CN216068923U - A assembly line for production of test paper card - Google Patents

Abstract

The utility model provides a production line for test paper card production, which comprises a rack, wherein a workbench is arranged on the upper end surface of the rack, and the production line further comprises a bottom card feeding mechanism, a first aluminum foil feeding mechanism, a first heat-sealing mechanism, a containing tank molding mechanism, a test paper strip feeding mechanism, a second aluminum foil feeding mechanism, a second heat-sealing mechanism, a gluing mechanism, a sponge block feeding mechanism, a third aluminum foil feeding mechanism, a third heat-sealing mechanism, a plastic mark mechanism, a cutting mechanism, a waste bottom card collecting mechanism and a driving mechanism. The utility model has the characteristics of realizing automatic production in the whole process, saving labor cost, improving sanitary safety performance, being suitable for mass production and having consistent product specification in the whole batch.

Description

A assembly line for production of test paper card

Technical Field

The utility model relates to the technical field of test paper card production, in particular to a production line for test paper card production.

Background

The liquid detection device is a device for detecting whether a certain substance is contained in liquid, and has a plurality of applications in life or liquid supply, such as quantitative detection of target analytes such as C-reactive protein, procalcitonin, glycosylated hemoglobin, microalbumin, carcinoembryonic antigen and the like in a human body through a blood sample.

The production of the existing test paper card needs a plurality of processes, the required quantity is large, the test paper card is produced manually, and the following problems exist: 1. the labor cost is high; 2. the sanitary safety performance is lower; 3. is not suitable for mass production; 4. the uniform production specification can not be achieved, and the specification consistency of the whole batch of products is ensured.

In order to overcome the technical problems, the inventor designs a production line for producing test paper cards, and the scheme is generated.

SUMMERY OF THE UTILITY MODEL

In order to solve the problems, the technical scheme of the utility model is as follows:

the utility model provides an assembly line for test paper card production, which comprises a frame, the frame up end is provided with the workstation, still including setting up the end card feed mechanism in the frame, the first aluminium foil feed mechanism that sets gradually along frame length direction, with the first heat-seal mechanism of aluminium foil heat-seal on the end card, mould the holding tank that the type goes out on the end card and supply the sponge piece to deposit and mould the type mechanism, test paper strip feed mechanism on test paper strip material to the end card, with the second aluminium foil feed mechanism of aluminium foil material to test paper strip up end, with the second heat-seal mechanism of aluminium foil heat-seal at test paper strip up end, with the rubberizing mechanism of double faced adhesive tape attached at test paper card up end, with sponge piece material to the holding tank in the sponge piece feed mechanism, with the aluminium foil material to the third aluminium foil feed mechanism of holding tank opening part, with the third heat-seal mechanism of aluminium foil heat-seal at holding tank opening part, to the crease mechanism of moulding the type is moulded to the middle part of test paper card, The test paper card cutting machine comprises a cutting mechanism for cutting a processed test paper card, a waste bottom card collecting mechanism for collecting a cut waste bottom card, and a driving mechanism which is arranged on a frame and drives the bottom card to move to one side of the waste bottom card collecting mechanism from a bottom card feeding mechanism.

Further setting the following steps: the base card feed mechanism is including being fixed in the first mounting panel in the frame, be fixed in the second magnetic powder clutch of first mounting panel, be fixed in second magnetic powder clutch axis of rotation and be used for placing the base card mounting disc of lapping the base card, be fixed in the base card on the first mounting panel and detect the dead lever, be fixed in the base card and detect the inductor on the dead lever and be located the base card mounting disc top, two rotate along first mounting panel length direction and set up in the base card roller of first mounting panel, be located between two base card rollers and be used for adjusting the adjusting roller of pretightning force when the base card material loading, one end is fixed in first mounting panel and the other end is fixed in the adjusting spring on the adjusting roller, and set up in first mounting panel one side and inject the roller set of base card material loading to conveyer belt position, the adjusting roller is located two base card roller below.

Further setting the following steps: the up end of frame is fixed with the fixing base, aluminium foil feed mechanism includes that two misplaces and sets up the aluminium foil material loading unit on the fixing base, aluminium foil material loading unit is including the first magnetic clutch that is fixed in the fixing base, be fixed in first magnetic clutch axis of rotation and be used for placing the aluminium foil mounting disc of lapping aluminium foil, be fixed in aluminium foil detection dead lever on the fixing base, be fixed in on the aluminium foil detection dead lever and be located the aluminium foil detection inductor of aluminium foil mounting disc top, rotate the aluminium foil roller of connecting in the fixing base and set up in aluminium foil mounting disc below and be used for attaching the annex on the end card with the aluminium foil, the aluminium foil mounting disc just is in end card feed mechanism top, the aluminium foil detects the inductor and is located aluminium foil mounting disc top and is used for responding to still have the aluminium foil on the aluminium foil mounting disc.

Further setting the following steps: the first heat-sealing mechanism, the second heat-sealing mechanism and the third heat-sealing mechanism respectively comprise four first fixed columns, first supporting plates, four first sleeves, first sliding plates, first lifting cylinders, first connecting blocks and heat-sealing modules, wherein one ends of the first fixed columns are fixed on the workbench;

the heat-seal module comprises a lower fixing plate, a lower template, two upper heat-conducting wires, an upper fixing plate, an upper template and two upper heat-conducting wires, wherein the lower fixing plate is fixed on the upper end surface of the workbench and located between four first fixing columns, the lower template is fixed on the upper end surface of the lower fixing plate, the two lower heat-conducting wires are symmetrically arranged along the central axis of the lower template and are fixedly arranged on the lower template in a penetrating manner, the upper fixing plate is fixed on the lower end surface of a first sliding plate, the upper template is fixed on the lower end surface of the upper fixing plate, the two upper heat-conducting wires are symmetrically arranged along the central axis of the upper template and are fixedly arranged on the upper template in a penetrating manner, the lower end surface of the upper template and the upper end surface of the lower template are both provided with model bulges, the model bulges on the lower end surface of the upper template correspond to the model bulges on the upper end surface of the lower template one by one, and when the upper template and the lower template complete die assembly, one end surface attachment that the model bulges on the lower end surface of the upper end surface of the lower template are close to each other.

Further setting the following steps: the accommodating groove molding mechanism comprises four second fixed columns, four second supporting plates, four second sleeves, a second sliding plate, a second lifting cylinder, a second connecting block and a thermoplastic module, wherein one ends of the second fixed columns are fixed on the workbench, the second supporting plates are fixed at the other ends of the four second fixed columns, the four second sleeves are respectively sleeved and connected with the four second fixed columns in a sliding manner, the second sliding plate is fixed on the peripheral side walls of the four second sleeves and connected with the second fixed columns in a sliding manner, the second lifting cylinder is fixed on the upper end face of the second supporting plate, the output end of the second lifting cylinder penetrates through the second supporting plate, the upper end face of the second connecting block is fixed on the output end of the second lifting cylinder, and the lower end face of the second connecting block is fixed on the second sliding plate;

the thermoplastic molding set comprises two thermoplastic units which are symmetrically arranged between the second sliding plate and the workbench, the two thermoplastic units comprise an upper thermoplastic molding plate fixed on the lower end face of the second sliding plate and a lower thermoplastic molding plate fixed on the upper end face of the workbench, the upper thermoplastic molding plate is provided with an air blowing groove, the upper end face of the lower thermoplastic molding plate is provided with a mold groove, and the lower thermoplastic molding plate is penetrated with a heating pipe.

Further setting the following steps: the test paper strip feeding mechanism comprises a test paper plate receiving assembly used for storing test paper plates, a test paper plate cutting assembly used for processing the test paper plates into test paper strips, a test paper plate transferring assembly used for transferring the test paper plates from the test paper plate receiving assembly to the test paper plate cutting assembly, a test paper strip feeding assembly used for transferring the test paper strips to a processing assembly line, and a test paper strip transferring assembly used for transferring the test paper strips from the test paper plate cutting assembly to the test paper strip feeding assembly, wherein the test paper plate receiving assembly, the test paper plate cutting assembly, the test paper plate transferring assembly, the test paper strip feeding assembly and the test paper strip transferring assembly are all positioned on the upper end face of the rack;

the test paper board transfer component comprises two upright columns fixed on the upper end face of the rack, a mounting cross beam fixed at one end of each upright column, which is far away from the rack, a first drag chain fixed on the upper end face of the mounting cross beam and convenient for wire arrangement, a transverse guide rail fixed on one side of the mounting cross beam, a transverse sliding block sliding along the transverse guide rail, two transverse connecting plates respectively fixed on the upper end and the lower end of the transverse sliding block, transverse mounting plates with two ends respectively fixed on the same side end parts of the two transverse connecting plates, a transfer piece fixed on one side of the transverse mounting plate, which is far away from the transverse guide rail, and a first single-axis servo module driving the transfer piece to move, wherein the first drag chain synchronously moves along with the transfer piece;

the transfer piece is including being fixed in the vertical guide rail that the horizontal mounting panel deviates from horizontal guide rail one side, be fixed in the installation box body of vertical guide rail upper end, along the gliding vertical sliding block of vertical guide rail, set up terminal surface under the installation box body and be used for driving the gliding second unipolar servo module of vertical sliding block, two vertical connecting plates that are fixed in both ends about the vertical sliding block respectively, the vertical mounting panel that both ends are fixed in two vertical connecting plate homonymy tip respectively, be fixed in the first fixed plate of tip under the vertical mounting panel and two adsorbers that are fixed in first fixed plate both ends respectively, the absorption mouth of adsorber is down.

Further setting the following steps: the test paper board cutting assembly comprises a fixed frame fixed on the upper end face of the rack, a test paper board limiting part arranged on the upper end face of the fixed frame and used for limiting the position of the test paper board, a test paper board cutting part arranged on the upper end face of the fixed frame and used for cutting the test paper board, and a cutting driving part arranged on the upper end face of the fixed frame and used for driving the test paper board to move towards the test paper board cutting part;

the test paper board limiting part comprises a limiting plate fixed on the upper end surface of the fixing frame, a right limiting rail fixed on the upper end surface of the limiting plate, a limiting driving cylinder fixed on the upper end surface of the fixing frame, and a left limiting rail driven by the limiting driving cylinder to approach the right limiting rail, and the left limiting rail is connected to the upper end surface of the limiting plate in a sliding manner;

the cutting driving piece comprises a fixed guide rail, a test paper board sliding block, a third uniaxial servo module, a test paper board connecting block, a test paper board fixing block, a clamping unit and a second drag chain, wherein the fixed guide rail is fixed on the upper end surface of the fixing frame and is positioned on one side of the limiting plate;

the test paper board cutting piece comprises a cutting seat, a motor mounting seat, a cutting driving motor, an eccentric cam, a cutting connecting plate and a cutting knife, wherein the cutting seat is fixed on the upper end face of the fixing frame and is far away from one end of the cutting driving piece, the motor mounting seat is fixed on the upper end face of the fixing frame, the cutting driving motor is fixed on the motor mounting seat, the eccentric cam is fixed on an output shaft of the cutting driving motor, the cutting connecting plate is driven by the eccentric cam, and the cutting knife is fixed on one side of the cutting connecting plate.

Further setting the following steps: the test paper strip material loading subassembly is fixed in the transport motor that supports arm of force one side, two including the support arm of force, the two that are fixed in the organism up end and all are fixed in two transport motor output respectively the transport connecting plate, be fixed in two second fixed plates of transporting the connecting plate and a plurality of are fixed in the second fixed plate and deviate from the clamp unit of getting on one side of the support arm of force.

Further setting the following steps: the plastic mark mechanism comprises four third fixed columns, four third supporting plates, four third sleeves, a third sliding plate, a third lifting cylinder, a third connecting block and a plastic mark module, wherein one ends of the third fixed columns are fixed on the workbench, the third supporting plates are fixed at the other ends of the four third fixed columns, the four third sleeves are respectively sleeved with the third sleeves and are connected with the four third fixed columns in a sliding manner, the third sliding plate is fixed on the peripheral side walls of the four third sleeves and is connected with the third fixed columns in a sliding manner, the third lifting cylinder is fixed on the upper end face of the third supporting plate, the output end of the third lifting cylinder penetrates through the third supporting plate, the upper end face of the third lifting cylinder is fixed on the output end of the third lifting cylinder, the lower end face of the third sliding cylinder is fixed on the upper face of the third sliding plate, and the plastic mark module is arranged between the third sliding plate and the workbench;

mould the trace module and include that two symmetries set up the trace unit of moulding between third slide plate and workstation, mould the trace unit for two and all mould the trace template and be fixed in the lower trace template of moulding of workstation up end on being fixed in the third slide plate down terminal surface, mould the trace template up end down and seted up and mould the trace recess, and mould the trace template down and set up the suction opening that the trace recess was moulded in the intercommunication for mould the type of breathing in and go out the crease.

Further setting the following steps: the cutting mechanism comprises a second mounting plate arranged in the bottom of the frame body and positioned below the workbench, a mounting frame vertically fixed on the upper end surface of the second mounting plate, four fourth fixed columns fixed on the upper end surface of the mounting frame, four fourth sleeves respectively sleeved and fixed on the fourth fixed columns, a fourth fixed plate fixed with the four fourth sleeves, a fourth supporting plate fixed at the upper ends of the four fourth fixed columns, a cutting piece arranged between the third fixed plate and the fourth supporting plate, and a cutting driving piece driving the cutting piece to cut;

the cutting piece is including the third mounting panel that is fixed in fourth backup pad lower extreme, the last clamp plate that is fixed in terminal surface under the third mounting panel, the lower clamp plate that is fixed in the third fixed plate up end and set up the buffer spring between last clamp plate and lower clamp plate, it is protruding that the terminal surface is fixed with the punching press under the last clamp plate, it has the through groove with the protruding complex punching press of punching press to run through at lower clamp plate middle part, it is fixed with the locating lever to go up the clamp plate lower extreme near the avris, the lower clamp plate is fixed with the locating hole of being connected with the locating lever slides near the avris.

The utility model has the following beneficial effects:

by arranging a bottom card feeding mechanism, a first aluminum foil feeding mechanism, a first heat-sealing mechanism, a containing tank shaping mechanism, a test strip feeding mechanism, a second aluminum foil feeding mechanism, a second heat-sealing mechanism, a gluing mechanism, a sponge block feeding mechanism, a third aluminum foil feeding mechanism, a third heat-sealing mechanism, a plastic mark mechanism, a cutting mechanism, a waste bottom card collecting mechanism and a driving mechanism, the driving mechanism drives the bottom card to move from one side of the waste bottom card collecting mechanism at one side of the bottom card feeding mechanism in the whole process, the bottom card is fed onto a workbench by the bottom card feeding mechanism, the aluminum foil is fed onto the workbench and attached to the upper end surface of the bottom card by the first aluminum foil feeding mechanism, then the aluminum foil is transported to the first heat-sealing mechanism to be heat-sealed on the upper end surface of the bottom card, then the containing tank shaping mechanism is transported to carry out shaping of the containing tank, and then the test strip is fed onto the upper end surface of the bottom card by the test strip feeding mechanism, then the test paper is transported to a second aluminum foil feeding mechanism to attach the aluminum foil on the test paper strip, and then the test paper is transported to a second heat-sealing mechanism to heat-seal the aluminum foil on the bottom card, thereby fixing the test paper strip on the bottom card, transporting to a gluing mechanism, attaching the double faced adhesive tape on the bottom card, transporting to a sponge block feeding mechanism to feed the sponge block into the containing tank, transporting to a third aluminum foil feeding mechanism to attach the aluminum foil at the opening of the containing tank, transporting to a third heat sealing mechanism to heat seal the aluminum foil at the opening of the containing tank, seal the holding tank, transport again and carry out the crease of end card middle part to moulding trace mechanism and mould the type, transport again and cut to the shape that cuts the mechanism and carry out the test paper card, collect the mechanism through useless end card at last and collect waste material end card, whole process realizes automated production, saves the cost of labor, and improves sanitary safety performance, is fit for mass production, and whole batch product specification is unanimous.

Drawings

The accompanying drawings, which are included to provide a further understanding of the utility model and are incorporated in and constitute a part of this specification, illustrate embodiments of the utility model and together with the description serve to explain the utility model and not to limit the utility model.

Wherein:

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

FIG. 2 is a diagram of the relationship between a bottom card loading mechanism and a first aluminum foil loading mechanism according to the present invention;

FIG. 3 is an overall configuration diagram of the first heat-seal mechanism (second heat-seal mechanism, third heat-seal mechanism) in the utility model;

FIG. 4 is an overall view of the accommodating groove molding mechanism according to the present invention;

FIG. 5 is an overall structure diagram of a test strip feeding mechanism according to the present invention;

FIG. 6 is a schematic view showing the overall structure of the cutting assembly of the test board according to the present invention;

FIG. 7 is an overall block diagram of the test sheet transfer unit of the present invention;

FIG. 8 is an internal block diagram of a test sheet transfer unit of the present invention;

FIG. 9 is a detail view of the cutting element of the present invention;

FIG. 10 is a general structural diagram of the test strip transfer assembly of the present invention

FIG. 11 is an overall view of the plastic marking mechanism of the present invention;

fig. 12 is an overall configuration view of the cutting mechanism of the present invention;

FIG. 13 is a detail view of the lower platen of the present invention;

fig. 14 is an overall structural view of an upper punch plate in the present invention;

fig. 15 is an overall structural view of an adjusting member in the second aluminum foil feeding mechanism (third aluminum foil feeding mechanism) in the present invention;

FIG. 16 is an overall view of the sponge charging mechanism of the present invention;

FIG. 17 is an overall structural view of a collecting mechanism in the present invention;

fig. 18 is an overall configuration diagram of the drive mechanism of the present invention.

Description of reference numerals:

1. a frame; 2. a work table; 3. a bottom card feeding mechanism; 31. a first mounting plate; 33. a second magnetic powder clutch; 34. a bottom card mounting plate; 35. a bottom card detection fixing rod; 36. a bottom card detection sensor; 37. a bottom card roller; 38. adjusting the roller; 39. adjusting the spring; 310. a roller set; 4. a first aluminum foil feeding mechanism; 41. a first magnetic powder clutch; 42. an aluminum foil mounting plate; 43. an aluminum foil detection fixing rod; 44. an aluminum foil detection sensor; 45. an aluminum foil roller; 46. attaching an accessory; 5. a first heat-seal mechanism; 51. a first fixed column; 52. a first support plate; 53. a first sleeve; 54. a first slide plate; 55. a first lifting cylinder; 56. a first connection block; 57. a heat-sealing module; 571. a lower fixing plate; 542. a lower template; 573. a lower heat conducting wire; 574. an upper fixing plate; 575. mounting a template; 576. upper heat conducting wires; 577. the model is raised; 6. accommodating the groove molding mechanism; 61. a second fixed column; 62. a second support plate; 63. a second sleeve; 64. a second slide plate; 65. a second lifting cylinder; 66. a second connecting block; 67. a thermoplastic molding set; 671. feeding a thermoplastic template; 672. a lower thermoplastic template; 673. an air blowing groove; 674. a model groove; 675. heating a tube; 7. a test strip feeding mechanism; 71. a test board storage assembly; 72. a trial paper board cutting assembly; 721. a fixed mount; 722. a limiting piece of a test paper board; 7221. a limiting plate; 7222. a right side limit track; 7223. a limiting driving cylinder; 7224. a left side limit track; 7225. an avoidance groove; 723. cutting a test paper board; 7231. a cutting seat; 7232. a motor mounting seat; 7233. a cutting drive motor; 7234. an eccentric cam; 7235. cutting the connecting plate; 7236. a cutting knife; 7237. a drive slot; 724. cutting the driving piece; 7241. fixing the guide rail; 7242. sliding blocks of the test paper boards; 7243. a third single-axis servo module; 7244. a test paper board connecting block; 7245. fixing blocks of the test paper boards; 7246. a clamping unit; 7247. a second tow chain; 73. a trial board transfer assembly; 731. a column; 732. mounting a cross beam; 733. a first tow chain; 734. a transverse guide rail; 735. a transverse sliding block; 736. a transverse connecting plate; 737. a transverse mounting plate; 738. a transfer member; 7381. a vertical guide rail; 7382. installing a box body; 7383. a vertical sliding block; 7384. a second single-axis servo module; 7385. a vertical connecting plate; 7386. a vertical mounting plate; 7387. a first fixing plate; 7388. an adsorber; 739. a first single-axis servo module; 74. a test strip feeding assembly; 741. supporting the force arm; 742. a transfer motor; 743. a transfer connection plate; 744. a second fixing plate; 745. a gripping unit; 75. a test strip transfer assembly; 751. a test strip transfer guide rail; 752. a test strip moving sliding block; 753. a fourth single-axis servo module; 754. the test strip moving connecting plate; 755. a storage plate; 8. a second aluminum foil feeding mechanism; 81. a stabilizing frame; 82. a vertical plate; 83. a fourth fixing plate; 84. a fourth shifting board; 85. a fourth mounting plate; 86. a fixed roller; 87. a barrier roller; 88. a first connecting rod; 89. a second connecting rod; 810. a tension spring; 9. a second heat-sealing mechanism; 10. a gluing mechanism; 101. cutting off the part; 11. a sponge block feeding mechanism; 111. a sponge feeding assembly; 1111. a vibrating pan; 1112. a separator; 112. a transfer assembly; 1121. a clamping member; 1122. an adjustment member; 113. a drip assembly; 1131. an installation table; 1132. a dropping tube; 12. a third aluminum foil feeding mechanism; 13. a third heat-sealing mechanism; 14. a plastic mark mechanism; 141. a third fixing column; 142. a third support plate; 143. a third sleeve; 144. a third slide plate; 145. a third lifting cylinder; 146. a third connecting block; 147. a plastic mark module; 1471. a plastic mark template is arranged; 1472. a plastic mark template is arranged; 1473. molding a mark groove; 1474. a suction hole; 148. a third reinforcing block; 15. a cutting mechanism; 151. a second mounting plate; 152. a mounting frame; 153. a fourth fixed column; 154. a fourth sleeve; 155. a third fixing plate; 156. a fourth support plate; 157. cutting the workpiece; 1571. a third mounting plate; 1572. an upper punch press plate; 1573. a lower punch press plate; 1574. a buffer spring; 1575. stamping a bulge; 1576. punching a through groove; 158. cutting a driving piece; 16. a waste bottom card collecting mechanism; 161. a butt joint plate; 162. rotating the roller; 163. an assembly frame; 164. rotating the motor; 165. a bottom card collection roller; 17. a drive mechanism; 171. a push cylinder; 172. a drive support plate; 173. a support frame; 174. a fourth lifting cylinder; 175. a bearing seat; 176. a support bar; 177. a clamping plate; 18. a fixed seat; 19. and a support table.

Detailed Description

In order to make the technical problems, technical solutions and advantageous effects to be solved by the present invention clearer and clearer, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the utility model and are not intended to limit the utility model.

The present example is as follows:

referring to fig. 1, an assembly line for the production of test paper cards comprises a frame 1, wherein a workbench 2 is arranged on the upper end face of the frame 1, a bottom card feeding mechanism 3 arranged in the frame 1, a first aluminum foil feeding mechanism 4 sequentially arranged along the length direction of the frame 1, a first heat sealing mechanism 5 for heat sealing an aluminum foil on a bottom card, a holding tank shaping mechanism 6 for storing a sponge block by shaping on the bottom card, a test paper strip feeding mechanism 7 for feeding a test paper strip onto the bottom card, a second aluminum foil feeding mechanism 8 for feeding the aluminum foil onto the upper end face of the test paper strip, a second heat sealing mechanism 9 for heat sealing the aluminum foil on the upper end face of the test paper strip, a gluing mechanism 10 for attaching a double-sided adhesive to the upper end face of the test paper card, a sponge block feeding mechanism 11 for feeding the sponge block into the holding tank, a third aluminum foil feeding mechanism 12 for feeding the aluminum foil to the opening of the holding tank, a third heat sealing mechanism 13 for heat sealing the aluminum foil at the opening of the holding tank, The test paper cutting machine comprises a plastic mark mechanism 14 for carrying out crease mark molding on the middle part of a test paper card, a cutting mechanism 15 for cutting the processed test paper card, a waste bottom card collecting mechanism 16 for collecting cut waste bottom cards, and a driving mechanism 17 which is arranged on the frame 1 and drives the bottom cards to move from the bottom card feeding mechanism 3 to one side of the waste bottom card collecting mechanism 16.

By arranging a bottom card feeding mechanism 3, a first aluminum foil feeding mechanism 4, a first heat-sealing mechanism 5, a containing tank molding mechanism 6, a test strip feeding mechanism 7, a second aluminum foil feeding mechanism 8, a second heat-sealing mechanism 9, a gluing mechanism 10, a sponge block feeding mechanism 11, a third aluminum foil feeding mechanism 12, a third heat-sealing mechanism 13, a plastic mark mechanism 14, a cutting mechanism 15, a waste bottom card collecting mechanism 16 and a driving mechanism 17, the driving mechanism 17 drives the bottom card to move from one side of the waste bottom card collecting mechanism 16 at one side of the bottom card feeding mechanism 3 in the whole course, the bottom card is fed onto the workbench 2 by the bottom card feeding mechanism 3, the aluminum foil is fed onto the workbench 2 by the first aluminum foil feeding mechanism 4 and attached to the upper end face of the bottom card, then the bottom card is transported to the first heat-sealing mechanism 5 to heat-seal the upper end face of the bottom card, and then the containing tank is transported to the molding mechanism 6 for molding, then transported to a test paper strip feeding mechanism 7 to feed the test paper strip to the upper end surface of the bottom card, then transported to a second aluminum foil feeding mechanism 8 to attach an aluminum foil to the test paper strip, then transported to a second heat-sealing mechanism 9 to heat-seal the aluminum foil on the bottom card, thereby fixing the test paper strip on the bottom card, then transported to a gluing mechanism 10 to attach a double-sided adhesive to the bottom card, then transported to a sponge block feeding mechanism 11 to feed the sponge block into the containing tank, then transported to a third aluminum foil feeding mechanism 12 to attach the aluminum foil to the opening of the containing tank, then transported to a third heat-sealing mechanism 13 to heat-seal the aluminum foil at the opening of the containing tank, seal the containing tank, then transported to a plastic mark mechanism 14 to mold the middle part of the bottom card, then transported to a cutting mechanism 15 to cut the shape of the test paper card, finally collected waste bottom card by a waste bottom card collecting mechanism 16, the whole process realizes automatic production, the labor cost is saved, the sanitary safety performance is improved, the method is suitable for mass production, and the specifications of products in the whole batch are consistent.

Referring to fig. 1 and 2, the bottom card feeding mechanism 3 includes a first mounting plate 31 fixed in the frame 1, a second magnetic powder clutch 33 fixed on the first mounting plate 31, a bottom card mounting plate 34 fixed on a rotating shaft of the second magnetic powder clutch 33 and used for placing a bottom card to be rolled, a bottom card detecting fixing rod 35 fixed on the first mounting plate 31, a bottom card detecting sensor 36 fixed on the bottom card detecting fixing rod 35 and located above the bottom card mounting plate 34, two bottom card rollers 37 rotatably arranged on the first mounting plate 31 along a length direction of the first mounting plate 31, an adjusting roller 38 located between the two bottom card rollers 37 and used for adjusting a pre-tightening force when the bottom card is fed, an adjusting spring 39 having one end fixed on the first mounting plate 31 and the other end fixed on the adjusting roller 38, and a roller set 310 arranged on one side of the first mounting plate 31 and limiting the feeding of the bottom card to a position of the conveyor belt, the adjustment rollers 38 are located below the two bottom card rollers 37.

The up end of frame 1 is fixed with fixing base 18, aluminium foil feed mechanism includes that two misplaces and sets up the aluminium foil material loading unit on fixing base 18, aluminium foil material loading unit is including the first magnetic powder clutch 41 that is fixed in fixing base 18, be fixed in first magnetic powder clutch 41 axis of rotation and be used for placing the aluminium foil mounting disc 42 of lapping the aluminium foil, be fixed in aluminium foil detection dead lever 43 on the fixing base 18, be fixed in aluminium foil detection dead lever 43 on and be located the aluminium foil detection inductor 44 of aluminium foil mounting disc 42 top, rotate and connect in the aluminium foil roller 45 of fixing base 18, and set up in aluminium foil mounting disc 42 below and be used for attaching the annex 46 on the end card with the aluminium foil, aluminium foil mounting disc 42 just is in end card feed mechanism 3 tops, aluminium foil detection inductor 44 is located aluminium foil mounting disc 42 top and is used for responding to whether still there is the aluminium foil on the aluminium foil mounting disc 42.

Referring to fig. 1 and 3, each of the first heat-sealing mechanism 5, the second heat-sealing mechanism 9, and the third heat-sealing mechanism 13 includes four first fixing columns 51 each having one end fixed to the worktable 2, four first supporting plates 52 fixed to the other ends of the four first fixing columns 51, four first sleeves 53 respectively sleeved and slidably connected to the four first fixing columns 51, a first sliding plate 54 fixed to the circumferential side walls of the four first sleeves 53 and slidably connected to the first fixing columns 51, a first lifting cylinder 55 fixed to the upper end surface of the first supporting plate 52 and having an output end penetrating through the first supporting plate 52, a first connecting block 56 having an upper end surface fixed to the output end of the first lifting cylinder 55 and a lower end surface fixed to the upper surface of the first sliding plate 54, and a heat-sealing module 57 disposed between the first sliding plate 54 and the worktable 2;

the heat-sealing module 57 comprises a lower fixing plate 571 fixed on the upper end surface of the workbench 2 and located between the four first fixing columns 51, a lower template 542 fixed on the upper end surface of the lower fixing plate 571, two lower heat-conducting wires 573 arranged symmetrically along the central axis of the lower template 542 and fixed on the lower template 542 in a penetrating way, an upper fixing plate 574 fixed on the lower end surface of the first sliding plate 54, an upper template 575 fixed on the lower end surface of the upper fixing plate 574, and two upper heat-conducting wires 576 arranged symmetrically along the central axis of the upper template 575 and fixed on the upper template 575 in a penetrating way, wherein both the lower end surface of the upper template 575 and the upper end surface of the lower template 542 are provided with model protrusions 577, and the model projections 577 of the lower end surface of the upper template 575 correspond to the model projections 577 of the upper end surface of the lower template 542 in position one to one, when the upper template 575 and the lower template 542 are closed, the model projections 577 on the lower end surface of the upper template 575 are attached to the end surface of the lower template 542 where the model projections 577 on the upper end surface are close to each other.

Referring to fig. 1 and 4, the accommodating groove molding mechanism 6 includes four second fixing columns 61, one ends of which are fixed to the workbench 2, a second supporting plate 62 fixed to the other ends of the four second fixing columns 61, four second sleeves 63 respectively sleeved and slidably connected to the four second fixing columns 61, a second sliding plate 64 fixed to the peripheral side walls of the four second sleeves 63 and slidably connected to the second fixing columns 61, a second lifting cylinder 65 fixed to the upper end surface of the second supporting plate 62, an output end of which passes through the second supporting plate 62, a second connecting block 66, an upper end surface of which is fixed to the output end of the second lifting cylinder 65, and a lower end surface of which is fixed to the upper surface of the second sliding plate 64, and a thermoplastic module 67 arranged between the second sliding plate 64 and the workbench 2;

the thermoplastic module 67 comprises two thermoplastic units symmetrically arranged between the second sliding plate 64 and the workbench 2, the two thermoplastic units comprise an upper thermoplastic template 671 fixed on the lower end face of the second sliding plate 64 and a lower thermoplastic template 672 fixed on the upper end face of the workbench 2, the upper thermoplastic template 671 is provided with an air blowing groove 673, the upper end face of the lower thermoplastic template 672 is provided with a model groove 674, and the lower thermoplastic template 672 is provided with a heating pipe 675 in a penetrating manner.

Referring to fig. 1 and 5, the test paper feeding mechanism 7 includes a test paper board receiving assembly 71 for storing test paper boards, a test paper board cutting assembly 72 for processing the test paper boards into test paper strips, a test paper board transferring assembly 73 for transferring the test paper boards from the test paper board receiving assembly 71 to the test paper board cutting assembly 72, a test paper strip feeding assembly 74 for transferring the test paper strips to a processing flow line, and a test paper strip transferring assembly 75 for transferring the test paper strips from the test paper board cutting assembly 72 to the test paper strip feeding assembly 74, wherein the test paper board receiving assembly 71, the test paper board cutting assembly 72, the test paper board transferring assembly 73, the test paper strip feeding assembly 74, and the test paper strip transferring assembly 75 are all located on an upper end surface of the rack 1;

referring to fig. 5 to 7, the test paper board transferring assembly 73 includes two columns 731 fixed to the upper end surface of the rack 1, a mounting beam 732 fixed to one end of the two columns 731, which is away from the rack 1, a first drag chain 733 fixed to the upper end surface of the mounting beam 732 and facilitates wire arrangement, a transverse guide 734 fixed to one side of the mounting beam 732, a transverse sliding block 735 sliding along the transverse guide 734, two transverse connecting plates 736 fixed to the upper and lower ends of the transverse sliding block 735, a transverse mounting plate 737 fixed to the same side end of the two transverse connecting plates 736, a transferring member 738 fixed to one side of the transverse mounting plate 737, which is away from the transverse guide 734, and a first uniaxial servo module 739 driving the transferring member 738 to move, wherein the first drag chain 733 moves synchronously with the transferring member 738;

the transfer member 738 comprises a vertical guide rail 7381 fixed on one side of the transverse mounting plate 737, which is away from the transverse guide rail 734, a mounting box 7382 fixed on the upper end of the vertical guide rail 7381, a vertical sliding block 7383 sliding along the vertical guide rail 7381, a second single-shaft servo module 7384 arranged on the lower end surface of the mounting box 7382 and used for driving the vertical sliding block 7383 to slide, two vertical connecting plates 7385 respectively fixed on the upper and lower ends of the vertical sliding block 7383, a vertical mounting plate 7386 with two ends respectively fixed on the same side end of the two vertical connecting plates 7385, a first fixing plate 7387 fixed on the lower end of the vertical mounting plate 7386, and two adsorbers 7388 respectively fixed on two ends of the first fixing plate 7387, wherein the adsorption ports of the adsorbers 7388 face downward.

Referring to fig. 5 to 9, the test paper board cutting assembly 72 includes a fixing frame 721 fixed to the upper end surface of the rack 1, a test paper board limiting member 722 disposed on the upper end surface of the fixing frame 721 and used for limiting the position of the test paper board, a test paper board cutting member 723 disposed on the upper end surface of the fixing frame 721 and used for cutting the test paper board, and a cutting driving member 724 disposed on the upper end surface of the fixing frame 721 and used for driving the test paper board to move toward the test paper board cutting member 723;

the trial paper board limiting part 722 comprises a limiting plate 7221 fixed on the upper end surface of the fixing frame 721, a right limiting rail 7222 fixed on the upper end surface of the limiting plate 7221, a limiting driving cylinder 7223 fixed on the upper end surface of the fixing frame 721 and a left limiting rail 7224 driven by the limiting driving cylinder 7223 to approach the right limiting rail 7222, and the left limiting rail 7224 is connected to the upper end surface of the limiting plate 7221 in a sliding manner;

an avoiding groove 7225 is formed inwards at one end of the limiting plate 7221 far away from the test paper board cutting piece 723, the cutting driving piece 724 comprises a fixed guide rail 7241 fixed to the upper end face of the fixing frame 721 and located on one side of the limiting plate 7221, a test paper board sliding block 7242 sliding along the fixed guide rail 7241, a third single-shaft servo module 7243 arranged at one end of the fixed guide rail 7241 and used for driving the test paper board sliding block 7242 to slide, test paper board connecting blocks 7244 fixed to two sides of the test paper board sliding block 7242, a test paper board fixing block 7245 fixed to the lower end face of the test paper board connecting block 7244, a clamping unit 7246 fixed to one side, close to the test paper board cutting piece 723, of the test paper board fixing block 7245 and a second drag chain 7247 arranged on one side, far away from the clamping unit 7246, wherein the clamping unit 7246 is located in the avoiding groove 7225 and used for clamping and fixing the test paper boards, and the second drag chain 7247 moves synchronously with the paper board sliding block 7242;

the trial paper board cutting member 723 comprises a cutting seat 7231 fixed on the upper end face of the fixing frame 721 and far away from one end of the cutting driving member 724, a motor mounting seat 7232 fixed on the upper end face of the fixing frame 721, a cutting driving motor 7233 fixed on the motor mounting seat 7232, an eccentric cam 7234 fixed on an output shaft of the cutting driving motor 7233, a cutting connecting plate 7235 driven by the eccentric cam 7234, and a cutting knife 7236 fixed on one side of the cutting connecting plate 7235, a driving groove 7237 is formed in the cutting connecting plate 7235, the eccentric cam 7234 is slidably connected to the cutting connecting plate 7235 along the driving groove 7237, and downward cutting and side pulling when the cutting knife 7236 is matched with the cutting seat 7231 are realized.

Referring to fig. 5 to 9, the test strip transfer assembly 75 includes a test strip transfer guide 751 fixed on the workbench 2 and located below the fixing frame 721, a test strip moving slide 752 sliding along the test strip transfer guide, a fourth uniaxial servo module 753 disposed at one end of the test strip transfer guide 751 and driving the test strip moving slide 752 to slide, a test strip moving connection plate 754 fixed at one side of the test strip moving slide 752, and a receiving plate 755 fixed at one side of the test strip moving connection plate 754 and configured to receive the cut test strip.

Referring to fig. 5 to 10, the test strip feeding assembly 74 includes a supporting arm 741 fixed to the upper end surface of the machine body, two transferring motors 742 both fixed to one side of the supporting arm 741, two transferring connection plates 743 fixed to the output ends of the two transferring motors 742, a second fixing plate 744 fixed to the two transferring connection plates 743, and a plurality of clamping units 745 fixed to one side of the second fixing plate 744 opposite to the supporting arm 741.

Referring to fig. 1 and 11, the plastic mark mechanism 14 includes four third fixing columns 141 each having one end fixed to the worktable 2, a third supporting plate 142 fixed to the other ends of the four third fixing columns 141, four third sleeves 143 respectively sleeved on and slidably connected to the four third fixing columns 141, a third sliding plate 144 fixed to the peripheral side walls of the four third sleeves 143 and slidably connected to the third fixing columns 141, the plastic mark mold comprises a third lifting cylinder 145 fixed on the upper end face of the third support plate 142 and having an output end penetrating through the third support plate 142, a third connecting block 146 fixed on the output end of the third lifting cylinder 145 and having a lower end face fixed on the third sliding plate 144, and a plastic mark mold 147 arranged between the third sliding plate 144 and the workbench 2, wherein two third reinforcing blocks 148 are fixed on the peripheral side of the third connecting block 146, and the two third reinforcing blocks 148 are symmetrically arranged on the peripheral side of the second connecting block 66.

The plastic mark module 147 comprises two plastic mark units symmetrically arranged between the third sliding plate 144 and the workbench 2, the two plastic mark units comprise an upper plastic mark template 1471 fixed on the lower end surface of the third sliding plate 144 and a lower plastic mark template 1472 fixed on the upper end surface of the workbench 2, a plastic mark groove 1473 is formed in the upper end surface of the lower plastic mark template 1472, and an air suction hole 1474 communicated with the plastic mark groove 1473 is formed in the lower plastic mark template 1472 and used for air suction molding to form a crease.

Referring to fig. 1, and fig. 12 to 14, the cutting mechanism 15 includes a second mounting plate 151 disposed in the bottom of the frame body and located below the worktable 2, a mounting frame 152 vertically fixed to an upper end surface of the second mounting plate 151, four fourth fixing columns 153 fixed to an upper end surface of the mounting frame 152, four fourth sleeves 154 respectively sleeved and fixed to the fourth fixing columns 153, a third fixing plate 155 fixed to the four fourth sleeves 154, a fourth supporting plate 156 fixed to upper ends of the four fourth fixing columns 153, a cutting member 157 disposed between the third fixing plate 155 and the fourth supporting plate 156, and a cutting driving member 158 driving the cutting member 157 to cut;

the cutting member 157 includes a third mounting plate 1571 fixed to the lower end of the fourth support plate 156, an upper pressing plate 1572 fixed to the lower end face of the third mounting plate 1571, a lower pressing plate 1573 fixed to the upper end face of the third fixing plate 155, and a buffer spring 1574 disposed between the upper pressing plate 1572 and the lower pressing plate 1573, the lower end face of the upper pressing plate 1572 is fixed with a pressing protrusion 1575, a pressing through groove 1576 matched with the pressing protrusion 1575 is formed in the middle of the lower pressing plate 1573, and the lower end of the upper pressing plate 1572 is close to the pressing groove 1575.

Referring to fig. 1 and 15, each of the second aluminum foil feeding mechanism 8 and the third aluminum foil feeding mechanism 12 includes the same component as the first aluminum foil feeding mechanism 4, and further includes an adjusting member fixed to the fixing base 18 (the reference number is denoted by the component of the second aluminum foil feeding mechanism 8), where the adjusting member includes a fixing frame 81 fixed to one side of the fixing base 18, a vertical plate 82 fixed to one side of the fixing frame 81 away from the fixing base 18, two fourth fixing plates 83 fixed to both sides of the vertical plate 82, respectively, a fourth sliding plate 84 slidably connected to the fourth fixing plate 83 along the length direction of the fourth fixing plate 83, a fourth mounting plate 85 fixed to the upper end surface of the fourth sliding plate 84, a fixing roller 86 fixed to one side of the fourth mounting plate 85 away from the fourth sliding plate 84, a blocking roller 87 fixed to both sides of the fourth fixing plate 83 and located at the lower end side of the fourth fixing plate 83, and a first connecting rod 88 fixed to the lower end of the fourth mounting plate 85, A second connecting rod 89 fixed on the stabilizing frame 81 and parallel to the vertical plate 82, and a tension spring 810 with two ends fixed on the ends of the first connecting rod 88 and the second connecting rod 89 close to each other.

The tape sticking mechanism 10 is specifically a tape sticking machine, and has a cut-off member 101 for cutting off the double-sided tape.

Referring to fig. 1 and 16, a supporting platform 19 is disposed on one side of the frame 1, and the sponge block feeding mechanism 11 includes a sponge feeding assembly 111 disposed on the working platform 2 and the supporting platform 19, a transferring assembly 112 for transferring the sponge from the sponge feeding assembly 111 to the test paper card accommodating groove, and a dropping assembly 113 for dropping the diluted liquid to the sponge already placed in the accommodating groove. The sponge feeding assembly 111 includes a vibration plate 1111 provided on an upper end surface of the support base 19, and a partition 1112 receiving the vibration plate 1111 sponge and individually partitioning the sponge. The transferring assembly 112 includes a clamping member 1121 for clamping the sponge in the separating member 1112, and an adjusting member 1122 for driving the clamping member 1121 to perform a spatial adjustment. The dropping assembly 113 includes a mounting platform 1131 fixed above the upper end surface of the worktable 2, and a dropping tube 1132 fixed on the mounting platform 1131 and used for diluting and dropping the sponge block placed in the accommodating tank.

Referring to fig. 1 and 17, the collecting mechanism includes an abutting plate 161 fixed to the table 2 and located at one end of the table 2, a rotating roller 162 rotatably connected to the table 2 and around which the waste hopper passes, a jig frame 163 fixed to an upper end surface of the table 2, a rotating motor 164 fixed to the jig frame 163, and a hopper collecting roller 165 rotatably provided to the jig frame 163 and driven by the rotating motor 164. The product bottom card passes around the rotating roller 162 to enter the bottom card collecting roller 165, and the rotating motor 164 rotates to collect the residual material roller into a roll.

Referring to fig. 1 and 18, the driving mechanism 17 includes a pushing cylinder 171 fixed in the frame 1, a driving support plate 172 having one end fixed to an output end of the pushing cylinder 171, a support frame 173 fixed to an upper end surface of the driving support plate 172, a fourth lifting cylinder 174 fixed to an upper end of the support frame 173, two bearing blocks 175 fixed to two sides of the fourth lifting cylinder 174, two support rods 176 slidably connected to the two bearing blocks 175, and a clamping plate 177 having an upper end surface fixed to both the support rods 176 and an output shaft of the fourth lifting cylinder 174.

The working steps of the pipeline in this embodiment are as follows:

preparation work: firstly, materials required by each station are loaded to each station; the driving mechanism 17 drives the bottom card to move from the waste bottom card collecting mechanism 16 at one side of the bottom card feeding mechanism 3 in the whole process;

s1: the bottom card feeding mechanism 3 feeds the bottom card onto the workbench 2, and the first aluminum foil feeding mechanism 4 feeds an aluminum foil onto the workbench 2 and is attached to the upper end face of the bottom card;

s2: the bottom card is transported to a first heat-sealing mechanism 5 to heat-seal the aluminum foil on the upper end surface of the bottom card;

s3: the bottom card is transported to a containing groove molding mechanism 6 to mold the containing groove;

s4: the bottom card is transported to a test strip feeding mechanism 7, and the test strip is fed to the upper end face of the bottom card by the test strip feeding mechanism 7;

s5: the bottom card is transported to a second aluminum foil feeding mechanism 8 to attach the aluminum foil on the test paper strip,

s6: the bottom card is transported to a second heat-sealing mechanism 9 to heat-seal the aluminum foil on the bottom card, so that the test strip is fixed on the bottom card;

s7: the bottom card is transported to a gluing mechanism 10, and double-sided adhesive is attached to the bottom card;

s8: the bottom card is transported to a sponge block feeding mechanism 11 to feed the sponge block into the accommodating groove, and the diluent is dripped;

s9: the bottom card is transported to a third aluminum foil feeding mechanism 12 to attach the aluminum foil to the opening of the accommodating groove;

s10: the bottom card is transported to a third heat-sealing mechanism 13 to heat-seal the aluminum foil at the opening of the containing groove, so as to seal the containing groove and prevent the sponge block and the diluent from separating from the containing groove;

s11: the bottom card is transported to a mark molding mechanism 14 to mold the middle crease mark of the bottom card, so that when detection is convenient, the two sides of the bottom card are attached, and the test strip is just attached to the accommodating groove;

s12: the base card is then transported to a cutting mechanism 15 for cutting the shape of the test paper card,

s13: the waste bottom card is collected by a waste bottom card collecting mechanism 16;

the whole process realizes automatic production, saves labor cost, improves sanitary safety performance, is suitable for mass production, and has consistent product specification in the whole batch.

The utility model has been described above with reference to the accompanying drawings, it is obvious that the utility model is not limited to the specific implementation in the above-described manner, and it is within the scope of the utility model to apply the inventive concept and solution to other applications without substantial modification.

Claims (10)

1. The utility model provides an assembly line for test paper card production, which comprises a frame (1), frame (1) up end is provided with workstation (2), a serial communication port, still including setting up end card feed mechanism (3) in frame (1), first aluminium foil feed mechanism (4) that set gradually along frame (1) length direction, with first heat-seal mechanism (5) of aluminium foil heat-seal on the end card, mould holding tank that type goes out confession sponge piece and deposit on the end card and mould type mechanism (6), test paper strip feed mechanism (7) on with test paper strip material loading to the end card, with second aluminium foil feed mechanism (8) of aluminium foil material loading to test paper strip up end, with second heat-seal mechanism (9) of aluminium foil at test paper strip up end, with double faced adhesive tape attached rubberizing mechanism (10) of test paper card up end, with sponge piece material loading to sponge piece feed mechanism (11) in the holding tank, The aluminum foil cutting machine comprises a third aluminum foil feeding mechanism (12) for feeding aluminum foils to an opening of an accommodating groove, a third heat sealing mechanism (13) for heat sealing the aluminum foils at the opening of the accommodating groove, a plastic mark mechanism (14) for crease molding of the middle part of a test paper card, a cutting mechanism (15) for cutting the test paper card after processing is completed, a waste bottom card collecting mechanism (16) for collecting waste bottom cards after cutting, and a driving mechanism (17) which is arranged on a rack (1) and drives the bottom cards to move from the bottom card feeding mechanism (3) to one side of the waste bottom card collecting mechanism (16).

2. The assembly line for production of the test paper cards as claimed in claim 1, wherein the bottom card feeding mechanism (3) comprises a first mounting plate (31) fixed in the rack (1), a second magnetic powder clutch (33) fixed on the first mounting plate (31), a bottom card mounting plate (34) fixed on the rotating shaft of the second magnetic powder clutch (33) and used for placing the bottom cards in a roll, a bottom card detection fixing rod (35) fixed on the first mounting plate (31), a bottom card detection sensor (36) fixed on the bottom card detection fixing rod (35) and located above the bottom card mounting plate (34), two bottom card rollers (37) rotatably arranged on the first mounting plate (31) along the length direction of the first mounting plate (31), an adjusting roller (38) located between the two bottom card rollers (37) and used for adjusting the pre-tightening force when the bottom card is fed, an adjusting spring (38) with one end fixed on the first mounting plate (31) and the other end fixed on the adjusting roller (38) (39) And a roller set (310) which is arranged on one side of the first mounting plate (31) and limits the position of the bottom card feeding to the conveyor belt, wherein the adjusting roller (38) is positioned below the two bottom card rollers (37).

3. The production line for the test paper cards as claimed in claim 1, wherein the fixing seat (18) is fixed on the upper end face of the rack (1), the aluminum foil feeding mechanism comprises two aluminum foil feeding units arranged on the fixing seat (18) in a staggered manner, the aluminum foil feeding units comprise a first magnetic powder clutch (41) fixed on the fixing seat (18), an aluminum foil mounting plate (42) fixed on the rotating shaft of the first magnetic powder clutch (41) and used for placing coiled aluminum foils, an aluminum foil detection fixing rod (43) fixed on the fixing seat (18), an aluminum foil detection sensor (44) fixed on the aluminum foil detection fixing rod (43) and located above the aluminum foil mounting plate (42), an aluminum foil roller (45) rotatably connected to the fixing seat (18), and a pasting part (46) arranged below the aluminum foil mounting plate (42) and used for pasting the aluminum foils on the base cards, aluminium foil mounting disc (42) and in end card feed mechanism (3) top, aluminium foil detects inductor (44) and is located aluminium foil mounting disc (42) top and is used for responding to whether still have the aluminium foil on aluminium foil mounting disc (42).

4. The production line for the test paper cards as claimed in claim 1, wherein each of the first heat-sealing mechanism (5), the second heat-sealing mechanism (9) and the third heat-sealing mechanism (13) comprises four first fixing columns (51) with one ends fixed on the workbench (2), a first supporting plate (52) fixed at the other ends of the four first fixing columns (51), four first sleeves (53) respectively sleeved and slidably connected with the four first fixing columns (51), a first sliding plate (54) fixed on the peripheral side walls of the four first sleeves (53) and slidably connected with the first fixing columns (51), a first lifting cylinder (55) fixed on the upper end surface of the first supporting plate (52) and with an output end penetrating through the first supporting plate (52), a first connecting block (56) fixed on the upper end surface of the first lifting cylinder (55) and with a lower end surface fixed on the first sliding plate (54), And a heat-seal module (57) arranged between the first sliding plate (54) and the workbench (2);

the heat-sealing module (57) comprises a lower fixing plate (571) which is fixed on the upper end surface of the workbench (2) and is positioned among four first fixing columns (51), a lower template (542) which is fixed on the upper end surface of the lower fixing plate (571), two lower heat-conducting wires (573) which are symmetrically arranged along the central axis of the lower template (542) and are fixedly arranged on the lower template (542) in a penetrating way, an upper fixing plate (574) which is fixed on the lower end surface of the first sliding plate (54), an upper template (575) which is fixed on the lower end surface of the upper fixing plate (574), and two upper heat-conducting wires (576) which are symmetrically arranged along the central axis of the upper template (575) and are fixedly arranged on the upper template (575) in a penetrating way, wherein the lower end surface of the upper template (575) and the upper end surface of the lower template (542) are respectively provided with model bulges (577), and the model bulges (577) on the lower end surface of the upper template (575) are in one-to one correspondence with the positions of the model bulges (577) on the upper end surface of the lower template (542), when the upper template (575) and the lower template (542) are matched, the model bulge (577) on the lower end surface of the upper template (575) is attached to one end surface, close to the model bulge (577) on the upper end surface of the lower template (542), of the upper template (575).

5. A line for the production of test cards according to claim 1, the accommodating groove molding mechanism (6) comprises four second fixing columns (61) with one ends fixed on the workbench (2), four second supporting plates (62) fixed at the other ends of the four second fixing columns (61), four second sleeves (63) respectively sleeved and slidably connected with the four second fixing columns (61), four second sliding plates (64) fixed on the peripheral side walls of the four second sleeves (63) and slidably connected with the second fixing columns (61), a second lifting cylinder (65) fixed on the upper end face of the second supporting plate (62) and with an output end penetrating through the second supporting plates (62), a second connecting block (66) with an upper end face fixed on the output end of the second lifting cylinder (65) and with a lower end face fixed on the second sliding plate (64), and a thermoplastic module (67) arranged between the second sliding plates (64) and the workbench (2);

thermoplastic module (67) including two symmetries set up the unit of moulding thermoplastic between second slide plate (64) and workstation (2), two the unit of moulding thermoplastic all including last thermoplastic template (671) of terminal surface under being fixed in second slide plate (64) and be fixed in lower thermoplastic template (672) of workstation (2) up end, go up thermoplastic template (671) and seted up gas blow tank (673), mould recess (674) have been seted up to lower thermoplastic template (672) up end, just heating pipe (675) are worn to be equipped with by lower thermoplastic template (672).

6. A line for the production of test cards according to claim 1, the test paper strip feeding mechanism (7) comprises a test paper plate receiving component (71) for storing test paper plates, a test paper plate cutting component (72) for processing the test paper plates into test paper strips, a test paper plate transferring component (73) for transferring the test paper plates from the test paper plate receiving component (71) to the test paper plate cutting component (72), a test paper strip feeding component (74) for transferring the test paper strips to a processing assembly line, and a test paper strip transferring component (75) for transferring the test paper strips from the test paper plate cutting component (72) to the test paper strip feeding component (74), the test paper board receiving assembly (71), the test paper board cutting assembly (72), the test paper board transferring assembly (73), the test paper strip feeding assembly (74) and the test paper strip transferring assembly (75) are all positioned on the upper end face of the rack (1);

the test paper board transfer component (73) comprises two upright posts (731) fixed on the upper end surface of the rack (1), a mounting cross beam (732) fixed on one end of the two upright posts (731) far away from the rack (1), a first drag chain (733) fixed on the upper end surface of the mounting cross beam (732) and facilitating wire arrangement, a transverse guide rail (734) fixed on one side of the mounting cross beam (732), and a transverse sliding block (735) sliding along the transverse guide rail (734), the device comprises two transverse connecting plates (736) which are respectively fixed at the upper end and the lower end of a transverse sliding block (735), a transverse mounting plate (737) of which the two ends are respectively fixed at the end parts on the same side of the two transverse connecting plates (736), a transfer piece (738) which is fixed at one side of the transverse mounting plate (737) away from a transverse guide rail (734), and a first single-axis servo module (739) for driving the transfer piece (738) to move, wherein the first drag chain (733) synchronously moves along with the transfer piece (738);

the transfer piece (738) comprises a vertical guide rail (7381) fixed on one side, deviating from the transverse guide rail (734), of the transverse mounting plate (737), a mounting box body (7382) fixed on the upper end portion of the vertical guide rail (7381), a vertical sliding block (7383) sliding along the vertical guide rail (7381), a second single-shaft servo module (7384) arranged on the lower end face of the mounting box body (7382) and used for driving the vertical sliding block (7383) to slide, two vertical connecting plates (7385) respectively fixed on the upper end and the lower end of the vertical sliding block (7383), a vertical mounting plate (7386) with two ends respectively fixed on the same side end portions of the two vertical connecting plates (7385), a first fixing plate (7387) fixed on the lower end portion of the vertical mounting plate (7386), and two adsorbers (7388) respectively fixed on two ends of the first fixing plate (7387), wherein an adsorption port of the adsorber (7388) faces downwards.

7. The assembly line for the production of the test paper cards as claimed in claim 6, wherein the test paper board cutting assembly (72) comprises a fixing frame (721) fixed on the upper end surface of the rack (1), a test paper board limiting part (722) arranged on the upper end surface of the fixing frame (721) and used for limiting the position of the test paper board, a test paper board cutting part (723) arranged on the upper end surface of the fixing frame (721) and used for cutting the test paper board, and a cutting driving part (724) arranged on the upper end surface of the fixing frame (721) and used for driving the test paper board to move towards the test paper board cutting part (723);

the test paper board limiting part (722) comprises a limiting plate (7221) fixed on the upper end surface of the fixing frame (721), a right limiting rail (7222) fixed on the upper end surface of the limiting plate (7221), a limiting driving cylinder (7223) fixed on the upper end surface of the fixing frame (721), and a left limiting rail (7224) driven by the limiting driving cylinder (7223) to approach the right limiting rail (7222), wherein the left limiting rail (7224) is connected to the upper end surface of the limiting plate (7221) in a sliding manner;

one end, far away from the test paper board cutting piece (723), of the limiting plate (7221) is inwards provided with an avoiding groove (7225), the cutting driving piece (724) comprises a fixed guide rail (7241) which is fixed on the upper end face of the fixing frame (721) and located on one side of the limiting plate (7221), a test paper board sliding block (7242) which slides along the fixed guide rail (7241), a third single-shaft servo module (7243) which is arranged at one end of the fixed guide rail (7241) and used for driving the test paper board sliding block (7242) to slide, test paper board connecting blocks (7244) which are fixed on two sides of the test paper board sliding block (7242), a test paper board fixing block (7245) which is fixed on the lower end face of the test paper board connecting block (7244), a clamping unit (7246) which is fixed on one side, near the test paper board cutting piece (723), and a second drag chain (7247) which is arranged on one side, far away from the clamping unit (7246), of the test paper board fixing block (7245), the clamping unit (7246) is positioned in the avoiding groove (7225) and used for clamping and fixing the test paper board, and the second drag chain (7247) moves synchronously along with the slide block (7242) of the test paper board;

the trial paper board cutting piece (723) is including being fixed in cutting seat (7231) of mount (721) up end and keeping away from cutting driving piece (724) one end, being fixed in motor mount (7232) of mount (721) up end, being fixed in cutting driving motor (7233) of motor mount (7232), being fixed in eccentric cam (7234) of cutting driving motor (7233) output shaft, cutting connecting plate (7235) that is driven by eccentric cam (7234), and being fixed in cutting knife (7236) of cutting connecting plate (7235) one side, driving groove (7237) have been seted up in cutting connecting plate (7235), driving groove (7237) sliding connection is followed in cutting connecting plate (7235) in eccentric cam (7234), undercutting and side-draw when realizing cutting knife (7236) and cutting seat (7231) cooperation.

8. The production line for the test paper card of claim 6, wherein the test paper strip feeding assembly (74) comprises a supporting force arm (741) fixed on the upper end surface of the machine body, two transferring motors (742) both fixed on one side of the supporting force arm (741), two transferring connection plates (743) respectively fixed on the output ends of the two transferring motors (742), a second fixing plate (744) fixed on the two transferring connection plates (743), and a plurality of clamping units (745) fixed on one side of the second fixing plate (744) away from the supporting force arm (741).

9. The production line for the test paper card as claimed in claim 1, wherein the plastic mark mechanism (14) comprises four third fixing columns (141) each having one end fixed to the workbench (2), a third support plate (142) fixed to the other end of each of the four third fixing columns (141), four third sleeves (143) respectively sleeved on and slidably connected to the four third fixing columns (141), a third sliding plate (144) fixed to the peripheral side walls of the four third sleeves (143) and slidably connected to the third fixing columns (141), a third lifting cylinder (145) fixed to the upper end surface of the third support plate (142) and having an output end penetrating through the third support plate (142), a third connecting block (146) having an upper end surface fixed to the output end of the third lifting cylinder (145) and a lower end surface fixed to the upper surface of the third sliding plate (144), and a plastic mark module (147) arranged between the third sliding plate (144) and the workbench (2), two third reinforcing blocks (148) are fixed on the peripheral side of the third connecting block (146), and the two third reinforcing blocks (148) are symmetrically arranged on the peripheral side of the second connecting block (66);

mould mark module (147) including two symmetry settings mould the mark unit between third slide plate (144) and workstation (2), two mould the mark unit all including being fixed in last mould mark template (1471) of third slide plate (144) lower extreme face and being fixed in lower mould mark template (1472) of workstation (2) up end, mould mark template (1472) up end down and seted up and mould mark recess (1473), and mould mark template (1472) down and set up suction hole (1474) that the intercommunication was moulded mark recess (1473) for mould the crease of type of breathing in.

10. The production line for the test paper card as claimed in claim 1, wherein the cutting mechanism (15) comprises a second mounting plate (151) arranged in the bottom of the frame body and located below the workbench (2), a mounting frame (152) vertically fixed to the upper end surface of the second mounting plate (151), four fourth fixing columns (153) fixed to the upper end surface of the mounting frame (152), four fourth sleeves (154) respectively sleeved and fixed to the fourth fixing columns (153), a fourth fixing plate (83) fixed to the four fourth sleeves (154), a fourth supporting plate (156) fixed to the upper ends of the four fourth fixing columns (153), a cutting member (157) arranged between the third fixing plate (155) and the fourth supporting plate (156), and a cutting driving member (158) driving the cutting member (157) to cut;

cutting member (157) including be fixed in third mounting panel (1571) of fourth backup pad (156) lower extreme, be fixed in upper punch plate (1572) of third mounting panel (1571) lower extreme, be fixed in lower punch plate (1573) of third fixed plate (155) upper extreme and set up buffer spring (1574) between upper punch plate (1572) and lower punch plate (1573), upper punch plate (1572) lower extreme facial features is fixed with punching press arch (1575), lower punch plate (1573) middle part is run through have with punching press arch (1575) complex punching press logical groove (1576), upper punch plate (1572) lower extreme is close to the avris and is fixed with the locating lever, lower punch plate (1573) are close to the avris and are fixed with the locating hole of being connected with the locating lever slides.

Images