CN217292610U - Automatic equipment for producing chest card - Google Patents

Abstract

The utility model discloses an automatic device for producing chest cards, which comprises a frame, wherein a sheet material feeding mechanism is arranged on the frame and used for leveling and moving sheets to a preset position; the slicing and pulling mechanism moves the leveled sheet to a slicing position at a preset position and moves the sliced crosscut material to a first transfer position; the release paper placing mechanism is used for cutting the release paper on the material placing disc and then moving the cut release paper to the transverse cutting material at the second transfer position; wherein, put from type paper mechanism and include the bottom plate, from type paper feeding subassembly, from type paper centre gripping subassembly and from type paper section subassembly, the bottom plate slides and sets up in the frame, sets up on the bottom plate from the activity of type paper centre gripping subassembly, all is in the coplanar from type paper section subassembly, from type paper centre gripping subassembly and with the pay-off end that corresponds from type paper feeding subassembly. The utility model provides a compact structure collects material loading, production preparation, integrative setting of unloading, and the automation equipment for producing chest card that degree of automation and production efficiency improve by a wide margin.

Description

Automatic equipment for producing chest card

Technical Field

The utility model belongs to the technical field of nonstandard automation equipment and specifically relates to an automation equipment for producing chest card.

Background

The chest card is also called a chest card, a number plate, a carving card, a work number plate, a badge, a chest number plate and the like, is a card for showing the working identity in front of the chest, is also called a number or introduction small label which is hung or buckled on the left side of a jacket in series, and plays a role in introduction by being mostly worn on western-style clothes, formal clothes and western-style clothes. Chest card usually comprises two outermost protective housings and sets up in the inside certificate card of two protective housings, and in chest card assembling process, often need use the certificate card production mechanism that is used for providing certificate card unloading action.

The chest card equipment among the prior art only is provided with solitary production mechanism such as material loading, upset, material suction, unloading, does not have the chest card production preparation equipment of integrative setting, leads to degree of automation low, and the step that needs manual assistance is more, causes efficiency and the accuracy of material loading, production preparation, unloading to be lower from this, influences the packaging efficiency and the quality of chest card.

Disclosure of Invention

The utility model aims at solving the not enough and a compact structure who designs of above-mentioned technique, collect material loading, production preparation, the integrative setting of unloading, the automation equipment for producing the chest card that degree of automation and production efficiency improve by a wide margin.

The utility model relates to an automation equipment for producing chest card, which comprises a frame, be provided with in the frame:

the sheet material feeding mechanism is used for leveling the sheet material and moving the sheet material to a preset position;

the slicing and pulling mechanism moves the leveled sheet to a slicing position at a preset position and moves the sliced crosscut material to a first transfer position;

a release paper placing mechanism cuts the release paper and moves the cut release paper to the transverse cutting material at the second transfer position;

the first transfer mechanism traverses above the slicing and pulling mechanism and the release paper releasing mechanism and moves the crosscut materials from a first transfer position to a second transfer position; wherein,

put from type paper mechanism include the bottom plate, from type paper feed subassembly, from type paper centre gripping subassembly and from type paper section subassembly, the bottom plate slide set up in the frame, from type paper centre gripping subassembly activity set up in on the bottom plate, from type paper feed subassembly with from type paper section subassembly set up in bottom plate one side, from type paper section subassembly activity set up in from type paper feed subassembly with from between the type paper centre gripping subassembly, from type paper section subassembly from type paper centre gripping subassembly and with the pay-off end that corresponds from type paper feed subassembly all is in the coplanar.

Further, from type paper material loading subassembly including from type paper blowing dish, assembly wheel structure and regulation structure, from type paper delivery end edge on the type paper blowing dish the assembly wheel structure is changed into for the horizontal direction removal and runs through by the vertical direction the regulation structure.

Further, the clamping assembly comprises a first clamping arm and a second clamping arm, and the linear displacement position of the first clamping arm relative to the release paper to be sheared comprises a first clamping position when the first clamping arm is clamped with the release paper and a second clamping position when the first clamping arm is separated from the release paper (in two cases); the second clamping arm is to be sheared from the slip position of type paper relatively and includes the second clamping arm with from the first clamping position when the type paper just gripped with the second clamping arm presss from both sides tightly from type paper and drives to remove from type paper to the second clamping position of predetermineeing the shearing.

Further, the first clamping arm comprises a first connecting plate and a first clamping jaw group, the first connecting plate is arranged in parallel with the bottom plate, and the first clamping jaw group is arranged at one end, facing the release paper, of the first connecting plate; the second clamping arm comprises a second connecting plate and a second clamping jaw set, the second connecting plate is arranged in an inclined mode, and the second clamping jaw set is arranged at one end, close to the first clamping arm, of the second connecting plate.

Further, the section subassembly includes pneumatic scissors and pneumatic scissors fixed plate, pneumatic scissors fixed plate install in adjust structurally, pneumatic scissors activity set up in adjust structurally, pneumatic scissors includes for the displacement position from type paper pneumatic scissors with from the first preset position of type paper separation and pneumatic scissors with from the second preset position when type paper is cuted.

Furthermore, the slicing and pulling mechanism comprises a pushing assembly, a slicing machine assembly and a pulling assembly, the pushing assembly comprises a first material pressing machine and a second material pressing machine, the first material pressing machine is arranged on the slicing machine assembly, the second material pressing machine is movably arranged on the slicing machine assembly, and the first material pressing machine and the second material pressing machine are axially arranged; the slicing machine component is arranged on the rack and is arranged between the material pushing component and the material pulling component; the material pulling assembly comprises a material pulling driving piece and a clamping arm group, and the material pulling driving piece drives the clamping arm group to clamp the crosscut material and drive the crosscut material to move to a first transfer position.

Further, first transfer mechanism transports sucking disc (sheet transfer manipulator) including transporting driving piece and crosscut material, the transportation driving piece traverse in put from type paper mechanism top, the crosscut material transport sucking disc with it slides and is connected to transport the driving piece, the crosscut material transport sucking disc with install rotary platform (rotatable 90 °) between the drive assembly.

Further, still include sheet bonding mechanism in the frame, sheet bonding mechanism set up in put from type paper mechanism rear, sheet bonding mechanism will come from the second transfer position on the sheet, carry out high temperature welding from type paper and sheet and be an organic whole setting.

Further, still include cooling body in the frame, cooling body set up in the rear of sheet bonding mechanism, cooling body set up in sheet top and the sheet after the bonding correspond the setting.

Further, still include the third transport mechanism in the frame, the third transport mechanism set up in the terminal top of second transport mechanism, the third transport mechanism removes semi-manufactured sheet by first settlement position to second settlement position and accomplishes production.

Further, still be provided with the second transport mechanism in the frame, the interval is provided with a plurality of mould fixed plates on the second transport mechanism, the last sheet that is provided with of mould fixed plate transports the board, place the semi-manufactured goods sheet of treating processing on the sheet transports the board, the sheet transport board in the second transport mechanism respectively with the second transport position of first transport mechanism, bonding mechanism, cooling mechanism and the first settlement position of third transport mechanism correspond the setting.

Furthermore, a punching mechanism is further arranged on the machine frame and is arranged behind the cooling mechanism, and the punching mechanism corresponds to the position (position of release paper) to be punched of the sheet.

Further, still including tearing slitter edge mechanism in the frame, tear slitter edge mechanism set up in the mechanism rear of punching a hole, it includes mould module and lower mould module to tear slitter edge mechanism, place on the lower mould module and wait to tear the slitter edge sheet, go up the mould module with the lower mould module corresponds the setting, go up the mould module with the relative movement position of lower mould module includes go up the mould module move to with first position when ejecting slitter edge material behind the lower mould module dislocation with go up the mould module with second position when the mould module separates relatively.

Furthermore, a blanking mechanism is further arranged on the rack and comprises a lifting assembly and a conveying platform, the lifting assembly is used for controlling the height of the conveying platform, and the conveying platform is used for stacking and containing finished products; when the finished products are stacked on the conveying platform to reach a certain position, the lifting assembly drives the conveying platform to move up and down to adapt to the height of the stacked finished products.

The utility model discloses a beneficial effect:

the utility model discloses a sheet feed mechanism has set gradually in the frame, and the section draws material mechanism, puts from type paper mechanism, and first transport mechanism, sheet adhesive mechanism, cooling body, third transport mechanism, second transport mechanism, the mechanism of punching a hole tear slitter edge mechanism and unloading mechanism with the engineering automation of chest card preparation, reduced the cost of labor, improved production efficiency.

The utility model provides a put from type paper mechanism include the bottom plate, from type paper feed assembly, from type paper centre gripping subassembly and from type paper section subassembly, the centre gripping subassembly presss from both sides tightly to come from feed mechanism from type paper and removes to predetermineeing fixed position, cuts through section subassembly, and the bottom plate drives the centre gripping subassembly and removes to the second transfer position from type paper after will cutting, compact structure, and is automatic high, has improved the efficiency in the whole production process.

The slicing and material pulling mechanism in the utility model comprises a material pushing component, a slicing machine component and a material pulling component, the sheet is fixed by the material pushing component to avoid slipping and is pushed towards the direction of the slicing machine component so as to complete slicing action; the material pulling assembly comprises a material pulling driving piece and a clamping arm group, and the material pulling driving piece drives the clamping arm group to clamp the transverse cutting material and drive the transverse cutting material to move to a first transfer position so as to perform the next action.

The utility model discloses in mutually support through first transport mechanism, second transport mechanism and third transport mechanism and draw material mechanism, put from type paper mechanism, adhesive mechanism, cooling body, the mechanism of punching a hole and tear slitter edge mechanism and link to each other in order with the section for automatic structure is more succinct compact, and it is more convenient to use, and the structure is pleasing to the eye.

The utility model discloses a set up bonding mechanism and cooling body and make two sheets that cover and close remove the position welding of placing from type paper effectual, finalize the design through cooling body and avoid welded semi-manufactured goods and lower mould to bond mutually simultaneously and lead to this semi-manufactured goods can't move to next process, influence the production efficiency of whole equipment.

The utility model discloses in be provided with and tear slitter edge mechanism, mutually support through last mould module and lower mould module and realize sheet and slitter edge separation, both guaranteed to tear the slitter edge rate of accuracy, reduced the risk of tearing the sheet again, detach from type paper from between two materials simultaneously, optimized the production flow, reduced the cost of labor, greatly improved production efficiency.

The utility model discloses in be provided with unloading mechanism and realize accomplishing the unloading through lifting unit and conveying platform cooperation, when the goods stack reaches an allocation position on conveying platform, lifting unit drive conveying platform up-and-down motion is in order to adapt to into the superimposed height of piece.

Drawings

Fig. 1 is a schematic structural diagram of the present invention;

FIG. 2 is a schematic view of the present invention with the first and second protective covers removed;

fig. 3 is a schematic structural diagram of a sheet feeding mechanism in the present invention;

fig. 4 is a schematic structural view of a slicing and pulling mechanism in the present invention;

FIG. 5 is a schematic structural view of a release paper placing mechanism of the present invention;

fig. 6 is a schematic structural diagram of the cooperation of the first transfer mechanism, the second transfer mechanism and the third transfer mechanism in the present invention;

fig. 7 is a schematic structural view of a second transfer mechanism in the present invention;

fig. 8 is a schematic structural view of the bonding mechanism of the present invention;

fig. 9 is a schematic structural view of the punching mechanism of the present invention;

fig. 10 is a schematic structural view of a slitter edge tearing mechanism of the present invention;

fig. 11 is a schematic structural diagram of the blanking mechanism of the present invention.

In the figure: the device comprises a rack 1, a sheet feeding mechanism 2, a sheet 21, a leveling assembly 22, a slicing and pulling mechanism 3, a pushing assembly 31, a first pressing machine 311, a second pressing machine 312, a slicer assembly 32, a pulling assembly 33, a pulling driving member 331, a clamping arm group 332, a release paper placing mechanism 4, a bottom plate 41, a release paper feeding assembly 42, a material placing tray 421, an assembling wheel structure 422, an adjusting structure 423, a release paper clamping assembly 43, a first clamping arm 431, a first connecting plate 4311, a first clamping jaw group 4312, a second clamping arm 432, a second connecting plate 4321, a second clamping jaw group 4322, a release paper slicing assembly 44, pneumatic scissors 441, a pneumatic scissors fixing plate 442, release paper 45, a first transferring mechanism 5, a transferring driving member 51, a material transferring suction cup 52, a rotary flat platform 53, a sheet bonding mechanism 6, a cooling mechanism 7, a second transferring mechanism 8, a mold fixing plate 81, a sheet transferring plate 82, a sheet bonding mechanism 5, a transferring mechanism 2, a transferring mechanism and a transferring mechanism, The semi-finished product sheet 83, the chain wheel 84, the spacing cover plate 85, the third transfer mechanism 9, the air cylinder 91, the track support 92, the air cylinder fixing plate 93, the semi-finished product suction cup 94, the synchronous connecting rod 95, the punching mechanism 10, the punching machine 101, the punching die carrier 102, the punching air cylinder 103, the punching sheet positioning seat 104, the punching waste material passing cylinder 106, the waste edge tearing mechanism 11, the upper die module 111, the lower die module 112, the mounting base 113, the fixing plate 114, the upright column 115, the waste edge sheet 116 to be torn, the limiting assembly 117, the blanking mechanism 12, the lifting assembly 121, the servo motor 1211, the rack plate 1213, the lifting guide pillar 1214, the conveying platform 122, the electric belt line 1221, the guide pillar fixing plate 1222, the first protective cover 13 and the second protective cover 14.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art all belong to the protection scope of the present invention.

As shown in fig. 1 to 2, the automation equipment for producing the chest card described in this embodiment includes a frame 1, and a sheet feeding mechanism 2, a slicing drawing mechanism 3, a release paper mechanism 4, a first transfer mechanism 5, a sheet bonding mechanism 6, a cooling mechanism 7, a second transfer mechanism 8, a third transfer mechanism 9, a punching mechanism 10, a waste edge tearing mechanism 11 and a blanking mechanism 12 are arranged on the frame 1.

Wherein, use sheet bonding mechanism 6 as the center, sheet feed mechanism 2, section draw material mechanism 3, put and be provided with first protection casing 13 from type paper mechanism 4 and the 5 outsides of first transport mechanism, cooling body 7, punching mechanism 10, tear slitter edge mechanism 11, third transport mechanism 9 and the 12 outsides of unloading mechanism are provided with second protection casing 14, set up on first protection casing 13 and the second protection casing 14 and can adopt transparent material to be convenient for observe each part behavior in real time.

The sheet material feeding mechanism 2 is used for flattening the sheet material 21 and moving the sheet material to a preset position; the slicing and pulling mechanism 3 moves the leveled sheet 21 to a slicing position at a preset position, and moves a sliced crosscut material (the sheet is called the crosscut material after being sliced by the slicing and pulling mechanism) to a first transfer position; the release paper releasing mechanism 4 cuts the release paper 45 on the material placing tray 421 and then moves the cut release paper to the transverse cutting material at the second transfer position; the first transfer mechanism 5 moves the cut crosscut material from the first transfer position to the second transfer position, and when the release paper 45 reaches the second transfer position, the first transfer mechanism 5 moves the crosscut material from the first transfer position to the second transfer position again and covers the release paper 45; the second transfer mechanism 8 drives the semi-finished product on the second transfer position to move, the semi-finished product is sequentially moved to be subjected to high-temperature welding on the sheet, the release paper and the sheet through the semi-finished product sheet bonding mechanism 6, then the sheet is moved to the cooling mechanism 7 to be shaped and then moved to the third transfer mechanism 9, then the sheet is sequentially moved to the punching mechanism 10 by the third transfer mechanism to complete punching action, then the sheet is moved to the waste edge tearing mechanism 11 to complete waste edge tearing action, and then the semi-finished product sucker 94 is moved to the blanking mechanism 12 to complete finished product collection.

As shown in fig. 3, the sheet feeding mechanism 2 includes a sheet feeding assembly 24 and a flattening assembly 22, the sheet feeding assembly 24 includes a sheet discharge tray and a sheet reel assembly including a roller shaft and a motor; the flattening assembly 22 serves to prevent the sheet 21 from being uneven during movement by means of a heated roller.

Just the utility model discloses well flattening subassembly and pushing away and being provided with between the material subassembly 31 and send out signal take-up pulley assembly subassembly 15, this assembly subassembly includes gyro wheel and linear slide rail etc. and the gyro wheel slides and sets up on linear slide rail, and sheet 21 supports locates the gyro wheel below.

As shown in fig. 4, the slicing and drawing mechanism 3 includes a material pushing assembly 31, a slicer assembly 32 and a material drawing assembly 33, wherein the slicer assembly 32 is disposed on the frame 1 and between the material pushing assembly 31 and the material drawing assembly 33.

The material pushing assembly 31 includes a first material pressing machine 311 and a second material pressing machine 312, the first material pressing machine 311 is disposed on the slicing machine assembly 32, the second material pressing machine 312 is movably disposed on the slicing machine assembly 32, and the first material pressing machine 311 and the second material pressing machine 312 are axially disposed.

A first pressing plate for pressing the sheet 21 is arranged in the first pressing machine 311, a second pressing plate for pressing the sheet 21 is arranged in the second pressing machine 312, the first pressing machine 311 is fixed on the slicer frame 1, and the first pressing machine 311 is used for pressing the sheet 21 to prevent the sheet 21 from slipping back to the feeding mechanism; the second pressing machine 312 is slidably disposed on the slicer frame 1, and a sliding stroke of the second pressing machine 312 determines a length of the sliced sheet 21.

When the second pressing plate moves towards the slicer assembly 32, the sheet 21 drives the roller to move upwards along the linear slide rail; when the first pressing plate presses the sheet 21 thereunder, the roller moves downwards along the linear slide rail and pulls out more sheets 21 from the leveling assembly 22 to increase the length of the sheet 21, so that the second pressing plate moves towards the slicer assembly 32 again to perform slicing and pulling actions, and the actions are repeated in sequence to better realize automatic feeding of the release paper 45.

The drawing assembly 33 includes a drawing driving member 331 and a clamping arm set 332, and the drawing driving member 331 drives the clamping arm set 332 to clamp the crosscut material (i.e., the sliced sheet material 21) and drives the crosscut material to move to the first transfer position. The utility model provides a draw material driving piece 331 includes the lead screw motor, the utility model provides a arm lock group 332 sets up to two sets of and sets up respectively in the both sides of crosscut material, and this arm lock group 332 sets up on section frame 1 sliding.

The working principle of the slicing and pulling mechanism 3 is as follows;

one end of the sheet 21 moves along the leveling component and enters the first pressing machine 311 and the second pressing machine 312 around the lower part of the roller, the first pressing plate and the second pressing plate sense the sheet 21 and press the sheet 21 downwards, at the same time, the first pressing plate moves upwards to release the sheet 21 and the second pressing plate presses the sheet 21 and moves to the slicing machine component 32 to a preset position, meanwhile, the first pressing plate presses the sheet 21 downwards and the clamping arm group 332 moves to one end of the sheet 21 extending out of the slicing machine component and presses and clamps downwards, after the slicing machine component 32 performs slicing processing, the second pressing plate moves upwards to release the transverse cutting material and resets, at the same time, the clamping arm group 332 clamps the cut transverse cutting material and moves to a first transferring position, and the actions are repeated in sequence to realize automatic slicing and pulling of the sheet 21 so as to smoothly perform the next process.

As shown in fig. 5, put from type paper mechanism 4 and include bottom plate 41, from type paper material loading subassembly 42, from type paper centre gripping subassembly 43 and from type paper section subassembly 44, bottom plate 41 slides and sets up in frame 1, sets up on bottom plate 41 from type paper centre gripping subassembly 43 activity, the utility model discloses well bottom plate 41 with from set up the lead screw motor in order to realize swing joint between the type paper centre gripping subassembly 43. The release paper feeding assembly 42 and the release paper slicing assembly 44 are arranged on one side of the bottom plate 41, the release paper slicing assembly 44 is movably arranged between the release paper feeding assembly 42 and the release paper clamping assembly 43, and the release paper slicing assembly 44, the release paper clamping assembly 43 and a feeding end corresponding to the release paper feeding assembly 42 are all positioned on the same plane; from type paper clamping component 43 clamp tightly come from type paper feed mechanism 42 from type paper 45 and remove to predetermineeing fixed position, cut through cutting the subassembly 44 from type paper, the degree bottom plate 41 drives from type paper clamping component 43 and removes to the second transfer position from type paper 45 after will cutting.

Wherein, including releasing paper blowing dish 421, assembly wheel structure 422 and adjusting structure 423 from type paper material loading subassembly 42, move towards bottom plate 41 top after receiving assembly wheel structure 422 to compress tightly from type paper 45 on releasing paper blowing dish 421, it is perpendicular with the slip direction from type paper clamping component 43 from type paper 45 moving direction.

The utility model provides an assembly wheel structure 422 includes leading wheel, pinch roller subassembly, removes along vertical direction from type paper 45 by pulling out from type paper blowing dish 421 along the leading wheel, again via the setting of pinch roller subassembly compression back along the horizontal direction.

The release paper clamping assembly 43 includes a first clamping arm 431 (left) and a second clamping arm 432 (right), the first clamping arm 431 includes a first connecting plate 4311 and a first clamping jaw set 4312, the first connecting plate 4311 is disposed parallel to the bottom plate 41, and the first clamping jaw set 4312 is disposed at one end of the first connecting plate 4311 facing the release paper 45; the second centre gripping arm 432 includes second connecting plate 4321 and second clamping jaw group 4322, and the slope of second connecting plate 4321 sets up, the utility model discloses in be the L shape and set up but not exclude other shape designs that can reach the same function, second clamping jaw group 4322 sets up the one end that is close to first centre gripping arm 431 on second connecting plate 4321.

The utility model discloses in with the slope end orientation first centre gripping arm 431's of second connecting plate 4321 direction to second centre gripping arm 432 can cross first centre gripping arm 431 and carry and remove after leaving type paper 45 under initial condition, make the structure compacter, the practicality is stronger.

The linear displacement position of the first clamping arm 431 relative to the release paper 45 to be cut comprises two conditions, namely a first clamping position when the first clamping arm 431 is clamped with the release paper 45 and a second clamping position when the first clamping arm 431 is separated from the release paper 45; specifically, at the first clamping position, the first clamping arm 431 moves towards the release paper 45 until the release paper 45 is clamped by the first clamping jaw set 4312 at the end of the first clamping arm 431 and stops; the first clamping arm 431 is separated from the release paper 45 when the first clamping arm 431 is separated from the release paper 45 in the initial state and the second clamping arm 431 and the second clamping arm 432 are separated from the release paper 45 when the cut release paper 45 is moved to the second transfer position.

The sliding position of the second clamping arm 432 relative to the release paper 45 to be cut includes a first clamping position when the second clamping arm 432 is just clamped with the release paper 45, and a second clamping position when the second clamping arm 432 clamps the release paper 45 and drives the release paper 45 to move to a preset cutting second clamping position; after the second clamping jaw set 4322 of the second clamping arm 432 clamps one end of the release paper 45, the second clamping arm 432 clamps the release paper 45 to move relative to the first clamping arm 431, and the length of the release paper 45 is controlled to move to the preset second clamping position and then stop moving.

The utility model provides a first centre gripping arm 431 and second centre gripping arm 432 all realize the sliding motion through linear slide rail, lead screw motor, and first centre gripping arm 431 and second centre gripping arm 432 all set up on bottom plate 41, and bottom plate 41 drives first centre gripping arm 431, second centre gripping arm 432 will be cut after 45 removal from type paper put to the second transfer position.

Wherein, from type paper section subassembly 44 including pneumatic scissors 441 and pneumatic scissors fixed plate 114, pneumatic scissors fixed plate 114 installs on adjusting structure 423, and pneumatic scissors 441 activity sets up on adjusting structure 423, and pneumatic scissors 441 includes the first preset position of pneumatic scissors 441 with leaving type paper 45 separation and the second preset position of pneumatic scissors 441 with leaving type paper 45 when shearing for the displacement position of type paper 45.

The release paper mechanism 4 works according to the following principle:

in an initial state, the second clamping arm 432 moves towards the first clamping arm 431 until the second clamping jaw set 4322 clamps one end of the release paper 45 (i.e. the second clamping arm 432 is at the first clamping position), the second clamping arm 432 clamps the release paper 45 and moves towards a direction away from the first clamping arm 431, and when the length of the release paper 45 to be cut is reached (i.e. the second clamping arm 432 is at the second clamping position), the first clamping arm 431 moves towards the release paper 45 until the first clamping jaw set 4312 clamps the release paper 45 (i.e. the first clamping arm 431 is at the first clamping position); at this time, the pneumatic scissors 441 move from the first preset position to the second preset position under the action of the screw motor, when the pneumatic scissors 441 retract from the second preset position to the first preset position after the release paper 45 is cut by the pneumatic scissors 441, the first clamping jaw set 4312 of the first clamping arm 431 and the second clamping jaw set 4322 of the second clamping arm 432 respectively clamp two ends of the cut release paper 45, the cut release paper 45 is carried along the rack 1 along with the bottom plate 41 until the release paper 45 is placed at the second transfer position, after the bottom plate 41 is reset along the rack 1, the first clamping arm 431 and the second clamping arm 432 return to the initial state, and the above actions are sequentially repeated to achieve automatic feeding of the release paper 45.

As shown in fig. 6, first transport mechanism 5 transports sucking disc 52 including transporting driving piece 51 and crosscut material, transports driving piece 51 and traverses in putting from type paper mechanism 4 top, and crosscut material is transported sucking disc 52 and is transported driving piece 51 and slide and be connected, and crosscut material is transported sucking disc 52 and is transported and install rotary platform 53 between the driving piece 51, the utility model provides a rotary platform 53 can rotate 90, and rotary sheet 21 makes it can cooperate following process.

The working principle of the first transfer mechanism 5 is as follows:

the material pulling assembly 33 moves the crosscut material to a first transfer position, the crosscut material transfer sucker 52 moves downwards to suck the crosscut material to rotate for 90 degrees, then the crosscut material transfer sucker 52 moves to a second transfer position through the transfer driving piece 51, the crosscut material transfer sucker 52 rotates and resets to return to the position above the first transfer position, and meanwhile, after the release paper mechanism 4 is placed at the second transfer position, the crosscut material transfer sucker 52 moves downwards again to suck the crosscut material to rotate for 90 degrees, and then the crosscut material transfer sucker 51 moves to the second transfer position; when the second transfer position is sequentially provided with transverse cutting material, release paper 45 and transverse cutting material, the second transfer mechanism 8 moves to move the second transfer position into the sheet bonding mechanism 6 for high-temperature welding, and the operations are sequentially repeated to realize the transfer of the transverse cutting material so as to smoothly carry out the next process.

As shown in fig. 8, the sheet bonding mechanism 6 on the frame 1 is provided behind the release paper placing mechanism 4, and the sheet bonding mechanism 6 integrally welds the sheet 21, the release paper 45, and the sheet 21 from the second transfer position at a high temperature to complete the semi-finished sheet 83.

The utility model discloses well sheet bonding mechanism 6 includes the high frequency welding. A high-frequency plastic heat sealing machine belongs to high-frequency equipment, and a high-frequency electromagnetic field is generated by a self-excited oscillator of an electronic tube. The processed object is pressed between the upper and lower motors of the high-frequency electromagnetic field, the dielectric material generates molecular polarization under the action of the high-frequency electric field and is arranged according to the direction of the electric field, and because of the high-frequency electric field, the direction is changed at a very fast speed, the internal molecules in the dielectric material are activated and move at a high speed to rub against each other to generate heat, and the purpose of welding or embossing is achieved under the pressure of a die. The main machine types include a high-frequency synchronous fusing machine, a single-head push-disk type high-frequency machine, a single-head rotating disk type high-frequency machine and the like.

The utility model discloses well high temperature welding makes two sheets 21 that cover and close weld effectually, removes to place still to be the separation form state from the position department of type paper 45 to through setting up opening length, position etc. on the type paper 45 control chest card, convenient to use person is convenient for insert when using and establishes, change.

Specifically, the cooling mechanism 7 of the frame 1 is disposed in the next stage of the sheet bonding mechanism 6, and the cooling mechanism 7 is disposed above the semi-finished sheet 83 and corresponds to the bonded semi-finished sheet 83.

The utility model provides a cooling body 7 includes cooling equipment such as fan, makes semi-manufactured goods sheet 83 cooling design through cooling equipment such as fan, avoids welded semi-manufactured goods sheet 83 to bond with the lower mould mutually simultaneously, leads to this semi-manufactured goods sheet 83 can't remove to next process, influences the production efficiency of whole equipment.

As shown in fig. 7, a plurality of mold fixing plates 81 are provided at intervals on the second transfer mechanism 8 on the frame 1, a plurality of sheet transfer plates 82 are provided on the mold fixing plates 81, a semi-finished sheet 83 to be processed is placed on the sheet transfer plates 82, and the positions of the sheet transfer plates 82 on the second transfer mechanism 8 are respectively set to correspond to the second transfer position of the first transfer mechanism 5, the sheet bonding mechanism 6, the cooling mechanism 7, and the first set position of the third transfer mechanism 9.

The utility model provides a second transport mechanism 8 is sprocket drive, cooperates in order to realize transporting the action through a plurality of sprockets 84 and interval apron 85.

Specifically, the third transfer mechanism 9 on the frame 1 is arranged above the tail end of the second transfer mechanism 8, and the third transfer mechanism 9 moves the semi-finished sheet 83 from the first set position to the second set position to complete the chest card production.

Wherein, third transport mechanism 9 includes cylinder 91, track support 92, two cylinder fixed plates 93 and semi-manufactured goods sucking disc 94, is provided with synchronous connecting rod 95 between two cylinder fixed plates 93, transports this finished product sheet 83 after cooling to the mechanism 10 position of punching a hole through semi-manufactured goods sucking disc 94 through the drive of cylinder 91, and the sucking disc on the mechanism 10 position of punching a hole transports the semi-manufactured goods sheet 83 after punching a hole to tearing 11 positions of slitter edge mechanism.

As shown in fig. 9, the punching mechanism 10 of the frame 1 is disposed at the next stage of the cooling mechanism 7, and the punching mechanism 10 corresponds to a position of the green sheet 83 to be punched. Mechanism 10 punches a hole includes piercing press 101, the die carrier 102 that punches a hole, the cylinder 91 that punches a hole, the sheet positioning seat 104 that punches a hole etc., the utility model provides a be provided with the adjustable vertical direction, the ascending position of horizontal direction of the die carrier 102 that punches a hole of triaxial arm on the piercing press 101, piercing press 101 can realize raising and lowering functions simultaneously to adjust the corresponding position relation between piercing press 101 and the semi-manufactured sheet 83. The utility model discloses can realize that a plurality of material holes punch a hole simultaneously, can adjust the quantity of punching a hole and the shape of punching a hole according to actual need.

Wherein, the feed cylinder 106 is crossed to the waste material that punches a hole still to be provided with below the mechanism of punching a hole 10 for the waste material after collecting and punching a hole avoids influencing the jam of equipment, is convenient for accomodate the waste material and recycles.

As shown in fig. 10, the waste edge tearing mechanism 11 on the frame 1 is disposed at the next position of the punching mechanism 10, the waste edge tearing mechanism 11 includes a mounting base 113, a fixing plate 114 is disposed above the mounting base 113, a plurality of upright posts 115 are disposed between the mounting base 113 and the fixing plate 114, and an upper die module 111 is movably disposed above the mounting base 113; and a lower mold module 112 provided in the mounting base 113.

Wherein, place the slitter edge sheet 116 of waiting to tear after punching a hole on the lower mould module 112, go up mould module 111 and lower mould module 112 and correspond the setting, go up the relative movement position of mould module 111 and lower mould module 112 and include the first position when going up mould module 111 and moving to ejecting slitter edge after misplacing with lower mould module 112 and go up the second position when mould module 111 and lower mould module 112 relatively separate.

Specifically, the upper die module 111 makes a linear reciprocating motion in the direction of the lower die module 112, the upper die module 111 moves downwards until abutting against the scrap edge sheet 116 to be torn, and then continues to move downwards, and after the scrap edge is ejected, the upper die module 111 starts to move upwards to reset.

Specifically, go up mould module 111 and include the mould body, go up pre-compaction support and first elastic component, go up the pre-compaction support cover establish with last mould body outside, first elastic component supports locates between mould body and the last pre-compaction support for go up the pre-compaction support and can continue the downstream through extruding first elastic component.

Wherein, the both sides of going up pre-compaction support all are equipped with the limiting plate and carry out fixed connection through the fastener for the structure is more firm.

Wherein, go up a plurality of guide pillars of installation on the mould body, outside the guide pillar was located to first elastic component cover, and the guide pillar is provided with the position sleeve outward and is used for fixed position, the utility model discloses well guide pillar, first elastic component and position sleeve one-to-one set up.

Specifically, lower mould module 112 includes lower mould body, lower pre-compaction support and second elastic component, and lower pre-compaction support cover is located outside the lower mould body, and the second elastic component supports and locates the lower mould body between lower pre-compaction support for lower pre-compaction support can move down to offset with installation base 113 through extrusion second elastic component.

The lower die module 112 is provided with a plurality of die guide pillars, the upper die body corresponds to the lower die body through the die guide pillars, and the upper pre-pressing support corresponds to the lower pre-pressing support.

Specifically, the sensor is arranged on the upper die module 111 or the lower die module 112, so that the positioning between the upper die module 111 and the lower die module 112 is more accurate, and the upper die module 111 can move towards the lower die module 112 to complete the waste edge tearing action.

Go up the mould body and stretch out one side of pre-compaction support and be provided with first sheet module, the utility model provides a first sheet module is protruding to be located outside the mould body, and lower mould body upper surface is provided with 21 modules of second sheet, and second sheet module corresponds the setting with first sheet module.

The utility model discloses well lower mould module 112 highly be greater than the height of pre-compaction support down, but the upper surface of second sheet module and the upper surface parallel arrangement of pre-compaction support down to when ensureing that first sheet module offsets with the second sheet module, go up the pre-compaction support and can continue to promote down the motion of pre-compaction support and accomplish and tear the slitter edge action.

Specifically, go up mould module 111 and include the driver, the utility model provides a driver adopts the cylinder. The driver is arranged on a fixing plate 114 at the top end of the mounting base 113, the movable end of the driver is connected with the upper die module 111, a plurality of guide posts are arranged on the upper die module 111, and when the movable end drives the upper die module 111 to do linear reciprocating motion in the mounting base 113, the two ends of the upper die module 111 are prevented from inclining.

The expansion end and the last pre-compaction support fixed connection of driver, the mould body lapse in the pre-compaction support lapse drives in the expansion end drive, when last mould body and lower mould body offset, goes up the pre-compaction support and continues the lapse under the effect of first elastic component and drive down pre-compaction support lapse to and install the chassis and offset the back, the pre-compaction support rebound resets in the expansion end drive, and the pre-compaction support resets under the effect of second elastic component simultaneously.

The utility model provides a first elastic component and second elastic component are the spring, nevertheless do not get rid of other substitutes that can reach the same or similar function, all fall into in the scope of protection of this patent.

The utility model discloses well lower mould module 112's both sides are provided with spacing subassembly 117, through all being provided with spacing subassembly 117 in both sides so that the both ends of fixed slitter edge material better, the semi-manufactured goods sucking disc 94 of being convenient for is sent into next process with the whole piece of suction of finished product and not adhesion slitter edge material.

Specifically, one set of limiting component 117 is slidably disposed on the mounting base 113, and the other set of limiting component 117 is fixedly disposed on the mounting base 113.

The limiting assembly 117 is slidably arranged and used for fixing the scrap edge material and clamping and removing the scrap edge material after the semi-finished product suction disc 94 sucks the finished product; the fixedly arranged limiting component 117 only plays a role in fixing when the semi-finished product suction cup 94 sucks a finished product, and the fixedly arranged limiting component 117 loosens the scrap edge and resets after the finished product is sucked away.

It is worth mentioning that, when the spacing subassembly 117 that slides and set up removes the scrap edge material, the type paper that leaves between its two sheets of pressing from both sides and establishing is removed simultaneously, has saved and has removed the process of type paper again in addition, further reduces the cost of labor, has improved work efficiency.

Specifically, each group of limiting assemblies 117 comprises a plurality of limiting clamping jaws, and the limiting assemblies 117 correspond to the waste edge sheets to be torn, so that the limiting clamping jaws are all located on the same plane as the waste edge sheets to be torn. Wherein, the limiting clamping jaws on the limiting assembly 117 which is arranged in a sliding way are all correspondingly arranged towards the direction of the waste edge sheet to be torn; the fixed spacing clamping jaw that sets up on the spacing subassembly 117 that sets up in the top of waiting to tear the side of slitter edge sheet, and the spacing clamping jaw that sets up on spacing subassembly 117 when waiting to use is rotatory to waiting to tear slitter edge sheet top and offset fixedly with the slitter edge material.

After the waste tearing action is finished, the sliding limiting component 117 slides on the mounting base 113 to the position limiting clamping jaw to clamp one end of the waste edge material, and the lower end of the position limiting clamping jaw is fixed on the lower die module 112, the position limiting clamping jaw (driven by the air cylinder) on the fixed limiting component 117 moves upwards and rotates to the outer side of the waste edge material; when the finished product is moved to the next process, the limiting component 117 arranged in a sliding way starts to reset and drives the clamping scrap to move to fall into the waste collection box, and the operation is continued repeatedly.

The spacing subassembly 117 that slides and set up is driven by a power component and is close to lower mould module 112 after tearing off the scrap edge material, this power component also is cylinder 91, the scrap edge is cliied simultaneously to a plurality of spacing clamping jaws after pre-compaction support resets down, power component drive spacing subassembly 117 resets this moment, be about to the scrap edge material pull out go up between mould module 111 and the lower mould module 112, then place the scrap edge material on the belt feeder of lower mould pre-compaction support below, carry out equipment collection with the scrap edge material through the belt feeder, wait again to go up mould module 111 and lower mould module 112 and accomplish and tear the action of scrap edge material and do the action of centre gripping scrap edge material after the pre-compaction support resets.

The limiting component 117 which is arranged in a sliding manner is also provided with a buffering fixing plate and a buffer, so that the structure is more stable.

As shown in fig. 11, the frame 1 is further provided with a blanking mechanism 12, the blanking mechanism 12 includes a lifting assembly 121 and a conveying platform 122, the lifting assembly 121 is used for controlling the height of the conveying platform 122, and the conveying platform 122 is used for stacking and storing finished products.

The lifting assembly 121 comprises a servo motor 1211, a lifting gear, a rack plate 1213, a plurality of lifting guide posts 1214 and the like, which are matched to realize a lifting function, the conveying platform 122 comprises an electric belt line 1221, a guide post fixing plate 1222 and the like, the conveying platform 122 is installed above the lifting assembly 121, and a conveying line fixing bent plate is further arranged between the conveying platform 122 and the guide post fixing plate 1222 for fixing.

When the finished products are stacked on the conveying platform 122 to a certain position, the lifting assembly drives the conveying platform 122 to move up and down to adapt to the height of the finished products which are freely stacked.

The present invention is not limited to the above-mentioned preferred embodiments, and any other products in various forms can be obtained by the teaching of the present invention, but any changes in the shape or structure thereof, which have the same or similar technical solutions as the present invention, fall within the protection scope of the present invention.

Claims (14)

1. An automated apparatus for producing chest cards, comprising: including the frame, be provided with in the frame:

the sheet material feeding mechanism is used for leveling the sheet material and moving the sheet material to a preset position;

the slicing and pulling mechanism moves the leveled sheet to a slicing position at a preset position and moves the sliced crosscut material to a first transfer position;

a release paper placing mechanism cuts the release paper and moves the cut release paper to the transverse cutting material at the second transfer position;

the first transfer mechanism traverses above the slicing and pulling mechanism and the release paper releasing mechanism and moves the crosscut materials from a first transfer position to a second transfer position; wherein,

put from type paper mechanism include the bottom plate, from type paper feeding subassembly, from type paper clamping component and from type paper section subassembly, the bottom plate slide set up in the frame, from type paper clamping component activity set up in on the bottom plate, from type paper feeding subassembly with from type paper section subassembly set up in bottom plate one side, from type paper section subassembly activity set up in from type paper feeding subassembly with from between the type paper clamping component, from type paper section subassembly from type paper clamping component and with the pay-off end that corresponds from type paper feeding subassembly all is in the coplanar.

2. The automated equipment for producing chest cards of claim 1, wherein the release paper feeding assembly comprises a release paper discharge tray, an assembly wheel structure and an adjusting structure, and a release paper conveying end on the release paper discharge tray moves along the assembly wheel structure from a vertical direction to a horizontal direction and penetrates through the adjusting structure.

3. The automated equipment for producing chest cards of claim 2 wherein the clamping assembly comprises a first clamping arm and a second clamping arm, the linear displacement position of the first clamping arm relative to the release paper to be sheared comprises a first clamping position when the first clamping arm is clamped with the release paper and a second clamping position when the first clamping arm is separated from the release paper; the second clamping arm is to be sheared from the slip position of type paper relatively and includes the second clamping arm with from the first clamping position when the type paper just gripped with the second clamping arm presss from both sides tightly from type paper and drives to remove from type paper to the second clamping position of predetermineeing the shearing.

4. The automated equipment for producing chest cards of claim 3 wherein the first gripper arm comprises a first connecting plate disposed parallel to the base plate and a first jaw set disposed at an end of the first connecting plate facing the release paper; the second clamping arm comprises a second connecting plate and a second clamping jaw set, the second connecting plate is arranged in an inclined mode, and the second clamping jaw set is arranged at one end, close to the first clamping arm, of the second connecting plate.

5. The automated equipment for producing chest cards of claim 2, wherein the slicing assembly comprises pneumatic scissors and a pneumatic scissors fixing plate, the pneumatic scissors fixing plate is mounted on the adjusting structure, the pneumatic scissors are movably arranged on the adjusting structure, and the displacement position of the pneumatic scissors relative to the release paper comprises a first preset position at which the pneumatic scissors are separated from the release paper and a second preset position at which the pneumatic scissors are cut from the release paper.

6. The automated equipment for producing chest cards of claim 1, wherein the slicing and feeding mechanism comprises a pushing assembly, a slicer assembly and a feeding assembly, wherein the pushing assembly comprises a first pressing machine and a second pressing machine, the first pressing machine is arranged on the slicer assembly, the second pressing machine is movably arranged on the slicer assembly, and the first pressing machine and the second pressing machine are axially arranged; the slicing machine component is arranged on the rack and is arranged between the material pushing component and the material pulling component; the material pulling assembly comprises a material pulling driving piece and a clamping arm group, and the material pulling driving piece drives the clamping arm group to clamp the transverse cutting material and drives the transverse cutting material to move to a first transferring position.

7. The automated equipment for producing chest cards of claim 6 wherein the first transfer mechanism comprises a transfer drive and a infeed transfer suction cup, the transfer drive traverses above the release paper mechanism, the infeed transfer suction cup is slidably connected with the transfer drive, and a rotary platform is mounted between the infeed transfer suction cup and the drive.

8. The automated equipment for producing chest cards according to any one of claims 1 to 7, wherein the machine frame further comprises a sheet bonding mechanism, the sheet bonding mechanism is arranged behind the release paper mechanism, and the sheet bonding mechanism integrally forms the sheet, the release paper and the sheet from the second transfer position by high temperature welding.

9. The automated equipment for producing chest cards of claim 8, further comprising a cooling mechanism in the frame, wherein the cooling mechanism is disposed behind the sheet bonding mechanism, and the cooling mechanism is disposed above the bonded semi-finished sheets and corresponding to the semi-finished sheets.

10. The automated equipment for producing chest cards according to claim 9, wherein a second transfer mechanism is further disposed on the machine frame, a plurality of mold fixing plates are disposed on the second transfer mechanism at intervals, a sheet transfer plate is disposed on each mold fixing plate, a semi-finished sheet to be processed is placed on each sheet transfer plate, and the sheet transfer plate on the second transfer mechanism is disposed corresponding to the second transfer position of the first transfer mechanism, the first setting position of the sheet bonding mechanism, the first setting position of the cooling mechanism, and the first setting position of the third transfer mechanism.

11. The automated equipment for producing chest cards of claim 10 further comprising a third transfer mechanism on the frame, the third transfer mechanism disposed above the end of the second transfer mechanism, the third transfer mechanism moving the semi-finished sheet from the first set position to the second set position to complete the production.

12. The automated equipment for producing chest cards of claim 11 wherein said frame is further provided with a punching mechanism, said punching mechanism being disposed after said cooling mechanism, said punching mechanism corresponding to a location where said green sheet is to be punched.

13. The automated equipment for producing the chest card according to claim 12, wherein the rack further comprises a waste edge tearing mechanism, the waste edge tearing mechanism is arranged behind the punching mechanism, the waste edge tearing mechanism comprises an upper die module and a lower die module, a waste edge sheet to be torn is placed on the lower die module, the upper die module and the lower die module are correspondingly arranged, and the relative movement position of the upper die module and the lower die module comprises a first position when the upper die module moves to a position where the waste edge is ejected after being dislocated with the lower die module and a second position when the upper die module and the lower die module are relatively separated.

14. The automated equipment for producing chest cards of claim 13, wherein the frame is further provided with a blanking mechanism, the blanking mechanism comprises a lifting assembly and a conveying platform, the conveying platform is mounted above the lifting assembly, and the conveying platform is in linkage fit with the lifting assembly.

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