CN111196027A - Full-automatic card-inserting and plastic-sucking integrated machine - Google Patents
Full-automatic card-inserting and plastic-sucking integrated machine Download PDFInfo
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- CN111196027A CN111196027A CN202010027624.8A CN202010027624A CN111196027A CN 111196027 A CN111196027 A CN 111196027A CN 202010027624 A CN202010027624 A CN 202010027624A CN 111196027 A CN111196027 A CN 111196027A
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- plate
- flanging
- punching
- driving
- die
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B29—WORKING OF PLASTICS; WORKING OF SUBSTANCES IN A PLASTIC STATE IN GENERAL
- B29C—SHAPING OR JOINING OF PLASTICS; SHAPING OF MATERIAL IN A PLASTIC STATE, NOT OTHERWISE PROVIDED FOR; AFTER-TREATMENT OF THE SHAPED PRODUCTS, e.g. REPAIRING
- B29C51/00—Shaping by thermoforming, i.e. shaping sheets or sheet like preforms after heating, e.g. shaping sheets in matched moulds or by deep-drawing; Apparatus therefor
- B29C51/18—Thermoforming apparatus
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B26—HAND CUTTING TOOLS; CUTTING; SEVERING
- B26D—CUTTING; DETAILS COMMON TO MACHINES FOR PERFORATING, PUNCHING, CUTTING-OUT, STAMPING-OUT OR SEVERING
- B26D9/00—Cutting apparatus combined with punching or perforating apparatus or with dissimilar cutting apparatus
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B26—HAND CUTTING TOOLS; CUTTING; SEVERING
- B26F—PERFORATING; PUNCHING; CUTTING-OUT; STAMPING-OUT; SEVERING BY MEANS OTHER THAN CUTTING
- B26F1/00—Perforating; Punching; Cutting-out; Stamping-out; Apparatus therefor
- B26F1/02—Perforating by punching, e.g. with relatively-reciprocating punch and bed
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B26—HAND CUTTING TOOLS; CUTTING; SEVERING
- B26F—PERFORATING; PUNCHING; CUTTING-OUT; STAMPING-OUT; SEVERING BY MEANS OTHER THAN CUTTING
- B26F1/00—Perforating; Punching; Cutting-out; Stamping-out; Apparatus therefor
- B26F1/38—Cutting-out; Stamping-out
- B26F1/40—Cutting-out; Stamping-out using a press, e.g. of the ram type
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B29—WORKING OF PLASTICS; WORKING OF SUBSTANCES IN A PLASTIC STATE IN GENERAL
- B29C—SHAPING OR JOINING OF PLASTICS; SHAPING OF MATERIAL IN A PLASTIC STATE, NOT OTHERWISE PROVIDED FOR; AFTER-TREATMENT OF THE SHAPED PRODUCTS, e.g. REPAIRING
- B29C51/00—Shaping by thermoforming, i.e. shaping sheets or sheet like preforms after heating, e.g. shaping sheets in matched moulds or by deep-drawing; Apparatus therefor
- B29C51/26—Component parts, details or accessories; Auxiliary operations
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B29—WORKING OF PLASTICS; WORKING OF SUBSTANCES IN A PLASTIC STATE IN GENERAL
- B29C—SHAPING OR JOINING OF PLASTICS; SHAPING OF MATERIAL IN A PLASTIC STATE, NOT OTHERWISE PROVIDED FOR; AFTER-TREATMENT OF THE SHAPED PRODUCTS, e.g. REPAIRING
- B29C51/00—Shaping by thermoforming, i.e. shaping sheets or sheet like preforms after heating, e.g. shaping sheets in matched moulds or by deep-drawing; Apparatus therefor
- B29C51/26—Component parts, details or accessories; Auxiliary operations
- B29C51/266—Auxiliary operations after the thermoforming operation
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B29—WORKING OF PLASTICS; WORKING OF SUBSTANCES IN A PLASTIC STATE IN GENERAL
- B29C—SHAPING OR JOINING OF PLASTICS; SHAPING OF MATERIAL IN A PLASTIC STATE, NOT OTHERWISE PROVIDED FOR; AFTER-TREATMENT OF THE SHAPED PRODUCTS, e.g. REPAIRING
- B29C51/00—Shaping by thermoforming, i.e. shaping sheets or sheet like preforms after heating, e.g. shaping sheets in matched moulds or by deep-drawing; Apparatus therefor
- B29C51/26—Component parts, details or accessories; Auxiliary operations
- B29C51/266—Auxiliary operations after the thermoforming operation
- B29C51/268—Cutting, rearranging and joining the cut parts
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- Engineering & Computer Science (AREA)
- Mechanical Engineering (AREA)
- Life Sciences & Earth Sciences (AREA)
- Forests & Forestry (AREA)
- Perforating, Stamping-Out Or Severing By Means Other Than Cutting (AREA)
Abstract
The invention relates to a full-automatic card-inserting and blister-sucking integrated machine, which comprises a frame, wherein the middle part of the frame is provided with a conveying belt for conveying a blister shell, the conveying belt is provided with a plurality of spaced blister chain plates, the frame is provided with a discharging device, a heating device, a forming device, a traction device, a waste collecting device arranged above the traction device and a punching device arranged behind the traction device in sequence at the front end of the blister chain plates, a blister separating device is arranged between the blister chain plates close to the punching device and the punching device, a paper card feeding device for supplying paper cards and placing the paper cards to the centers of blister shells on the blister chain plates is arranged right above one blister chain plate, a flanging device for sucking the blister shell after placing the paper cards and folding the edges of the blister shells to the paper cards and abutting against the paper cards is arranged behind the flanging device, and a hot-pressing device is arranged behind the flanging device, a punching device is arranged at the rear part of the hot-pressing device, and an output device is arranged below the punching device.
Description
Technical Field
The invention relates to the field of hardware tool packaging production, in particular to a full-automatic card-inserting and plastic-sucking integrated machine.
Background
Hardware tools such as sharp-nose pliers, wrenches and the like are necessary articles in daily life and industry, and after the hardware tools are manufactured, packaging operation is usually required, so that the hardware tools are packaged and conveniently sold. The packaging method mainly comprises the steps of processing by using a hardware tool packaging machine, drawing a film by heating a PVC film in a packaging procedure to form a packaging bulb shell, placing hardware tools in the packaging bulb shell and matching a cover paper board to seal and package the packaging bulb shell, wherein the two sides of the packaged packaging paperboard and the packaging bulb shell are relatively sharp, an operator can easily scratch hands when inserting the packaged hardware tools into a base, the efficiency is low, the labor intensity is high, and therefore the problem that the hand is easily injured due to the sharp edges of the bulb shell and the paperboard is solved without additionally increasing processes.
And traditional hardware and tools packagine machine has a great deal of problem, hardware and tools packagine machine assembly line is mainly including setting gradually PVC coil stock blowing device in the frame, carry out the heating device that heats the PVC membrane, the forming device who carries out plastic uptake shaping with the PVC membrane after heating, draw gear that carries out traction to the PVC cell-shell after carrying out the plastic uptake shaping, set up and carry out the useless device that collects the PVC membrane all the other parts behind the cell-shell of plastic uptake shaping above the draw gear, set up in the die-cut device that carries out die-cut with continuous PVC cell-shell in draw gear rear, the bubble that absorbs the PVC cell-shell after will die-cut divides the version device, set up in bubble conveying link joint (sending the cell-shell station) below the bubble conveying link joint, set up the paper card placer that falls into the cell-shell with the paper card above the bubble conveying link joint, set up the hot press unit (bonding together after hot pressing paper card and PVC cell-shell) behind the paper card that will hot pressing laminating together and the independent setting of punching a hole on The punching machine has the advantages that the traditional forming device and the driving mechanism of the punching device are complex, a motor, a cam box and other mechanisms are required to be arranged below the machine frame to drive the machine frame to work, the traditional foam sucking and plate dividing device needs the punching device to punch the foam shell to fall below the punching device and then suck the foam shell and convey the foam shell to the foam conveying chain plate, the foam sucking and plate dividing device is complex, the foam shell punched by the punching device can be placed on the foam conveying chain plate after being subjected to certain position adjustment, the traditional foam sucking and plate dividing device is inconvenient to adjust, the size of a foam shell accommodating cavity on the traditional foam conveying chain plate is fixed, different foam conveying chain plates are required to be designed for adapting of foam shells with different sizes, the cost for designing new foam conveying chain plates each time is high due to the large number of the foam conveying chain plates on the machine frame, the universality is poor, and hanging holes need to be drilled on the foam shell and the clamping plate after heat sealing, traditionally, all carry out the trompil through another punching equipment after cell-shell and cardboard heat seal, collect after the trompil again, cause equipment area big, manufacturing cost is high, is unfavorable for using widely.
Disclosure of Invention
The technical problem to be solved by the present invention is to solve the above-mentioned deficiencies of the prior art,
a full-automatic card inserting and plastic sucking integrated machine is provided.
In order to achieve the purpose, the invention provides the following technical scheme: full-automatic plug-in card plastic uptake all-in-one, which comprises a frame, the frame middle part is equipped with the conveyer belt that is used for carrying the plastic uptake shell, be equipped with the bubble link joint that send that a plurality of intervals set up the shell that is used for the holding plastic uptake shell on the conveyer belt, the frame has set gradually the blowing device that is used for placing the PVC membrane at sending bubble link joint front end, a heating device for heating the PVC membrane, the PVC membrane after will heating carries out plastic uptake fashioned forming's forming device, carry out towed draw gear to the plastic uptake shell after the plastic uptake shaping, set up the waste material collecting device that all the other parts of PVC membrane after will plastic uptake shaping formation bubble shell in the draw gear top, set up and carry out die-cut device with continuous PVC bubble shell in the draw gear rear, be provided with between the bubble link joint that send that: the automatic paper card feeding device is characterized in that a paper card feeding device used for providing paper cards and placing the paper cards to the center of a plastic suction shell on the foam feeding chain plate is arranged right above one of the foam feeding chain plate, the area of the paper cards on the paper card feeding device is smaller than that of the plastic suction shell, a hot pressing device used for sucking the plastic suction shell after the paper cards are placed, folding the edge of the plastic suction shell towards the paper cards and abutting against the edge folding device on the paper cards is arranged behind the paper card feeding device, the frame is provided with a hot pressing device used for hot pressing the plastic suction shell after edge folding behind the hot pressing device, a punching device used for punching the plastic suction shell after the hot pressing device is arranged behind the hot pressing device, and an output device used for sending the plastic suction shell after punching out of the frame is arranged.
The full-automatic card inserting and plastic sucking integrated machine can be further set as follows: the folding device comprises a folding mounting frame, a folding pressing plate used for pressing the paper card and the plastic suction shell on the foam feeding chain plate device is connected to the folding mounting frame, the area of the folding pressing plate is smaller than that of the plastic suction shell, a downward driving mechanism for driving the folding device which drives the folding device to move downward is arranged on the folding mounting frame, and folding hand devices which are arranged at intervals with the folding pressing plate are arranged on the adjacent three sides of the folding pressing plate respectively.
By adopting the technical scheme, the plastic suction housing and the paper card on the market are directly hot-pressed together, thereby causing the sharp edges of the bubble cap and the card paper to be easy to hurt hands, the invention adopts the paper card with the conveying area smaller than that of the plastic suction housing in the paper card feeding device, the plastic suction shell and the card paper are tightly pressed on the foam feeding chain plate device through the flanging pressing plate, the paper card is placed at the central position of the plastic suction shell, the adjacent three edges of the plastic suction shell extend out of the paper card and are folded and pressed on the paper card through the flanging hand device, the paper card is bonded with the plastic suction shell through the hot pressing device, the peripheral surface of the flanged paper card is smooth, the plastic suction shell is folded and pressed on the paper card through the edge folding hand device arranged at the adjacent three edges of the plastic suction shell, the problem that the edges of the paper card and the plastic suction shell hurt hands is solved, other materials are not coated outside the plastic suction shell, and hardware tools in the plastic suction shell after forming are taken out conveniently.
The full-automatic card inserting and plastic sucking integrated machine can be further set as follows: the downward driving mechanism of the flanging device comprises a downward driving cylinder of the flanging device and a flanging linkage plate, the downward driving cylinder of the flanging device and the flanging linkage plate are arranged on the flanging mounting frame, the flanging linkage plate is connected with the flanging pressing plate and the flanging hand device, the flanging pressing plate is connected to the flanging mounting frame through a downward pressing driving mechanism, the flanging hand device comprises a flanging mounting plate and a flanging plate arranged on the flanging mounting plate, a first driving mechanism of the flanging plate is arranged above the flanging plate and is used for driving the flanging plate to be close to the bubble conveying chain plate device, a second driving mechanism of the flanging plate is arranged on the flanging mounting plate and is used for driving the flanging plate to be close to the bubble conveying chain plate device and then lifting the flanging plate, and a third driving mechanism of the flanging plate is used for driving the heating plate to be close to the bubble conveying chain.
By adopting the technical scheme, the flanging device is arranged into a flanging installation frame and a flanging pressing plate connected to the flanging installation frame through a downward pressing driving mechanism, the flanging pressing plate is used for pressing the paper card and the blister shell on the blister conveying chain plate device, and the flanging hand devices are arranged at the adjacent three edges of the flanging pressing plate, when in work, the integral flanging device descends under the action of the downward driving mechanism of the flanging device, then the flanging pressing plate descends continuously under the driving of the downward pressing driving mechanism, the downward rear flanging plates are all positioned at the horizontal plane below the blister shell on the blister conveying chain plate device, and because the flanging hand devices are arranged at intervals with the flanging pressing plate, the interference between the flanging pressing plate and the blister shell on the blister conveying chain plate device pressed by the flanging pressing plate is avoided, the downward rear flanging plate is abutted against the blister conveying device under the action of the first driving mechanism of the flanging plate, and then the flanging plate is lifted up under the action of the second driving mechanism of the flanging plate, the part of the adjacent three sides of the plastic suction shell extending out of the paper card is folded upwards, then the heating plate at the upper part of the folding plate is close to the bubble conveying chain plate device under the action of the third driving mechanism of the folding plate, the upwards folded side is pressed on the paper card and is heated and shaped, because of the packaging habit of hardware tools, one side of the paper card needs to be punched so as to arrange the hardware tools on a goods shelf in order when in sale, therefore, the invention only folds the three sides according to the habit, the other side is reserved so as to be convenient for punching operation when in punching, and the holes are punched in the middle part of one side of the hardware tool packaging shell in the width direction, therefore, the invention folds both sides in the length direction and one end in the width direction, and can also fold the plastic shell in the width direction by arranging the edge folding mechanism at one end, but this increases the difficulty in subsequent opening.
The full-automatic card inserting and plastic sucking integrated machine can be further set as follows: the lower pressing driving mechanism comprises a lower pressing driving cylinder, one end of the lower pressing driving cylinder is provided with a lower pressing driving linkage plate which is in cross staggered arrangement with the edge folding linkage plate, the other end of the lower pressing driving linkage plate is in contact with the edge folding linkage plate, the other end of the lower pressing driving cylinder which is oppositely arranged with the edge folding driving linkage plate is connected with an edge folding pressing plate, the edge folding hand device also comprises an edge folding top plate, edge folding side plates which are arranged in parallel with the edge folding top plate are arranged on two sides of one end, close to the edge folding top plate, of the edge folding mounting plate, the edge folding top plate is connected with an edge folding bottom plate through edge folding stand columns which are oppositely arranged, the first driving mechanism of the edge folding plate comprises an edge folding front plate arranged at the front end of the edge folding top plate and edge folding linear rails arranged on the edge folding side plates, the edge folding top plate is connected with the edge folding linear rails through an edge folding, the other end of the flanging top plate, which is relatively connected with the flanging guide pillar, is provided with a guide pillar linkage plate, the guide pillar linkage plate is connected to a flanging linear track through a slider, a flanging first cylinder is arranged on the flanging top plate, a flanging second driving mechanism is a flanging second cylinder arranged on the flanging front plate, a flanging third driving mechanism is a flanging third cylinder arranged on the flanging bottom plate and relatively connected with the other end of the flanging guide pillar, a third cylinder through groove for a cylinder rod of the flanging third cylinder to pass through is formed in the corresponding position of the flanging third cylinder, and the cylinder rod of the flanging third cylinder passes through the third cylinder through groove and is connected with the heating plate.
Adopt above-mentioned technical scheme, drive actuating cylinder and push down the drive linkage board through pushing down and drive hem clamp plate and hem hand device downstream simultaneously, move down the back and be close to bubble sending link joint device through the first cylinder drive hem front bezel of hem, hot plate and hem board all are located the plastic sucking shell below horizontal plane this moment, lift on the hem mounting panel through hem second cylinder, the edge of the plastic sucking shell is just upwards rolled up by the hem board and is 90, rethread hem third cylinder is released the hot plate, the limit that will upwards roll up is pressed on the paper card, because the heating effect of hot plate, more laminating with the paper card after the plastic sucking shell edge is heated.
The full-automatic card inserting and plastic sucking integrated machine can be further set as follows: the forming device comprises a die holder upper plate and a die holder lower plate which are oppositely arranged, the die holder upper plate and the die holder lower plate are connected through four guide pillars which are oppositely arranged, an upper forming die and an upper die driving cylinder which drives the upper forming die to reciprocate along the guide pillars are arranged on the die holder upper plate, a lower forming die is arranged on one side of each guide pillar, which is close to the die holder lower plate, a lower die driving mechanism which is used for driving the lower forming die to reciprocate along the guide pillars is arranged at one end, away from the lower forming die, of the, the lower die driving mechanism comprises a mounting seat which is fixedly connected with the lower forming die through a connecting plate which is oppositely arranged, the mounting seat is provided with a driving part which is arranged in parallel with the lower forming die, the lower forming die is provided with a linkage part which is vertically arranged with the lower forming die, and the mounting seat is provided with a transmission part which converts the horizontal driving force of the driving part into the vertical driving force and then drives the linkage part to drive the lower forming die to reciprocate along the guide pillar.
By adopting the technical scheme, most of the traditional driving mechanisms of the forming device need to be provided with a motor, a cam box and other mechanisms below the rack to drive the motor, the cam box and other mechanisms to work, so that more internal space of the rack is occupied, and the transmission mechanism is relatively complex and has low transmission efficiency, the horizontal driving force of the driving part arranged on the mounting seat is converted into vertical driving force through the transmission part, and then the linkage part vertically connected with the forming lower die drives the forming lower die to move up and down along the guide post through the linkage part vertically connected with the forming lower die, so that the internal space of the rack is not excessively occupied, the transmission mechanism is simple, the transmission efficiency is high, the transmission part comprises first connecting rods which are oppositely arranged, one ends of the two first connecting rods are connected through a first rotating shaft, the other ends of the two first connecting rods are connected through a second rotating shaft, one end of the first connecting rod is fixedly connected with the, the other end of the second connecting rod is movably connected with the linkage part, one end of the first connecting rod is connected with the driving part through a first rotating shaft, the other end of the first connecting rod is connected in a limiting device on the mounting seat through a second rotating shaft, the second connecting rod is further arranged on the first rotating shaft, the other end of the second connecting rod is connected with the linkage part, when the driving part drives the first rotating shaft to move along the horizontal direction, the first connecting rod and the second connecting rod are driven to move along the first rotating shaft, when the driving part reaches the maximum stroke position, the first connecting rod and the second connecting rod are positioned on the same straight line and play a role of upward jacking on the forming lower die, the forming lower die is lifted upwards, when the driving part is withdrawn, the role of upward jacking is cancelled, the forming lower die returns to the initial position along the guide post, the limiting device is a first connecting rod limiting seat fixedly arranged on the mounting seat, the first connecting rod limiting, a gap for accommodating a first connecting rod is arranged between the two side plates, the first connecting rod is fixedly arranged between the gaps through a second rotating shaft and can be rotatably arranged along the second rotating shaft, one end of the first connecting rod is limited in the first connecting rod limiting seat through a first connecting rod limiting seat and the second rotating shaft, the first connecting rod can be rotatably arranged along the second rotating shaft, the driving part comprises a driving air cylinder, an air cylinder connecting seat is arranged on the mounting seat, the driving air cylinder is connected with the air cylinder connecting seat, the first rotating shaft penetrates through the piston rod end part of the driving air cylinder, the driving air cylinder is arranged on the mounting seat through the air cylinder connecting seat and is parallel to the mounting seat, the first rotating shaft penetrates through the piston rod end part of the driving air cylinder, the first connecting rod and the second connecting rod are rotatably arranged by taking the first connecting rod as a central shaft when the air cylinder is ejected or retracted, the linkage part is a lower die of a third connecting rod, one end of the third connecting rod is movably connected with the other end of the, the first connecting rod, the second connecting rod and the third connecting rod are located on the same straight line when the piston rod of the driving air cylinder is driven out to the maximum stroke, the lower forming die is jacked upwards along the guide pillar, and when the piston rod of the driving air cylinder is retracted, the lower forming die falls back to the initial position along the guide pillar.
The full-automatic card inserting and plastic sucking integrated machine can be further set as follows: the punching device comprises an upper punching die and a lower punching die arranged opposite to the upper punching die, the upper punching die is connected with the lower punching die through four punching guide posts, a punching mechanism is arranged on the guide posts between the upper punching die and the lower punching die, one end of the lower punching die, which is far away from the upper punching die, is provided with a driving mechanism for driving the punching mechanism to reciprocate along the punching guide posts, one side of the upper punching die is provided with a die-feeding circular shaft, the driving mechanism is a pressure cylinder, the pressure cylinder comprises a pressure booster and a cylinder connected with the pressure booster, a piston rod of the cylinder is fixedly connected with the punching mechanism, the punching mechanism comprises a punching bottom plate fixedly connected with the lower punching die, a punching fixing plate is arranged on the punching bottom plate, the other end, which is opposite to the punching bottom plate, is connected with a die-cutting knife, at least one punching groove has been seted up to the die-cutting rule mounting panel, and the die-cutting rule mounting panel is provided with laser cutter in punching groove periphery, and the holding chamber is provided with laser generator in punching groove corresponding position, has seted up four screw holes on the punching fixed plate, the through-hole has been seted up at the screw hole position to the die-cutting rule mounting panel, the die-cutting rule mounting panel passes through bolted connection in the screw hole.
By adopting the technical scheme, the traditional punching device drives the punching cutter to be close to the punching upper die to punch PVC films conveyed by the film conveying circular shaft by using the motor and the cam box as the driving mechanism to form the blister shells capable of accommodating hardware tools one by one, but the driving mechanism adopting the cam box and the motor has low transmission efficiency and higher device cost, the invention adopts the pressurizing cylinder as the driving mechanism, the pressurizing cylinder adopts linear transmission, the transmission efficiency is high, the power output is stable, the driving mechanism is simplified, the transmission efficiency is improved, the traditional die cutter is used for manufacturing an integral cutting die which is consistent with the shape of the blister shell to be die-cut, the universality of the die is poor, the cost of re-blanking the die is higher when the die is changed to be matched with different types of blister shells, the invention adopts the laser cutter and the laser generator arranged in the accommodating cavity as the cutters, and when different sizes of fine blister shells need to be produced, only the laser cutter and the die cutter connected with the laser cutter are required to be installed and installed The board can, need not whole the changing of die-cutting mould, reduces the replacement cost, and the fastener is the bolt, and the bolt passes the through-hole and connects the die-cutting rule mounting panel on die-cut fixed plate, unscrews the bolt when changing and can change, uses this kind of drive mechanism to make die-cut device's transmission efficient, and die-cutting mould is changed conveniently and replacement cost is low.
The full-automatic card inserting and plastic sucking integrated machine can be further set as follows: the bubble absorbing and plate separating device comprises a conveying beam, a conveying moving seat arranged on the conveying beam in a sliding manner, a conveying driving assembly used for driving the conveying moving seat to move, a conveying lifting support arranged on the conveying moving seat in a lifting manner, a lifting driving piece used for driving the conveying lifting support to move up and down, and a grabbing assembly arranged on the conveying lifting support, wherein the grabbing assembly comprises a first adsorption rod and a second adsorption rod which are arranged at intervals and used for vacuum adsorption, a grabbing adjusting assembly capable of adjusting the relative position between the first adsorption rod and the second adsorption rod is arranged on the conveying lifting support, the grabbing assembly is arranged on the conveying lifting support in a sliding manner through the grabbing adjusting assembly, the grabbing adjusting assembly comprises a linear rail arranged on the conveying lifting support correspondingly and a sliding driving piece used for driving the grabbing assembly to slide along the linear rail, and the grabbing assembly is connected to the linear rail through a sliding block, the sliding driving piece is arranged at the other end of the grabbing component opposite to the connecting sliding block, a limiting device for limiting the distance between the first adsorption rod and the second adsorption rod after the distance is adjusted by the sliding driving piece is arranged between the conveying lifting support and the first adsorption rod and between the conveying lifting support and the second adsorption rod, the sliding driving piece is a sliding driving cylinder, a sliding driving cylinder mounting seat for fixing the sliding driving cylinder is arranged on the first adsorption rod, a connecting block is arranged on the second adsorption rod, a piston rod of the sliding driving cylinder is fixedly connected with the connecting block, the limiting device comprises a limiting rod, a limiting rod connecting block is arranged in the middle of the limiting rod on the conveying lifting support, the limiting rod is fixedly connected with the limiting rod connecting block, adjusting grooves are arranged at two ends of the limiting rod, and two ends of the limiting rod are respectively connected with the first adsorption rod and the second adsorption rod through the adjusting grooves, the first adsorption rod and the second adsorption rod are both provided with connecting holes matched with the adjusting grooves in the adjusting grooves, and the connecting holes are connected with the adjusting grooves through connecting bolts.
By adopting the technical scheme, the hardware tool packaging machine punches the bubble shells formed by forming the PVC films into the bubble shells into the hardware tool packaging boxes through the punching device, transfers the punched bubble shells to the bubble conveying chain plate through the bubble sucking and separating device after punching, but because the sizes of the bubble shells for packaging are different when other types of hardware tools are produced, for the bubble shells with different sizes, the types of the grabbing components also need to use corresponding grabbing components, the universality is poor, and the grabbing components need to be adaptively adjusted when other types of hardware tool packages are produced, the production efficiency is influenced, and the debugging and the maintenance of equipment are not facilitated, but the grabbing adjusting components are arranged on the conveying lifting support, the grabbing components are arranged on the conveying lifting support in a sliding manner through the grabbing adjusting components, and only the driving distance of the grabbing adjusting components needs to be adjusted when the grabbing adjusting components are adjusted, the adjustment is convenient, the linear rails which are oppositely arranged are arranged on the conveying lifting support, the grabbing component is arranged on the linear rails in a sliding mode through the sliding blocks and is driven to slide along the linear rails through the sliding driving component which is arranged at the other end, opposite to the connecting sliding block, of the grabbing component, an adsorption rod interval adjusting device which can adjust the relative distance between the first adsorption rod and the second adsorption rod is arranged between the conveying lifting support and the first adsorption rod and between the conveying lifting support and the second adsorption rod, the adsorption rod interval adjusting device is adjusted according to the size of a specific bulb shell during use, the distance for driving the grabbing component to move through the sliding driving component is limited, the maximum driving distance of the grabbing component is equal to the length of the bulb shell, when the adjustment is needed, the connecting bolt is firstly loosened, then the distance between the first adsorption rod and the second adsorption rod is adjusted through the sliding driving air cylinder, the connecting bolt is re-arranged after the distance between the first adsorption rod and the second, the adjusting rod fixes the distance between the first adsorption rod and the second adsorption rod, debugging and maintenance are both convenient, the distance between the first adsorption rod and the second adsorption rod is convenient to adjust, and the universality is high.
The full-automatic card inserting and plastic sucking integrated machine can be further set as follows: the foam conveying chain plate comprises a chain plate, at least two foam shell accommodating cavities arranged at intervals are arranged on the chain plate, the foam shell accommodating cavities are enclosed by a front plate, a rear plate, a left side plate and a right side plate, the front plate and the rear plate are both connected with the chain plate through width adjusting components capable of adjusting the width of the foam shell accommodating cavities, the left side plate is connected with the chain plate through length adjusting components capable of adjusting the length of the foam shell accommodating cavities or the right side plate is connected with the chain plate through length adjusting components capable of adjusting the length of the foam shell accommodating cavities or the left side plate and the right side plate are both connected with the chain plate through length adjusting components capable of adjusting the length of the foam shell accommodating cavities, the width adjusting components comprise at least two width adjusting grooves arranged at intervals on the chain plate, first connecting through holes matched with the width adjusting grooves are arranged at the positions of the front plate and the rear plate corresponding to the width adjusting grooves, and the first connecting through holes are connected with, the length adjusting assembly comprises at least one length adjusting groove formed in the vertical direction of the width adjusting groove by a chain plate, a second connecting through hole is formed in the corresponding position of the length adjusting groove on the left side plate or the right side plate or the left side plate and the right side plate, the second connecting through hole is connected to the length adjusting groove through a second connecting piece, and the first connecting piece and the second connecting piece are fastening bolts.
By adopting the technical scheme, as the size of the blister accommodating cavity on the blister conveying chain plate on the traditional hardware tool packaging machine cannot be adjusted, the blister conveying chain plate device needs to be opened again in a mode of adaptability when each model of blister is produced, and as a plurality of blister conveying chain plate devices are arranged on the hardware tool packaging machine, the replacement of the blister conveying chain plate device is carried out each time, which is not only troublesome and labor-consuming and increases the production cost, the invention arranges the blister accommodating cavity into the cavity enclosed by the front plate, the rear plate, the left side plate and the right side plate, the front plate and the rear plate are both connected with the chain plate through the length adjusting component capable of adjusting the length of the blister accommodating cavity, one or two of the left side plate and the right side plate are connected with the chain plate through the length adjusting component capable of adjusting the length of the blister accommodating cavity, so as to realize that the width and the length direction of the blister accommodating cavity of the blister conveying chain, the universality is improved, the bulb shell accommodating cavity can be suitable after being adjusted by the length and width adjusting assembly when another type of bulb shell is produced every time, the production cost is reduced, the width adjusting grooves which are arranged at intervals are arranged on the chain plate, the front plate and the rear plate are respectively provided with a first connecting through hole which is matched with the width adjusting groove at the corresponding position of the width adjusting groove, the first connecting through hole is connected with the width adjusting groove by a first connecting piece, the adjustment of the width direction of the bulb shell accommodating cavity is realized, the chain plate is provided with the length adjusting groove at the left side plate or the right side plate or both positions, the left side plate or the right side plate or both are provided with a second connecting through hole which is matched with the length adjusting groove, one or both of the left side plate and the right side plate are connected into the length adjusting groove by a second connecting piece, the adjustment of the length direction of the bulb shell accommodating cavity is realized, the link joint all sets up the length adjustment groove in left side board or right side board or both positions, all be provided with on left side board or right side board or both with the second connect the through-hole of length adjustment groove looks adaptation, through the second connecting piece with one in left side board, the right side board or both all connect in the length adjustment groove, realize bubble shell holding cavity length direction's regulation, improve the commonality of sending bubble link joint device, the cost of changing the bubble link joint of sending during having reduced production.
The full-automatic card inserting and plastic sucking integrated machine can be further set as follows: the punching device comprises a punching part and a punching traction part which is arranged behind the punching part on a rack and is used for sucking and conveying the hardware tool package subjected to hot press forming by a hot press device into the punching part for punching, wherein the punching part comprises a punching rack, a punching concave template arranged above the punching rack, and a punching positioning plate arranged on the punching concave template, a punching cylinder is arranged at the other end of the punching positioning plate, a punch is arranged on a cylinder head of the punching cylinder, a punch capable of accommodating the punch to pass through is arranged on the punching positioning plate, a punching space for accommodating the hardware tool package is formed between the punching concave template and the punching positioning plate, the punching traction part comprises a traction cross beam, a first traction adsorption rod and a second traction adsorption rod which are arranged at intervals for vacuum adsorption, a first movable seat for installing the first traction adsorption rod and a second movable seat for installing the second traction adsorption rod, The traction cross beam comprises a traction cross beam transverse plate and traction cross beam vertical plates respectively arranged at two ends of the traction cross beam transverse plate, the traction cross beam vertical plates are oppositely connected with the other end of the traction cross beam transverse plate and are provided with guide seats, ball screws penetrate through the guide seats, the traction cross beam vertical plates are connected with the ball screws through screw nuts, and the traction cross beam driving mechanism is arranged between one of the traction cross beam vertical plates and the guide seats, the traction cross beam driving mechanism comprises a traction cross beam driving motor and a guide shaft penetrating through a guide seat, a first synchronous wheel is arranged at one end of a ball screw, a second synchronous wheel is arranged at the corresponding position of a motor shaft of the traction cross beam driving motor on the first synchronous wheel, the first synchronous wheel and the second synchronous wheel synchronously rotate through a synchronous belt, the moving seat driving mechanism comprises a moving seat driving air cylinder and moving seat guide shafts, the moving seat driving air cylinder is arranged right above a moving seat mounting plate through a traction cross beam transverse plate, the moving seat guide shafts are arranged on two sides of the moving seat driving air cylinder and oppositely arranged, one end of each moving seat guide shaft is connected with the traction cross beam transverse plate, the other end of each moving seat guide shaft is connected with the moving seat mounting plate, a piston head of each moving seat driving air cylinder is connected with the moving seat mounting plate, the traction absorption rod transverse distance adjusting mechanism comprises a mounting plate linear guide rail arranged on the moving seat mounting plate, the other end that linear guide was connected relatively to first removal seat is provided with first removal seat linkage board, and the second removes the other end that linear guide was connected relatively to the seat and is provided with the second and removes a mounting panel, the second removes a mounting panel and installs and removes a promotion cylinder, removes the piston head and the first removal seat linkage board fixed connection that remove a promotion cylinder, first removal seat and second remove and still are provided with between the seat and remove a locking plate, remove a locking plate both ends and are provided with the locking elongated slot respectively, first removal seat and second remove the seat and are provided with removal seat locking hole at locking elongated slot relevant position.
By adopting the technical scheme, the hardware tool package after hot press forming in a foam conveying chain plate device of a hardware tool packaging machine assembly line is sucked by a punching traction part, and the sucked hardware tool package is arranged below the punching part for punching, the traditional hardware tool packaging machine manually collects the hot press formed hardware tool package and then conveys the hardware tool package to the punching machine for punching, not only the labor is wasted and the labor intensity of workers is increased, but also the additionally arranged punching machine occupies more workshop area and the purchasing machine needs a small purchasing cost, the punching part is arranged on the rack and behind the hot press device, the punching traction part is arranged behind the punching part, the formed hardware tool package is sucked and conveyed to the punching part for punching by the punching traction part, and the punched hardware tool package is manually collected, the production efficiency is improved, the labor intensity of workers is reduced, the problems of increased production cost and occupied workshop area caused by additional purchase of punching machines are solved, the traction cross beam is driven by the traction cross beam driving mechanism to move back and forth, the first traction adsorption rod and the second traction adsorption rod which are arranged on the first movable seat and the second movable seat are driven to move back and forth, the first traction adsorption rod and the second traction adsorption rod are driven to move up and down by the movable seat driving mechanism, the first traction adsorption rod and the second traction adsorption rod are positioned above a foam conveying chain plate which is closest to a punching device during operation by the traction cross beam driving mechanism, the first traction adsorption rod and the second traction adsorption rod move down to be close to the foam conveying chain plate to absorb hardware tool packages on the foam conveying chain plate through the first adsorption rod and the second adsorption rod by the movable seat driving mechanism, the first traction adsorption rod adsorbs one end of the hardware tool packages, the second traction adsorption rod adsorbs the other end of the hardware tool package, the adsorption rear moving seat driving mechanism and the traction cross beam driving mechanism return in sequence, the hardware tool package is moved by the first traction adsorption rod and the second traction adsorption rod to be arranged at the position of a punching component to loosen the adsorption of the hardware tool package, the hardware tool package falls into the punching device for punching, guide seats are arranged below two vertical plates of the traction cross beam, ball screws penetrate through the guide seats, the vertical plates of the traction cross beam are connected to the ball screws through screw nuts, a first synchronous wheel arranged on one ball screw is driven to rotate through a traction cross beam driving motor, so that the traction cross beam moves axially along a guide shaft to realize the back-and-forth movement of the traction cross beam, and a moving seat driving cylinder drives the traction cross beam to move axially along a guide shaft of the moving seat to realize the up-and-down movement of the first traction adsorption rod and the second traction adsorption rod, the distance between the first movable seat and the second movable seat is adjusted through the air cylinder, the distance between the first movable seat and the second movable seat is fixed through the movable seat locking plate, so that the distance between the first traction adsorption rod and the second traction adsorption rod is adjusted, the hardware tool package is transferred through the first traction adsorption rod and the second traction adsorption rod and placed in a punching space, the punching cylinder drives the punch to punch a hole through the punching positioning plate, the hardware tool package is taken out after the punching is completed, the hole punching process is not required to be additionally performed, the process is simplified, the labor intensity is reduced, and the production cost is saved.
The full-automatic card inserting and plastic sucking integrated machine can be further set as follows: the output device is a conveying table which is arranged below the punching device and is vertical to the rack in the conveying direction.
Adopt above-mentioned technical scheme, the hardware and tools packing after will punching a hole is direct through setting up the transport platform output in punching device below, sets up at transport platform direction of delivery and collects blue just can collect the hardware and tools packing, convenient and practical.
The invention has the beneficial effects that: 1. the edge of the blister shell is folded and attached to the paper card, and the edge of the blister shell is folded to form an unsharpened edge, so that the problem that the two edges of the blister shell and the card paper are sharp and easily hurt hands is solved, and other materials are not additionally added; 2. the forming device has high transmission efficiency, occupies less internal space of the frame, has simple transmission parts and is convenient to install and maintain; 3. the punching device has high transmission efficiency, the punching die is convenient to replace, and the replacement cost is low; 4. the distance between the first adsorption rod and the second adsorption rod of the bubble-absorbing plate-dividing device is convenient to adjust, and the universality is high; 5. the universality of the foam conveying chain plate device is improved, and the cost for replacing the foam conveying chain plate during production is reduced; 6. the punching device is directly integrated on the frame, and an additional hole opening process is not needed, so that the process is simplified, the labor intensity is reduced, and the production cost is saved; 7. the hardware tool after shaping is packed and is collected conveniently, uses manpower sparingly the cost.
The present invention will be described in further detail with reference to the accompanying drawings and examples.
Drawings
Fig. 1 is a perspective view of an embodiment of the present invention.
Fig. 2 is a schematic perspective view of a hemming device according to an embodiment of the present invention.
Fig. 3 is a perspective view of the hemming hand apparatus of the embodiment of the present invention 1.
Fig. 4 is a perspective view of the hemming hand apparatus of the embodiment of the present invention, schematically illustrating fig. 2.
Fig. 5 is a schematic perspective view of a molding apparatus according to an embodiment of the present invention.
Fig. 6 is an enlarged schematic view of the molding device according to the embodiment of the present invention after the driving part, the interlocking part, and the transmission part are assembled.
Fig. 7 is a perspective view of a punching device according to an embodiment of the present invention.
Fig. 8 is a perspective view of a bubble-absorbing plate-separating device according to an embodiment of the invention.
Fig. 9 is a schematic perspective view of a bubble conveying chain plate according to an embodiment of the invention.
Fig. 10 is a schematic perspective view of a punching apparatus according to an embodiment of the present invention.
Fig. 11 is a schematic perspective view of a punching traction part according to an embodiment of the present invention.
Detailed Description
Referring to FIG. 1: full-automatic plug-in card plastic uptake all-in-one, including frame 1, 1 middle part of frame is equipped with the conveyer belt 2 that is used for carrying the plastic uptake shell, be equipped with a plurality of intervals on the conveyer belt and set up the bubble chain board 8 that send that is used for holding the plastic uptake shell, frame 1 has set gradually the blowing device 13 that is used for placing the PVC membrane at bubble chain board 8 front end, a heating device 10 for heating the PVC membrane, the PVC membrane after will heating carries out plastic uptake fashioned forming's forming device 6, carry out towed draw gear 4 to the plastic uptake shell after the plastic uptake shaping, set up and carry out the waste material device 5 that collects with the PVC membrane remaining part behind the plastic uptake shaping bubble shell in draw gear 4 top, set up and carry out die-cut device 3 that cuts continuous PVC bubble shell behind draw gear 4, be close to being provided with between bubble chain board 8 and the die-cut device 3 and inhaling bubble and dividing the version device 7, one of them is provided with directly over the bubble mould 8 and is used for providing the paper card and puts The paper card feeding device is characterized in that the area of a paper card on the paper card feeding device is smaller than that of the plastic suction shell, a folding device 9 which sucks the plastic suction shell on which the paper card is placed, folds the edge of the plastic suction shell towards the paper card and abuts against the paper card is arranged behind the paper card feeding device, a hot pressing device 14 which carries out hot pressing on the folded plastic suction shell is arranged behind the folding device 9 on the frame 1, a punching device 11 which punches the plastic suction shell after passing through the hot pressing device 14 is arranged behind the hot pressing device 14, and an output device 12 which sends the punched plastic suction shell out of the frame is arranged below the punching device 11;
referring to fig. 2-4: the folding device comprises a folding mounting frame 901, a folding pressing plate 902 used for pressing a paper card and a plastic suction shell on a foam feeding chain plate device is connected to the folding mounting frame 901, the area of the folding pressing plate 902 is smaller than that of the plastic suction shell, a downward driving mechanism for driving the folding device which is integrally downward is arranged on the folding mounting frame 901, folding hand devices which are arranged at intervals with the folding pressing plate 902 are respectively arranged on three adjacent sides of the folding pressing plate 902 of the folding mounting frame 901, the downward driving mechanism for the folding device comprises a downward driving cylinder 903 for the folding device arranged on the folding mounting frame 901 and a folding linkage plate 904, the folding linkage plate 904 is connected with the folding pressing plate 902 and the folding hand devices, the folding pressing plate 902 is connected to the folding mounting frame 901 through a downward driving mechanism, and the folding hand devices comprise a folding mounting plate 905 and a folding plate 906, a folding plate 906, A heating plate 907 arranged above the flanging plate 906, a flanging plate first driving mechanism for driving the flanging plate 906 to be close to the bubble conveying chain plate device, a flanging plate second driving mechanism for lifting the flanging plate 906 after the flanging plate first driving mechanism drives the flanging plate 906 to be close to the bubble conveying chain plate device, a flanging plate third driving mechanism for driving the heating plate 907 to be close to the bubble conveying chain plate device, a downward pressing driving mechanism comprises a downward pressing driving cylinder 908, one end of the downward pressing driving cylinder 908 is provided with a downward pressing driving linkage plate which is crisscross arranged with the flanging linkage plate 904, the other end of the downward pressing driving linkage plate 909 is contacted with the flanging linkage plate 904, the other end of the downward pressing driving cylinder 908, which is oppositely provided with the downward pressing driving linkage plate 909, is connected with a flanging pressing plate 902, the flanging hand device further comprises a flanging top plate 910, two sides of the flanging mounting plate 905, which is close to one end of the flanging top plate 905, are provided with flanging side plates 911 arranged in parallel with the flanging top plate 910, the hemming top plate 910 is connected with a hemming bottom plate 913 through a hemming upright post 912 which is oppositely arranged, the first driving mechanism of the hemming plate comprises a hemming front plate 914 which is arranged at the front end of the hemming top plate 910 and a hemming linear rail 915 which is arranged on the hemming side plate 911, the hemming top plate 910 is connected with the hemming linear rail 915 through a hemming top plate linkage mechanism, the hemming top plate linkage mechanism comprises two hemming guide posts 916 which are arranged on the corresponding positions of the hemming top plate 910 on the hemming linear rail 915, a guide post linkage plate 917 is arranged at the other end, opposite to the hemming top plate 910, of the hemming guide post 916, the guide post linkage plate 917 is connected with the hemming linear rail 915 through a slider, a hemming first cylinder 918 is arranged on the hemming top plate 910, the second driving mechanism of the hemming plate is a hemming second cylinder 9141 arranged on the hemming front plate 914, the third driving mechanism of the hemming plate is a hemming third cylinder 9131 arranged at the other, a third cylinder through groove 9051 for a cylinder rod of the flanging third cylinder 9131 to pass through is formed in the flanging mounting plate 905 at a position corresponding to the flanging third cylinder 9131, and the cylinder rod of the flanging third cylinder 9131 passes through the third cylinder through groove 9051 and is connected with the heating plate 907;
referring to fig. 5-6: the forming device comprises a die holder upper plate 601 and a die holder lower plate 602 which are oppositely arranged, the die holder upper plate 601 and the die holder lower plate 602 are connected through four oppositely arranged guide posts 603, an upper forming die 604 and an upper die driving cylinder 605 for driving the upper forming die 604 to reciprocate along the guide posts 603 are arranged on the die holder upper plate 601, a lower forming die 606 is arranged on one side of the guide posts 603 close to the die holder lower plate 602, a lower die driving mechanism for driving the lower forming die 606 to reciprocate along the guide posts 603 is arranged at one end of the die holder lower plate 602 far away from the lower forming die 606, the lower die driving mechanism comprises a mounting seat 607, the mounting seat 607 is fixedly connected with the lower forming die 606 through a connecting plate 608 which is oppositely arranged, a driving part which is arranged in parallel to the lower forming die 606 is arranged on the lower forming die 606, a linkage part which is vertically arranged with the lower forming die 606 is arranged on the lower forming die 606, and a transmission part which The driving part comprises first connecting rods 609 which are oppositely arranged, one ends of the two first connecting rods 609 are connected through a first rotating shaft 610, the other ends of the two first connecting rods 609 are connected through a second rotating shaft 611, one end of each first connecting rod 609 is fixedly connected with the driving part through the first rotating shaft 610, the other end of each first connecting rod 609 is connected with a limiting device arranged on the mounting seat 607 through the second rotating shaft 611, the second connecting rod 611 is further connected onto the first rotating shaft 610, the other end of each second connecting rod 611 is movably connected with the linkage part, the limiting device is a first connecting rod limiting seat 612 fixedly arranged on the mounting seat 607, the first connecting rod limiting seat 612 comprises a bottom plate 6121 connected with the mounting seat 607 and side plates 6122 which are oppositely arranged on the bottom plate 6121, a gap capable of accommodating the first connecting rod 609 is arranged between the gaps through the second rotating shaft 611, the driving part comprises a driving air cylinder 613, the mounting seat 607 is provided with an air cylinder connecting seat 614, the driving air cylinder 613 is connected to the air cylinder connecting seat 614, the first rotating shaft 610 penetrates through the end part of the piston rod 6131 of the driving air cylinder 613, the linkage part is a third connecting rod 615, one end of the third connecting rod 615 is fixedly connected with the lower molding die 606, and the other end of the third connecting rod 615 is movably connected with the other end of the second connecting rod 611 opposite to the first rotating shaft 610 through a third rotating shaft 616;
referring to FIG. 7: the punching device comprises an upper punching die 301 and a lower punching die 302 arranged opposite to the upper punching die 301, the upper punching die 301 is connected with the lower punching die 302 through four punching guide posts 303, a punching mechanism is arranged on the guide posts 303 between the upper punching die 301 and the lower punching die 302, one end of the lower punching die 302 far away from the upper punching die 301 is provided with a driving mechanism for driving the punching mechanism to reciprocate along the punching guide posts 303, one side of the upper punching die 301 is provided with a die feeding round shaft 304, the driving mechanism is a pressure cylinder, the pressure cylinder comprises a pressure booster 305 and a cylinder 306 connected with the pressure booster 305, a piston rod 3061 of the cylinder 306 is fixedly connected with the punching mechanism, the punching mechanism comprises a punching bottom plate 307 fixedly connected with the lower punching die 302, a punching fixing plate 308 is arranged on the punching bottom plate 307, and the other end of the punching fixing plate 308, which is opposite to, an opening is formed in one end, facing the die-cutting rule mounting plate 309, of the die-cutting fixing plate 308 to form a containing cavity 3081, the die-cutting rule mounting plate 309 is provided with at least one die-cutting groove 3091, the die-cutting rule mounting plate 309 is provided with a laser cutter 310 on the periphery of the die-cutting groove 3091, the containing cavity 3081 is provided with a laser generator at a position corresponding to the die-cutting groove 3091, the die-cutting fixing plate 308 is provided with four threaded holes, the die-cutting rule mounting plate 309 is provided with a through hole 3092 at the position;
referring to FIG. 8: the bubble absorbing and plate separating device comprises a conveying beam 701, a conveying moving seat 702 arranged on the conveying beam 701 in a sliding manner, a conveying driving assembly 703 used for driving the conveying moving seat 702 to move, a conveying lifting support 704 arranged on the conveying moving seat 702 in a lifting manner, a lifting driving member 705 used for driving the conveying lifting support 704 to move up and down, and a grabbing assembly arranged on the conveying lifting support 704, wherein the grabbing assembly comprises a first adsorption rod 7041 and a second adsorption rod 7042 which are arranged at intervals and used for vacuum adsorption, the conveying lifting support 704 is provided with a grabbing adjusting assembly capable of adjusting the relative position between the first adsorption rod 7041 and the second adsorption rod 7042, the first adsorption rod 7041 and the second adsorption rod 7042 are arranged on the conveying lifting support 704 in a sliding manner through the grabbing adjusting assembly, the grabbing adjusting assembly comprises a linear rail 7043 arranged on the conveying lifting support 704 correspondingly and a driving member for driving the grabbing assembly to slide along the linear rail 7043, the grabbing component is connected with the linear track 7043 through a sliding block 7044, the sliding driving component is arranged at the other end of the grabbing component, which is opposite to the connecting sliding block 7044, a limiting device which limits the distance between the first adsorption rod 7041 and the second adsorption rod 7042 after the sliding driving component adjusts the distance is arranged between the conveying lifting support 704 and the first adsorption rod 7041 and the second adsorption rod 7042, the sliding driving component is a sliding driving cylinder 7045, a sliding driving cylinder mounting seat 70411 for fixing the sliding driving cylinder 7045 is arranged on the first adsorption rod 7041, a connecting block 70421 is arranged on the second adsorption rod 7042, a piston rod 70451 of the sliding driving cylinder 7045 is fixedly connected with the connecting block 70421, the limiting device comprises a limiting rod 7046, a limiting rod connecting block 7047 is arranged in the middle of the limiting rod 7046 on the conveying lifting support 704, the limiting rod 7046 is fixedly connected with the limiting rod connecting block 7047, two ends of the limiting rod 7046 are provided with adjusting grooves 70461, the two ends of the limiting rod 7046 are respectively connected with the first adsorption rod 7041 and the second adsorption rod 7042 through the adjusting groove 70461, the first adsorption rod 7041 and the second adsorption rod 7042 are both provided with a connecting hole 70462 matched with the adjusting groove 70461 in the adjusting groove 70461, the connecting hole 70462 is connected with the adjusting groove 70461 through a connecting bolt, and the connecting hole 70462 is a threaded hole.
Referring to fig. 9: the bubble conveying chain plate comprises a chain plate 801, at least two bubble shell accommodating cavities 802 arranged at intervals are arranged on the chain plate 801, each bubble shell accommodating cavity 802 is defined by a front plate 8021, a rear plate 8022, a left side plate 8023 and a right side plate 8024, the front plate 8021 and the rear plate 8022 are both connected with the chain plate 801 through a width adjusting assembly capable of adjusting the width of the bubble shell accommodating cavity 802, the left side plate 8023 is connected with the chain plate 801 through a length adjusting assembly capable of adjusting the length of the bubble shell accommodating cavity 802, the width adjusting assembly comprises two width adjusting grooves 803 arranged at intervals on the chain plate 801, the front plate 801 and the rear plate 802 are both provided with a first connecting through hole 8011 matched with the width adjusting groove 803 at the position corresponding to the width adjusting grooves 803, the first connecting hole 8011 is connected with the width adjusting groove 803 through a first connecting piece, the length adjusting assembly comprises at least one length adjusting groove 804 arranged in the direction perpendicular to the width adjusting groove 803 by the chain plate, the left side plate 8023 is provided with a second connecting through hole 8012 at a position corresponding to the length adjusting groove 804, the second connecting through hole 8012 is connected to the length adjusting groove 804 through a second connecting piece, and the first connecting piece and the second connecting piece are both fastening bolts;
referring to fig. 10-11: the punching device comprises a punching part 100 arranged at the rear part of a hot pressing device on a frame 1, a punching traction part 110 which is arranged at the rear part of the punching part 100 on the frame 1 and is used for sucking and conveying hardware tool packages after hot pressing forming of the hot pressing device into the punching part 100 for punching, the punching part 100 comprises a punching frame 101, a punching concave template 102 arranged above the punching frame 101, a punching positioning plate 103 arranged on the punching concave template 102, a punching cylinder 104 arranged at the other end of the punching positioning plate 103, a punch 105 arranged on the cylinder head of the punching cylinder 104, a punching hole capable of accommodating the punch 105 to pass through arranged on the punching positioning plate 103, a punching space 106 for accommodating the hardware tool packages formed between the punching concave template 102 and the punching positioning plate 103, and the punching traction part comprises a traction cross beam 111, a first traction adsorption rod 112 and a second traction adsorption rod 113 which are arranged at intervals and are used for vacuum adsorption, A first moving seat 1121 for installing a first traction absorption rod 112, a second moving seat 1131 for installing a second traction absorption rod 113, a moving seat mounting plate 114 for installing the first moving seat 1121 and the second moving seat 1131, a moving seat driving mechanism for driving the moving seat mounting plate 114 to move up and down, a traction absorption rod transverse distance adjusting mechanism arranged between the first moving seat 1121 and the second moving seat 1131 and used for adjusting the transverse distance between the first moving seat 1121 and the second moving seat 1131, a traction cross beam driving mechanism arranged on one side of a traction cross beam 111 and used for driving the traction cross beam 111 to move back and forth along a rack, wherein the traction cross beam 111 comprises a traction cross beam transverse plate 1111 and traction cross beam risers 1112 arranged at two end parts of the traction cross beam transverse plate 1111 respectively, a guide seat 1113 is arranged at the other end of the traction cross beam vertical plate 1112 which is connected with the traction cross beam transverse plate 1111, and a ball screw rod 1114 is arranged in the guide seat 1113 in a penetrating, the traction crossbeam vertical plate 1112 is connected with the ball screw 1114 through a screw nut, the traction crossbeam driving mechanism is arranged between one traction crossbeam vertical plate 1112 and the guide seat 1113, the traction crossbeam driving mechanism comprises a traction crossbeam driving motor 1115 and a guide shaft 1116 penetrating the guide seat 1113, one end of the ball screw 1114 is provided with a first synchronizing wheel 1117, a motor shaft of the traction crossbeam driving motor 1115 is provided with a second synchronizing wheel at the corresponding position of the first synchronizing wheel 1117, the first synchronizing wheel 1117 and the second synchronizing wheel synchronously rotate through a synchronous belt 1118, the movable seat driving mechanism comprises a movable seat driving cylinder 115 with a traction crossbeam transverse plate 1111 arranged right above the movable seat mounting plate 114 and a movable seat guide shaft 116 arranged at two sides of the movable seat driving cylinder 115 oppositely, one end of the movable seat guide shaft 116 is connected with the traction crossbeam transverse plate 1111 and the other end is connected with the movable seat mounting plate 114, the piston head of the movable seat driving cylinder 115 is connected with the movable seat mounting plate 114, the traction absorption rod lateral distance adjusting mechanism comprises a mounting plate linear guide 1141 arranged on the movable seat mounting plate 114, the first movable seat 1121 and the second movable seat 1131 are both connected to the mounting plate linear guide 1141 through sliders, a first movable seat linkage plate 1142 is arranged at the other end of the first movable seat 1121, which is opposite to the mounting plate linear guide 1141, a second movable seat mounting plate 1143 is arranged at the other end of the second movable seat 1131, which is opposite to the mounting plate linear guide 1141, a movable seat pushing cylinder 1144 is arranged on the second movable seat mounting plate 1143, the piston head of the movable seat pushing cylinder 1144 is fixedly connected with the first movable seat linkage plate 1142, a movable seat locking plate 1145 is further arranged between the first movable seat 1141 and the second movable seat 1131, locking slots 11451 are respectively arranged at two ends of the movable seat locking plate 1145, and a movable seat locking hole 11452 is arranged at the corresponding position of the first movable seat 1121 and the second movable seat 1131.
Claims (10)
1. Full-automatic plug-in card plastic uptake all-in-one, which comprises a frame, the frame middle part is equipped with the conveyer belt that is used for carrying the plastic uptake shell, be equipped with the bubble link joint that send that a plurality of intervals set up the shell that is used for the holding plastic uptake shell on the conveyer belt, the frame has set gradually the blowing device that is used for placing the PVC membrane at sending bubble link joint front end, a heating device for heating the PVC membrane, the PVC membrane after will heating carries out plastic uptake fashioned forming's forming device, carry out towed draw gear to the plastic uptake shell after the plastic uptake shaping, set up the waste material collecting device that all the other parts of PVC membrane after will plastic uptake shaping formation bubble shell in the draw gear top, set up and carry out die-cut device with continuous PVC bubble shell in the draw gear rear, be provided with between the bubble link joint that send that: the automatic paper card feeding device is characterized in that a paper card feeding device used for providing paper cards and placing the paper cards to the center of a plastic suction shell on the foam feeding chain plate is arranged right above one of the foam feeding chain plate, the area of the paper cards on the paper card feeding device is smaller than that of the plastic suction shell, a hot pressing device used for sucking the plastic suction shell after the paper cards are placed, folding the edge of the plastic suction shell towards the paper cards and abutting against the edge folding device on the paper cards is arranged behind the paper card feeding device, the frame is provided with a hot pressing device used for hot pressing the plastic suction shell after edge folding behind the hot pressing device, a punching device used for punching the plastic suction shell after the hot pressing device is arranged behind the hot pressing device, and an output device used for sending the plastic suction shell after punching out of the frame is arranged.
2. The fully automatic card insertion and plastic uptake all-in-one machine of claim 1, wherein: the folding device comprises a folding mounting frame, a folding pressing plate used for pressing the paper card and the plastic suction shell on the foam feeding chain plate device is connected to the folding mounting frame, the area of the folding pressing plate is smaller than that of the plastic suction shell, a downward driving mechanism for driving the folding device which drives the folding device to move downward is arranged on the folding mounting frame, and folding hand devices which are arranged at intervals with the folding pressing plate are arranged on the adjacent three sides of the folding pressing plate respectively.
3. The fully automatic card insertion and plastic uptake all-in-one machine of claim 2, wherein: the downward driving mechanism of the flanging device comprises a downward driving cylinder of the flanging device and a flanging linkage plate, the downward driving cylinder of the flanging device and the flanging linkage plate are arranged on the flanging mounting frame, the flanging linkage plate is connected with the flanging pressing plate and the flanging hand device, the flanging pressing plate is connected to the flanging mounting frame through a downward pressing driving mechanism, the flanging hand device comprises a flanging mounting plate and a flanging plate arranged on the flanging mounting plate, a first driving mechanism of the flanging plate is arranged above the flanging plate and is used for driving the flanging plate to be close to the bubble conveying chain plate device, a second driving mechanism of the flanging plate is arranged on the flanging mounting plate and is used for driving the flanging plate to be close to the bubble conveying chain plate device and then lifting the flanging plate, and a third driving mechanism of the flanging plate is used for driving the heating plate to be close to the bubble conveying chain.
4. The fully automatic card insertion and plastic uptake all-in-one machine of claim 3, wherein: the lower pressing driving mechanism comprises a lower pressing driving cylinder, one end of the lower pressing driving cylinder is provided with a lower pressing driving linkage plate which is in cross staggered arrangement with the flanging linkage plate, the other end of the lower pressing driving linkage plate is in contact with the flanging linkage plate, the lower pressing driving cylinder is oppositely provided with the other end of the lower pressing driving linkage plate which is connected with the flanging pressing plate, the flanging hand device also comprises a flanging top plate, two sides of the flanging installation plate, which are close to one end of the flanging top plate, are provided with flanging side plates which are arranged in parallel with the flanging top plate, the flanging top plate is connected with a flanging bottom plate through flanging stand columns which are oppositely arranged, the first driving mechanism of the flanging plate comprises a flanging front plate arranged at the front end of the flanging top plate and a flanging linear track arranged on the flanging side plate, the flanging top plate is connected with the flanging linear track through a flanging top plate linkage mechanism, the flanging top plate linkage mechanism comprises two flanging guide pillars arranged, the other end of the flanging top plate, which is relatively connected with the flanging guide pillar, is provided with a guide pillar linkage plate, the guide pillar linkage plate is connected to a flanging linear track through a slider, a flanging first cylinder is arranged on the flanging top plate, a flanging second driving mechanism is a flanging second cylinder arranged on the flanging front plate, a flanging third driving mechanism is a flanging third cylinder arranged on the flanging bottom plate and relatively connected with the other end of the flanging guide pillar, a third cylinder through groove for a cylinder rod of the flanging third cylinder to pass through is formed in the corresponding position of the flanging third cylinder, and the cylinder rod of the flanging third cylinder passes through the third cylinder through groove and is connected with the heating plate.
5. The fully automatic card insertion and plastic uptake all-in-one machine of claim 1, wherein: the forming device comprises a die holder upper plate and a die holder lower plate which are oppositely arranged, the die holder upper plate and the die holder lower plate are connected through four guide pillars which are oppositely arranged, an upper forming die and an upper die driving cylinder which drives the upper forming die to reciprocate along the guide pillars are arranged on the die holder upper plate, a lower forming die is arranged on one side of each guide pillar, which is close to the die holder lower plate, a lower die driving mechanism which is used for driving the lower forming die to reciprocate along the guide pillars is arranged at one end, away from the lower forming die, of the, the lower die driving mechanism comprises a mounting seat which is fixedly connected with the lower forming die through a connecting plate which is oppositely arranged, the mounting seat is provided with a driving part which is arranged in parallel with the lower forming die, the lower forming die is provided with a linkage part which is vertically arranged with the lower forming die, and the mounting seat is provided with a transmission part which converts the horizontal driving force of the driving part into the vertical driving force and then drives the linkage part to drive the lower forming die to reciprocate along the guide pillar.
6. The fully automatic card insertion and plastic uptake all-in-one machine of claim 1, wherein: the punching device comprises an upper punching die and a lower punching die arranged opposite to the upper punching die, the upper punching die is connected with the lower punching die through four punching guide posts, a punching mechanism is arranged on the guide posts between the upper punching die and the lower punching die, one end of the lower punching die, which is far away from the upper punching die, is provided with a driving mechanism for driving the punching mechanism to reciprocate along the punching guide posts, one side of the upper punching die is provided with a die-feeding circular shaft, the driving mechanism is a pressure cylinder, the pressure cylinder comprises a pressure booster and a cylinder connected with the pressure booster, a piston rod of the cylinder is fixedly connected with the punching mechanism, the punching mechanism comprises a punching bottom plate fixedly connected with the lower punching die, a punching fixing plate is arranged on the punching bottom plate, the other end, which is opposite to the punching bottom plate, is connected with a die-cutting knife, at least one punching groove has been seted up to the die-cutting rule mounting panel, and the die-cutting rule mounting panel is provided with laser cutter in punching groove periphery, and the holding chamber is provided with laser generator in punching groove corresponding position, has seted up four screw holes on the punching fixed plate, the through-hole has been seted up at the screw hole position to the die-cutting rule mounting panel, the die-cutting rule mounting panel passes through bolted connection in the screw hole.
7. The fully automatic card insertion and plastic uptake all-in-one machine of claim 1, wherein: the bubble absorbing and plate separating device comprises a conveying beam, a conveying moving seat arranged on the conveying beam in a sliding manner, a conveying driving assembly used for driving the conveying moving seat to move, a conveying lifting support arranged on the conveying moving seat in a lifting manner, a lifting driving piece used for driving the conveying lifting support to move up and down, and a grabbing assembly arranged on the conveying lifting support, wherein the grabbing assembly comprises a first adsorption rod and a second adsorption rod which are arranged at intervals and used for vacuum adsorption, a grabbing adjusting assembly capable of adjusting the relative position between the first adsorption rod and the second adsorption rod is arranged on the conveying lifting support, the grabbing assembly is arranged on the conveying lifting support in a sliding manner through the grabbing adjusting assembly, the grabbing adjusting assembly comprises a linear rail arranged on the conveying lifting support correspondingly and a sliding driving piece used for driving the grabbing assembly to slide along the linear rail, and the grabbing assembly is connected to the linear rail through a sliding block, the sliding driving piece is arranged at the other end of the grabbing component opposite to the connecting sliding block, a limiting device for limiting the distance between the first adsorption rod and the second adsorption rod after the distance is adjusted by the sliding driving piece is arranged between the conveying lifting support and the first adsorption rod and between the conveying lifting support and the second adsorption rod, the sliding driving piece is a sliding driving cylinder, a sliding driving cylinder mounting seat for fixing the sliding driving cylinder is arranged on the first adsorption rod, a connecting block is arranged on the second adsorption rod, a piston rod of the sliding driving cylinder is fixedly connected with the connecting block, the limiting device comprises a limiting rod, a limiting rod connecting block is arranged in the middle of the limiting rod on the conveying lifting support, the limiting rod is fixedly connected with the limiting rod connecting block, adjusting grooves are arranged at two ends of the limiting rod, and two ends of the limiting rod are respectively connected with the first adsorption rod and the second adsorption rod through the adjusting grooves, the first adsorption rod and the second adsorption rod are both provided with connecting holes matched with the adjusting grooves in the adjusting grooves, and the connecting holes are connected with the adjusting grooves through connecting bolts.
8. The fully automatic card insertion and plastic uptake all-in-one machine of claim 1, wherein: the foam conveying chain plate comprises a chain plate, at least two foam shell accommodating cavities arranged at intervals are arranged on the chain plate, the foam shell accommodating cavities are enclosed by a front plate, a rear plate, a left side plate and a right side plate, the front plate and the rear plate are both connected with the chain plate through width adjusting components capable of adjusting the width of the foam shell accommodating cavities, the left side plate is connected with the chain plate through length adjusting components capable of adjusting the length of the foam shell accommodating cavities or the right side plate is connected with the chain plate through length adjusting components capable of adjusting the length of the foam shell accommodating cavities or the left side plate and the right side plate are both connected with the chain plate through length adjusting components capable of adjusting the length of the foam shell accommodating cavities, the width adjusting components comprise at least two width adjusting grooves arranged at intervals on the chain plate, first connecting through holes matched with the width adjusting grooves are arranged at the positions of the front plate and the rear plate corresponding to the width adjusting grooves, and the first connecting through holes are connected with, the length adjusting assembly comprises at least one length adjusting groove formed in the vertical direction of the width adjusting groove by a chain plate, a second connecting through hole is formed in the corresponding position of the length adjusting groove on the left side plate or the right side plate or the left side plate and the right side plate, the second connecting through hole is connected to the length adjusting groove through a second connecting piece, and the first connecting piece and the second connecting piece are fastening bolts.
9. The fully automatic card insertion and plastic uptake all-in-one machine of claim 1, wherein: the punching device comprises a punching part and a punching traction part which is arranged behind the punching part on a rack and is used for sucking and conveying the hardware tool package subjected to hot press forming by a hot press device into the punching part for punching, wherein the punching part comprises a punching rack, a punching concave template arranged above the punching rack, and a punching positioning plate arranged on the punching concave template, a punching cylinder is arranged at the other end of the punching positioning plate, a punch is arranged on a cylinder head of the punching cylinder, a punch capable of accommodating the punch to pass through is arranged on the punching positioning plate, a punching space for accommodating the hardware tool package is formed between the punching concave template and the punching positioning plate, the punching traction part comprises a traction cross beam, a first traction adsorption rod and a second traction adsorption rod which are arranged at intervals for vacuum adsorption, a first movable seat for installing the first traction adsorption rod and a second movable seat for installing the second traction adsorption rod, The traction cross beam comprises a traction cross beam transverse plate and traction cross beam vertical plates respectively arranged at two ends of the traction cross beam transverse plate, the traction cross beam vertical plates are oppositely connected with the other end of the traction cross beam transverse plate and are provided with guide seats, ball screws penetrate through the guide seats, the traction cross beam vertical plates are connected with the ball screws through screw nuts, and the traction cross beam driving mechanism is arranged between one of the traction cross beam vertical plates and the guide seats, the traction cross beam driving mechanism comprises a traction cross beam driving motor and a guide shaft penetrating through a guide seat, a first synchronous wheel is arranged at one end of a ball screw, a second synchronous wheel is arranged at the corresponding position of a motor shaft of the traction cross beam driving motor on the first synchronous wheel, the first synchronous wheel and the second synchronous wheel synchronously rotate through a synchronous belt, the moving seat driving mechanism comprises a moving seat driving air cylinder and moving seat guide shafts, the moving seat driving air cylinder is arranged right above a moving seat mounting plate through a traction cross beam transverse plate, the moving seat guide shafts are arranged on two sides of the moving seat driving air cylinder and oppositely arranged, one end of each moving seat guide shaft is connected with the traction cross beam transverse plate, the other end of each moving seat guide shaft is connected with the moving seat mounting plate, a piston head of each moving seat driving air cylinder is connected with the moving seat mounting plate, the traction absorption rod transverse distance adjusting mechanism comprises a mounting plate linear guide rail arranged on the moving seat mounting plate, the other end that linear guide was connected relatively to first removal seat is provided with first removal seat linkage board, and the second removes the other end that linear guide was connected relatively to the seat and is provided with the second and removes a mounting panel, the second removes a mounting panel and installs and removes a promotion cylinder, removes the piston head and the first removal seat linkage board fixed connection that remove a promotion cylinder, first removal seat and second remove and still are provided with between the seat and remove a locking plate, remove a locking plate both ends and are provided with the locking elongated slot respectively, first removal seat and second remove the seat and are provided with removal seat locking hole at locking elongated slot relevant position.
10. The fully automatic card insertion and plastic uptake all-in-one machine of claim 9, wherein: the output device is a conveying table which is arranged below the punching device and is vertical to the rack in the conveying direction.
Priority Applications (1)
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CN202010027624.8A CN111196027A (en) | 2020-01-10 | 2020-01-10 | Full-automatic card-inserting and plastic-sucking integrated machine |
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CN202010027624.8A CN111196027A (en) | 2020-01-10 | 2020-01-10 | Full-automatic card-inserting and plastic-sucking integrated machine |
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CN202010027624.8A Pending CN111196027A (en) | 2020-01-10 | 2020-01-10 | Full-automatic card-inserting and plastic-sucking integrated machine |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN112193476A (en) * | 2020-09-17 | 2021-01-08 | 范驰 | Connecting device and connecting method for blister packaging line |
-
2020
- 2020-01-10 CN CN202010027624.8A patent/CN111196027A/en active Pending
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN112193476A (en) * | 2020-09-17 | 2021-01-08 | 范驰 | Connecting device and connecting method for blister packaging line |
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