large amount of labor force is solved.

The pinch roller 4 is installed at one end of the second feeding connecting rod 303, the first pre-pressing cam connecting rod 402 and the second shaping cam connecting rod 504, and the feeding cam 302, the shaping cam 502 and the pre-pressing cam 401 are all attached to the upper surface of the pinch roller 4.

In the working principle, when the device is used, firstly, handle strip 602 is placed on handle strip driving wheel 201, then handle strip driving wheel 201 is supported by strip support 202, then handle fixing support frame 203 plays a supporting role on handle strip supporting mechanism 20 and handle strip driving wheel 201, handle strip 602 on handle strip driving wheel 201 is placed on pressing plate 612, then handle strip 602 is carried on strip positioning track 604 by handle strip pressing wheel 601 on pressing plate 612 to position handle strip 602, then handle strip 602 is conveyed to the bottom of cutting mechanism 701 by feeding belt 605 to cut redundant waste materials on handle strip 602, then waste materials after cutting will drop to waste material outlet 702 at the bottom of cutting mechanism 701 to discharge redundant waste materials, then handle strip 602 is continuously moved forward by feeding belt 605, after feeding plate 606 is moved, feeding cam 302 presses pressing wheel 4 down, second connecting rod 303 will drive first feeding connecting rod 301 to stretch, and first connecting rod 301 is simultaneously driven by first feeding connecting rod 301 to press plate 301 to press down, and second connecting rod 301 is driven by first connecting rod 301 to move down pressing plate 606 to move down, and then first connecting rod 1 is driven by first connecting rod 403 to move pressing plate 503 to move pressing plate 401 to move to a pre-press plate 503, when first connecting rod 1 is driven by first connecting rod 1 to move pressing plate 401 to move and then, when shaping plate 401 is driven to move down first connecting rod 1 is driven to move and shaping plate to move pressing plate 602 to move down, thus, when the pre-pressing plate is conveniently 1 is driven to move down first connecting rod to be 1 to move down to be pushed plate to move down to be 1, the first shaping cam connecting rod 503 drives the cam fixed block 501, then the cam fixed block 501 drives the handle pressing plate 1 to press the handle strip 602 at the bottom downwards to the upper surface of the paperboard, the pressed paperboard is conveyed to the middle of the baffle assembly 10, when the paperboard flies out, the first baffle 101, the second baffle 102 and the third baffle 103 can be used for intercepting, the paperboard is prevented from flying out, the falling paperboard falls on the baffle block 108 to be supported, the baffle mechanism 106 is used for setting, after the quantity of the paperboards set on the counter (not shown) is enough, the baffle mechanism 106 pulls the baffle rod 107 and the baffle block 108 to retreat, and a plurality of paperboards fall onto the automatic conveying belt 111 to be packaged.

As shown in fig. 22-25, the handle film feeding mechanism D includes a feeding frame 1 for assisting in transporting materials from the handle film, a handle film ejection assembly, and a conveying assembly for assisting in feeding materials from the handle film, the conveying assembly includes a servo motor 2, a synchronous belt 3, and a synchronous wheel 4, one end of the servo motor 2 is abutted to one end of the synchronous wheel 4, one end of the feeding frame 1 is connected with a reduction wheel 5, the inner surface of the synchronous belt 3 is respectively attached to the outer surfaces of the synchronous wheel 4 and the reduction wheel 5, and the handle film ejection assembly includes a positioning block 8, a connector 9, and a vacuum pump 10.

One end of the speed reducing wheel 5 is connected with a transmission rod 6, the surface of the transmission rod 6 is connected with a negative film pushing cam 7 for assisting in pushing a handle negative film, the negative film pushing cam 7 is positioned in the middle of the transmission rod 6, and the negative film pushing cam 7 is rotatably arranged in the feeding frame 1; the inside of pay-off frame 1 is equipped with conveying chain 11, conveying chain 11's one end and the surface butt of transfer line 6, conveying chain 11 plays the effect of providing the transmission force, the internally mounted of pay-off frame 1 has push pedal 12, the one end of push pedal 12 is laminated with the one end of film release cam 7, the one end of push pedal 12 is equipped with the push rod 13 that is used for ejecting the handle film, when film release cam 7 rotates, promote push pedal 12 through film release cam 7, make push pedal 12 exert effort to push rod 13, thereby make the handle film promote to appointed position, be convenient for drive the handle film and remove towards the direction of locating piece 8.

The movable crawler 14 is arranged in the feeding frame 1, the handle negative film supporting rails 15 are arranged on the surface of the feeding frame 1, the handle negative film supporting rails 15 are symmetrically arranged at two ends of the feeding frame 1 in a structure, the handle negative film supporting rails 15 are used for supporting the handle negative film, and when the movable crawler 14 moves, the handle negative film is driven to move towards the direction of the positioning block 8 through the movable crawler 14; the surface of the feeding frame 1 is provided with a handle film cartridge bin 16, the interior of the handle film cartridge bin 16 is used for placing handle films, a plurality of handle films can be placed in the interior of the handle film cartridge bin 16, and when the handle films slide from the interior of the handle film cartridge bin 16, the handle films are driven to move towards the direction of the positioning block 8 through acting force; the locating block 8 is arranged at one end of the feeding frame 1, the connector 9 is connected with the vacuum pump 10 through an external air pipe, when the negative film is intermittently conveyed forwards, the negative film reaches the inside of the top locating block 8, the locating block 8 is connected with the vacuum pump 10 through the connector 9 by connecting the external air pipe, so that the negative film is sucked by the action force of vacuum, the negative film is lifted and conveyed to the bottom of the paperboard, and the negative film is centered with the punched hole position in the previous working procedure, so that the working procedure of centering the punched hole position is completed.

One end of the positioning block 8 is provided with a lifting sliding block 17 for lifting the lifting bottom plate, the lifting sliding block 17 is driven to move by external driving force, so that the lifting sliding block 17 generates upward moving force to drive the positioning block 8 and the lifting bottom plate to move, and the external driving force can be pneumatic or hydraulic driving.

The mechanism consists of a servo motor 2, a speed reducer (not shown), a synchronous wheel 4, a synchronous belt 5, a conveying chain 11, a chain wheel (not shown), a lifting handle film cartridge 16, a lifting handle film ejection assembly, a lifting handle film supporting rail 15, a vacuum pump 10 for film vacuum adsorption, a lifting handle film lifting slide block 17 and the like; the negative film is manually put into a handle negative film cartridge bin 16, the negative film is pushed out to the area between two pushing blocks of a conveying chain 11 one by a push-out mechanism, the conveying chain 11 drives a movable crawler 14 and the negative film to be conveyed forward intermittently, when the negative film is conveyed forward intermittently, the negative film reaches into a top positioning block 8, the positioning block 8 is connected with an external air pipe through a connector 9 to be connected with a vacuum pump 10, so that vacuum acting force is generated to suck the negative film, the negative film is lifted and conveyed to the bottom of a paperboard, and the negative film is centered with a punched position in the upper working procedure, so that the working procedure of centering the punched position is completed.

The foregoing is a further detailed description of the utility model in connection with specific preferred embodiments, and is not intended to limit the practice of the utility model to such description. It will be apparent to those skilled in the art that several simple deductions or substitutions can be made without departing from the spirit of the utility model, and the scope of the utility model is to be considered as the scope of the utility model.

Claims (10)

1. The utility model provides an automatic wear assembly structure of carrying cell-phone, includes organism, wears handle machine paper feeding mechanism, cardboard mechanism that punches a hole, handle coil stock spiral-lock mechanism and handle film feeding mechanism, its characterized in that: the surface mounting of organism has the operation panel, and the operation panel passes through the steady rest to be installed in the one end of organism, wears handle machine paper feeding mechanism, cardboard punching mechanism, handle coil stock withholding mechanism and handle film feeding mechanism all with the one end butt of organism.

2. The assembly structure of an automatic portable mobile phone according to claim 1, wherein: the paper feeding mechanism A of the handle threading machine comprises a PVC steel wire hose, a distributing mechanism, a transmission assembly, a transmission rod assembly and a supporting assembly, wherein the PVC steel wire hose is arranged at one end of the transmission assembly, and the distributing mechanism is arranged in the transmission assembly; the transmission assembly comprises a servo motor and an air suction belt which are sequentially arranged from top to bottom, and the material distributing mechanism is arranged between the supporting assembly and the air suction belt; the supporting component comprises a paperboard bin and a paperboard placing table which are sequentially arranged from top to bottom, and the induced draft belt and the distributing mechanism are arranged at the bottom of the paperboard bin; the material distributing mechanism comprises an ejector plate, a driving cylinder and an ejector rod which are sequentially arranged from top to bottom, wherein the ejector rod is arranged at one end of the driving cylinder, and the ejector plate is arranged at one end of the ejector rod.

3. The assembly structure of an automatic portable mobile phone according to claim 2, wherein: the transmission assembly comprises a transmission belt, a first transmission wheel, a second transmission wheel and a conveying wheel, wherein the first transmission wheel is arranged at one end of the output end of the servo motor, the transmission belt is respectively sleeved at the middle parts of the first transmission wheel and the second transmission wheel, the conveying wheel is arranged on the upper surface of the induced draft belt, the transmission assembly comprises a hand wheel, a first rolling wheel and a second rolling wheel, the transmission rod assembly comprises a first transmission rod, a second transmission rod and a third transmission rod, the first transmission rod is arranged at one end of the hand wheel, the second transmission rod is arranged at one end of the second transmission wheel, and the third transmission rod is arranged inside the conveying wheel;

the supporting component comprises a paperboard limiting plate, a baffle and a supporting frame, wherein the paperboard limiting plate is arranged at one end of a first transmission rod, the baffle is arranged on the surface of the first transmission rod, the supporting frame is arranged at one end of a second transmission wheel, a hand wheel and a third transmission rod, the ejection rod is arranged at the bottom of a paperboard storage bin, the ejection rod is connected with the paperboard storage bin, and the PVC steel wire hose is arranged at one end of an induced draft belt and one end of the paperboard storage bin.

4. The assembly structure of an automatic portable mobile phone according to claim 1, wherein: cardboard mechanism B that punches a hole includes beam assembly and punches a hole doubly power cylinder, beam assembly includes entablature and bottom end rail, and the one end of punching a hole doubly power cylinder is connected with the subassembly that punches a hole, and the subassembly that punches a hole includes pre-compaction mould, punches a hole and goes up the cutter, punches a hole down cutter and exhaust material pipe, and the surface mounting of entablature has the locating component that is used for carrying out the location to the cardboard, and the surface connection of entablature has the swager wheel subassembly that is used for carrying out the swager to the cardboard, and the locating component includes installation piece, limiting plate and locating piece, and the installation piece is installed in the surface of entablature, and the limiting plate passes through the one end butt of slide bar and installation piece.

5. The assembly structure of an automatic portable mobile phone according to claim 4, wherein: the pressing wheel assembly comprises a first paperboard pressing wheel set and a second paperboard pressing wheel set, the first paperboard pressing wheel set and the second paperboard pressing wheel set are connected with the surface of an upper cross beam through fixing plates, the upper cross beam is connected with a lower cross beam through a supporting frame, an adjusting block is arranged on the surface of the lower cross beam, a connecting plate for increasing connection stability is arranged at one ends of the upper cross beam and the lower cross beam, an adjusting slide plate is arranged at one end of a punching force doubling cylinder, the adjusting slide plate is arranged on the surface of the upper cross beam, and a guide pillar and a guide sleeve for limiting a stroke are arranged in the inner mounting of the pre-pressing die.

6. The assembly structure of an automatic portable mobile phone according to claim 1, wherein: the handle coil stock buckling mechanism C comprises a handle pressing plate, a transmission rod, a cam servo motor, a pressing wheel, a workbench, a material blocking component, a handle feeding cam mechanism, a handle pre-pressing cam mechanism, a handle shaping cam mechanism, a handle belt material supporting mechanism, a feeding component and a cutting component; the handle feeding cam mechanism comprises a first feeding connecting rod, a feeding cam and a second feeding connecting rod which are sequentially arranged from top to bottom; the feeding assembly comprises a handle strip pressing wheel, a pressing plate, a handle strip pressing wheel supporting rod, a handle strip pressing wheel supporting plate, a strip positioning track and a handle strip which are sequentially arranged from top to bottom; the cutting assembly comprises a cutting mechanism, a waste discharge port, a sensor and a cutting machine supporting frame which are sequentially arranged from top to bottom.

7. The assembly structure of an automatic carrying mobile phone according to claim 6, wherein: the feeding assembly comprises a feeding transmission rod, a supporting plate, a feeding belt, a feeding plate, a conveying belt, a second feeding rolling wheel, a first feeding rolling wheel and a feeding servo motor, the handle belt supporting mechanism comprises a handle belt driving wheel, a belt support and a handle fixing support frame which are sequentially arranged from top to bottom, the handle prepressing cam mechanism comprises a prepressing cam, a first prepressing cam connecting rod, a second prepressing cam connecting rod and a fixing block, the handle shaping cam mechanism comprises a cam fixing block, a shaping cam, a first shaping cam connecting rod and a second shaping cam connecting rod, the shaping cam is arranged in the transmission rod, the cam fixing block is arranged at one end of the handle pressing plate, the first shaping cam connecting rod is arranged at one side of the cam fixing block, and the second shaping cam connecting rod is arranged at one end of the first shaping cam connecting rod.

8. The assembly structure of an automatic carrying mobile phone according to claim 6, wherein: the material blocking assembly comprises a first baffle, a second baffle, a third baffle and a first fixed support, and comprises a second fixed support, a material blocking rod, a material blocking mechanism and a material blocking block, wherein the material blocking assembly comprises a driving motor, a sliding rod and an automatic conveying belt, the driving motor is arranged at one end of the second fixed support, the sliding rod is arranged at one end of the driving motor, the sliding rod is connected with the output end of the driving motor, the automatic conveying belt is sleeved on the upper surface of the sliding rod, the pressing wheels are arranged at one ends of the second feeding connecting rod, the first prepressing cam connecting rod and the second shaping cam connecting rod, and the feeding cam, the shaping cam and the prepressing cam are all attached to the upper surface of the pressing wheels.

9. The assembly structure of an automatic portable mobile phone according to claim 1, wherein: the handle film feeding mechanism D comprises a feeding frame for assisting in conveying materials of the handle films, a handle film ejection assembly and a conveying assembly for assisting in conveying the handle films, wherein the conveying assembly comprises a servo motor, a synchronous belt and a synchronous wheel, one end of the feeding frame is connected with a speed reducing wheel, the handle film ejection assembly comprises a positioning block, a connector and a vacuum pump, one end of the speed reducing wheel is connected with a transmission rod, the surface of the transmission rod is connected with a film push-out cam for assisting in pushing the handle films, a conveying chain is arranged in the feeding frame, a push plate is arranged in the feeding frame, a push rod for pushing the handle films is arranged at one end of the push plate, a movable crawler belt is arranged in the feeding frame, handle film support rails are arranged on the surface of the feeding frame, and handle film support rails are symmetrically arranged at two ends of the feeding frame.

10. The assembly structure of an automatic carrying mobile phone according to claim 9, wherein: the surface mounting of pay-off frame has handle film cartridge to press from both sides the feed bin, and the inside of handle film cartridge is used for placing the handle film, and the locating piece is installed in the one end of pay-off frame, the connector is connected with the vacuum pump through outside trachea, and the handle film jacking slider that is used for assisting the handle film to remove is installed to the one end of locating piece.