CN115610764A - Blood bag transports packagine machine - Google Patents

Abstract

The invention relates to the field of blood bag packaging, in particular to a blood bag transferring and packaging machine. Including the opening subassembly, heat-seal subassembly and propelling movement subassembly, opening subassembly and heat-seal subassembly are all including actuating mechanism in opposite directions, the opening subassembly also has two strip cavity suction discs, strip cavity suction disc connection corresponds actuating mechanism in opposite directions, the heat-seal subassembly has two and corresponds the heat-seal layering that actuating mechanism links to each other in opposite directions, every heat-seal layering both ends all set up the tear mouth cutter, the propelling movement subassembly includes the carrier, propelling movement mechanism and canceling release mechanical system, the carrier sets up the one side of keeping away from the opening subassembly at the heat-seal subassembly, propelling movement mechanism sets up in the carrier, canceling release mechanical system sets up and is used for making propelling movement mechanism reset on the carrier, two sets of evacuation subassemblies, set up respectively in the carrier both sides, every group evacuation subassembly all includes exhaust tube and moves back a tub mechanism, the exhaust tube activity sets up in the lateral wall of carrier, there is a tub mechanism that moves back between heat-seal subassembly and carrier, the exhaust tube is used for stretching into the wrapping bag, it can take out the exhaust tube to move back a tub mechanism when the heat-seal subassembly is worked.

Description

Blood bag transports packagine machine

Technical Field

The invention relates to the field of blood bag packaging, in particular to a blood bag transferring and packaging machine.

Background

As is well known, the blood bag is a finished blood bag product which is made by two rolls of PVC film materials through the processes of film stripping, half cutting, film drawing, spot welding, punching, tube feeding, bag opening, high-frequency welding, bag cutting, edge tearing, outputting and the like.

The blood bag has higher performance requirements than a common infusion bag, is in direct contact with blood, not only requires the sanitation, strength, flexibility, tightness and the like of the common package, but also has good biological performance, and the blood compatibility, hemolysis, pyrogen and blood cell survival rate can meet the specified requirements, and can resist high-pressure steam sterilization and the like, so the blood bag needs to be subjected to vacuum sterile external packaging after being manufactured.

Disclosure of Invention

In view of the above, there is a need to provide a blood bag transfer packaging machine.

In order to solve the problems of the prior art, the invention adopts the technical scheme that:

a blood bag transferring and packaging machine comprises an opening assembly, a heat sealing assembly and a pushing assembly which are sequentially arranged, wherein a vacuumizing assembly is arranged between the pushing assembly and the heat sealing assembly;

the opening assembly and the heat sealing assembly respectively comprise opposite driving mechanisms, and each opposite driving mechanism is provided with two moving output ends capable of moving in opposite directions;

the opening assembly also comprises two strip-shaped hollow suction plates for adsorbing the outer sides of the packaging bags, and the two strip-shaped hollow suction plates are respectively arranged on two opposite movement output ends of the corresponding opposite driving mechanisms;

the heat-sealing assembly also comprises two heat-sealing pressing strips, the two heat-sealing pressing strips are respectively connected with the two moving output ends of the corresponding opposite driving mechanisms, and two ends of each heat-sealing pressing strip are provided with tearing cutters;

the pushing assembly comprises a carrier, a pushing mechanism and a resetting mechanism, the carrier is horizontally arranged on one side of the heat-sealing assembly, which is far away from the opening assembly, the pushing mechanism is arranged in the carrier and used for pushing the blood bag arranged on the carrier outwards, and the resetting mechanism is arranged on the carrier and used for resetting the pushing mechanism;

the evacuating assembly, quantity have two sets ofly, set up respectively in the both sides of carrier, and every evacuating assembly of group all includes exhaust tube and moves back a tub mechanism, the exhaust tube activity sets up on the lateral wall of carrier, moves back a tub mechanism and sets up between heat-seal assembly and carrier, the exhaust tube is used for stretching into in the wrapping bag, it will to move back a tub mechanism is used for at heat-seal assembly during operation the exhaust tube wrapping bag of withdrawing from.

The heat-sealing device is characterized in that the opening assembly and the heat-sealing assembly are provided with two opposite driving mechanisms which can move longitudinally, two opposite moving output ends of each opposite driving mechanism are fixedly connected with the two corresponding beam mounting plates respectively, and each beam mounting plate is fixedly connected with an L-shaped adapter plate;

the two strip-shaped hollow suction plates are distributed between the two corresponding L-shaped adapter plates in a parallel state, and a plurality of negative pressure suction holes are formed in the opposite sides of the two strip-shaped hollow suction plates;

the two heat-seal pressing strips are distributed between the two corresponding L-shaped adapter plates in a parallel state, and the heat-seal surfaces of the two heat-seal pressing strips are arranged oppositely.

Furthermore, a plurality of buffer pressing mechanisms which are distributed at equal intervals along the linear direction are arranged between each heat-seal pressing strip and the corresponding L-shaped adapter plate;

every buffering pushes down the mechanism and all includes connecting base, connecting screw, first spring, pushes down pipe box and anticreep nut, connects base and the one end fixed connection that the heat-seal face was kept away from to the heat-seal layering, pushes down the pipe box and sets up fixedly in one side that the L type keysets is close to the heat-seal layering, connecting screw's one end with be connected base fixed connection, the other end passes in proper order and has connect two anticreep nuts of locking mutually soon behind pushing down pipe box and the L type keysets, outside connecting screw was located to first spring housing, the both ends of first spring are supported tightly respectively and are connected base and push down the pipe box.

Further, the blood bag blood storage device is characterized in that a storage platform used for placing a blood bag is arranged at the top of one end, close to the heat-seal assembly, of the carrier, the pushing mechanism comprises a sliding lower support, a sliding upper pushing frame, a reversing mechanism and a lower push rod, the sliding lower support is arranged on the lower half portion of the carrier in a horizontal state, the sliding upper pushing frame is arranged on the upper half portion of the carrier in a horizontal state, sliding chutes used for enabling the sliding upper pushing frame and the sliding lower support to move horizontally are formed in two inner walls of the carrier, the reversing mechanism is arranged between the sliding upper pushing frame and the sliding lower support in a horizontal state and used for enabling the sliding upper pushing frame and the sliding lower support to move in opposite directions, the resetting mechanism is a plurality of first tension springs, one end of each first tension spring is fixedly connected with the sliding upper pushing frame, the other end of the sliding upper pushing frame is fixedly connected with one end, far away from the storage platform, of the other end, close to the heat-seal assembly, of the sliding lower support rod is fixedly arranged at the bottom of one end, and used for enabling the lower push rod to abut against when the heat-seal assembly.

Further, the reversing mechanism is characterized by comprising a central shaft, an upper flat rack, a lower flat rack and a reversing gear, wherein the central shaft is arranged in a horizontal state, two ends of the central shaft are respectively connected with the inner walls of two sides of the carrier in a shaft mode, the reversing gear is fixedly sleeved with the central shaft, the upper flat rack is arranged at the bottom of the sliding upper pushing frame in the horizontal state and is meshed with the reversing gear, and the lower flat rack is arranged at the top of the sliding lower support in the horizontal state and is meshed with the reversing gear.

Further, its characterized in that moves back a tub mechanism and includes installation curb plate, stopper, push-up rod, slide rail, arch support and a plurality of slider, and the installation curb plate is fixed to be set up on the outer wall of carrier, sets up two upper and lower interval distribution's wedge spout on the installation curb plate, the length direction of wedge spout is unanimous with the slip direction that slides the push-up frame, and equal sliding connection has the wedge slider in every wedge spout, and the stopper is fixed to be set up in the one end that the wedge spout is close to heat-seal assembly, and the push-up rod set up in the crossbeam mounting panel that lies in the top in the heat-seal assembly, the slide rail be the horizontal state fixed set up in the outside of installation curb plate and the length direction of slide rail is unanimous with the length direction of wedge spout, and all slider intervals cup joint on the slide rail, and all sliders all fixed the cover are located outside the bleed pipe, and the both ends and the wedge slider fixed connection of arch support, the head end of exhaust tube passes the arch support.

Further, its characterized in that, the outside of installation curb plate is the fixed fixing base that is provided with two upper and lower interval distribution still, and every fixing base all links to each other through an elasticity telescopic link with the tip of arch support, and the elasticity telescopic link is the horizontality setting, and the elasticity telescopic link includes loop bar, stock and second spring, and the second spring is located the pole cover, the one end and the arch support fixed connection of stock, the second spring of contradicting in the other end activity insert pole cover.

Furthermore, its characterized in that, the outside fixedly connected with of arch support is used for cooperating the stub bar of accepting of push-up rod, every all fixed U type support that is provided with on the fixing base, every U type support all links to each other with same slider through the second extension spring, and the second extension spring is located one side that the elastic telescopic rod was kept away from to the fixing base.

Furthermore, the upper push rod and the lower push rod are connected with the corresponding beam mounting plates through elastic connectors, each elastic connector comprises a connecting seat fixedly arranged on the corresponding beam mounting plate, a fixed shaft fixedly arranged on the inner side of the connecting seat, a limiting rod fixedly arranged in the connecting seat and a torsion spring sleeved on the fixed shaft, and one end of each of the upper push rod and the lower push rod is connected with the corresponding fixed shaft;

the upper push rod is connected with the beam mounting plate positioned above the heat-sealing assembly through an elastic connector, the limiting rod is positioned below the fixed shaft in the elastic connector, and the torsion spring is used for enabling the upper push rod to downwards turn around the fixed shaft until the upper push rod contacts the limiting rod;

the lower push rod is connected with the beam mounting plate positioned below the heat-sealing assembly through another elastic connector, in the elastic connector, the limiting rod is positioned above the fixed shaft, and the torsion spring is used for enabling the lower push rod to upwards turn around the fixed shaft until the lower push rod contacts the limiting rod;

u-shaped grooves are formed in the free ends of the upper push rod and the lower push rod, and a bearing short rod matched with the corresponding U-shaped groove is fixedly connected to the outer side of the arch-shaped support.

Compared with the prior art, the invention has the following beneficial effects:

one is as follows: the invention has simple structure and high integration level, can realize full-automatic vacuum packaging of the blood bag, does not need manual intervention in the vacuum packaging process of the blood bag, and reduces the probability of the blood bag being polluted in the packaging process;

and the second step is as follows: when the blood bag is subjected to hot-pressing sealing, the buffer pressing mechanism can protect the exhaust tube from being damaged by pressing, the tube withdrawing mechanism can improve the working efficiency of the whole process, the equipment does not need to be stopped independently for vacuumizing, and the hot-pressing sealing of the packaging bag can be finished after the vacuumizing of the packaging bag is finished.

And the third step: when the blood bag is packaged, bagging, edge sealing and vacuumizing can be finished at the same station, so that the occupied space of equipment is saved, resources are saved, and the packaging efficiency is improved.

Drawings

FIG. 1 is a first perspective view of the present invention;

FIG. 2 is a schematic perspective view of the present invention;

FIG. 3 is a perspective view of the opening assembly of the present invention;

FIG. 4 is a perspective view of the heat seal assembly of the present invention;

FIG. 5 is an enlarged view of the structure at B in FIG. 4;

FIG. 6 is an enlarged view of the structure at C in FIG. 4;

FIG. 7 is an enlarged view of the structure at A in FIG. 1;

FIG. 8 is an exploded perspective view of the spring connector of the present invention;

FIG. 9 is a perspective view of the carrier of the present invention;

fig. 10 is an exploded perspective view of the tube withdrawing mechanism of the present invention.

The reference numbers in the figures are: 1. an opening assembly; 2. a strip-shaped hollow suction plate; 3. negative pressure suction holes; 4. a heat seal assembly; 5. a facing drive mechanism; 6. a beam mounting plate; 7. an L-shaped adapter plate; 8. heat sealing and layering; 9. a tearing cutter; 10. a buffer pressing mechanism; 11. connecting a base; 12. connecting a screw rod; 13. a first spring; 14. pressing the pipe sleeve downwards; 15. an anti-drop nut; 16. a push assembly; 17. a carrier; 18. a placement platform; 19. a chute; 20. a pushing mechanism; 21. sliding the lower bracket; 22. a support rod; 23. sliding the push-up frame; 24. a reversing mechanism; 25. a reversing gear; 26. a central shaft; 27. an upper flat rack; 28. a lower flat rack; 29. a lower push rod; 30. an elastic connector; 31. a U-shaped groove; 32. a torsion spring; 33. a limiting rod; 34. a connecting seat; 35. a fixed shaft; 36. a reset mechanism; 37. a first tension spring; 38. a vacuum pumping assembly; 39. an exhaust pipe; 40. a pipe withdrawing mechanism; 41. installing a side plate; 42. a wedge-shaped chute; 43. a wedge-shaped slider; 44. a limiting block; 45. a push rod is arranged; 46. a slide rail; 47. a slider; 48. an arched bracket; 49. receiving the short rod; 50. a fixed seat; 51. an elastic telescopic rod; 52. a rod sleeve; 53. a long rod; 54. a second spring; 55. a U-shaped bracket; 56. the second extension spring.

Detailed Description

For further understanding of the features and technical means of the present invention, as well as the specific objects and functions attained by the present invention, the present invention will be described in further detail with reference to the accompanying drawings and detailed description.

With reference to figures 1 to 10 of the drawings,

a blood bag transferring and packaging machine comprises an opening component 1, a heat sealing component 4 and a pushing component 16 which are arranged in sequence, wherein a vacuumizing component 38 is arranged between the pushing component 16 and the heat sealing component 4;

the opening assembly 1 and the heat sealing assembly 4 both comprise opposite driving mechanisms 5, and the opposite driving mechanisms 5 are provided with two moving output ends capable of moving oppositely;

the opening assembly 1 further comprises two strip-shaped hollow suction plates 2 for adsorbing the outer sides of the packaging bags, and the two strip-shaped hollow suction plates 2 are respectively arranged on two opposite moving output ends of the corresponding opposite driving mechanisms 5;

the heat-sealing assembly 4 further comprises two heat-sealing pressing strips 8, the two heat-sealing pressing strips 8 are respectively connected with two moving output ends of the corresponding opposite driving mechanisms 5, and two ends of each heat-sealing pressing strip 8 are provided with tearing cutters 9;

the pushing assembly 16 comprises a carrier 17, a pushing mechanism 20 and a resetting mechanism 36, wherein the carrier 17 is horizontally arranged on one side of the heat sealing assembly 4 away from the opening assembly 1, the pushing mechanism 20 is arranged in the carrier 17, the pushing mechanism 20 is used for outwards pushing away a blood bag arranged on the carrier 17, and the resetting mechanism 36 is arranged on the carrier 17 and is used for resetting the pushing mechanism 20;

evacuation subassembly 38, quantity has two sets ofly, sets up respectively in the both sides of carrier 17, and every evacuation subassembly 38 of group all includes exhaust tube 39 and moves back a tub mechanism 40, the activity of exhaust tube 39 sets up on the lateral wall of carrier 17, moves back tub mechanism 40 and sets up between heat-seal subassembly 4 and carrier 17, exhaust tube 39 is used for stretching into in the wrapping bag, it will to move back tub mechanism 40 is used for at heat-seal subassembly 4 during operation exhaust tube 39 the wrapping bag of withdrawing from.

When the device is operated, a packaging bag sequentially enters the opening assembly 1 and the heat-seal assembly 4 through the front bag conveying device, the opening assembly 1 drives the two strip-shaped hollow suction plates 2 to be close to each other through the opposite driving mechanism 5 until the two strip-shaped hollow suction plates contact the upper outer wall and the lower outer wall of the packaging bag and tightly suck the packaging bag, then the opening assembly 1 drives the two strip-shaped hollow suction plates 2 to be away from each other reversely through the opposite driving mechanism 5, so that the packaging bag is retracted, the pushing assembly 16 with the carriers 17 with the blood collection bags arranged in advance is close to the heat-seal assembly 4, then the heat-seal assembly 4 works, the two heat-seal pressing strips 8 are driven to be close to each other through the opposite driving mechanism 5, in the process, the longitudinal displacement of one heat-seal pressing strip 8 is transmitted to the pushing mechanism 20, the blood collection bag is conveyed into the packaging bag with the opening by the pushing mechanism 20, meanwhile, the air exhaust tube 39 also extends into the packaging bag together for vacuumizing, as the two heat-seal pressing strips 8 are continuously close to, the longitudinal displacement of the other heat-seal pressing strip 8 is transmitted to the air extracting strip 40, so that the bag opening of the packaging bag can be easily cut into the bag in the heat-seal sealing and tearing cutter of the packaging bag.

After the completion of the heat-seal packaging process, the two heat-seal assemblies 4 drive the two heat-seal pressing strips 8 to be away from each other, the packaging bags are released, meanwhile, the pushing assembly 16 is retracted and reset, and in the process, the resetting mechanism 36 in the pushing assembly 16 can also drive the pushing mechanism 20 to reset.

Wherein, above-mentioned leading bag device of sending can be manipulator or other feed mechanism that can realize sending the bag purpose, and this is ripe prior art, and here is no longer described, and the material loading of blood sampling bag also can be realized through loading equipment such as manipulators, and the sideslip process of propelling movement subassembly 16 also can be realized through current translation mechanism in addition, and here is no longer described.

The opening assembly 1 and the heat-sealing assembly 4 are provided with two opposite driving mechanisms 5 which can move longitudinally, two opposite moving output ends of each opposite driving mechanism 5 are respectively fixedly connected with the two corresponding beam mounting plates 6, and each beam mounting plate 6 is fixedly connected with an L-shaped adapter plate 7;

the two strip-shaped hollow suction plates 2 are distributed between two corresponding L-shaped adapter plates 7 in a parallel state, and a plurality of negative pressure suction holes 3 are formed in opposite sides of the two strip-shaped hollow suction plates 2;

the two heat-seal pressing strips 8 are distributed between the two corresponding L-shaped adapter plates 7 in a parallel state, and the heat-seal surfaces of the two heat-seal pressing strips 8 are arranged oppositely.

When the device is operated, the opposite driving mechanism 5 in the opening component 1 drives the L-shaped adapter plates 7 correspondingly connected through the two corresponding beam mounting plates 6 to move oppositely, so that the strip-shaped hollow suction plates 2 respectively connected with the upper and lower L-shaped adapter plates 7 are close to each other oppositely until the negative pressure suction hole 3 contacts with the upper and lower outer side walls of the packaging bag, at the moment, the negative pressure suction hole 3 starts to move and tightly sucks the upper and lower outer side walls of the packaging bag, then the opening component 1 drives the two beam mounting plates 6 to be away reversely through the opposite driving mechanism 5, so that the strip-shaped hollow suction plates 2 connected through the corresponding L-shaped adapter plates 7 are driven to be away reversely, under the adsorption action of the negative pressure suction hole 3, the upper and lower outer side walls of the packaging bag are retracted, the packaging bag is opened, and the opposite driving mechanism 5 in the heat-sealing component 4 drives the L-shaped adapter plates 7 correspondingly connected through the two corresponding beam mounting plates 6 to move oppositely.

A plurality of buffer pressing mechanisms 10 which are distributed at equal intervals along the linear direction are arranged between each heat-seal pressing strip 8 and the corresponding L-shaped adapter plate 7;

each buffering pressing mechanism 10 comprises a connecting base 11, a connecting screw rod 12, a first spring 13, a pressing pipe sleeve 14 and an anti-falling nut 15, the connecting base 11 and one end, far away from a heat sealing surface, of the heat sealing pressing strip 8 are fixedly connected, the pressing pipe sleeve 14 is fixedly arranged on one side, close to the heat sealing pressing strip 8, of the L-shaped adapter plate 7, one end of the connecting screw rod 12 is fixedly connected with the connecting base 11, the other end of the connecting screw rod penetrates through the pressing pipe sleeve 14 and the L-shaped adapter plate 7 in sequence and is screwed with the two anti-falling nuts 15 which are mutually locked, the first spring 13 is sleeved outside the connecting screw rod 12, and two ends of the first spring 13 are respectively abutted against the connecting base 11 and the pressing pipe sleeve 14.

When the device operates, the two heat-seal pressing strips 8 move oppositely under the driving of the opposite driving mechanism 5 in the heat-seal assembly 4 through the L-shaped adapter plate 7, the connecting base 11 correspondingly arranged between the L-shaped adapter plate 7 and the heat-seal pressing strips 8 moves along with the L-shaped adapter plate, when the two heat-seal pressing strips 8 move oppositely, the two heat-seal pressing strips touch the air exhaust pipe 39 extending into the packaging bag firstly, the first spring 13 is compressed under the stress, the two heat-seal pressing strips 8 elastically abut against the air exhaust pipe 39 and cannot crush the air exhaust pipe 39, the connecting screw 12 moves along the axial direction and sequentially penetrates through the lower pressing pipe sleeve 14 and the L-shaped adapter plate 7, at the moment, the two heat-seal pressing strips 8 elastically abut against each other under the action of the first spring 13, when the connecting screw 12 drives the connecting base 11 to move for a certain distance, the connecting base 11 touches the lower pressing pipe sleeve 14 to generate rigid collision, and the two rigid heat-seal pressing strips 8 also generate rigid collision along with each other, so that the packaging bags are compressed two in pairs and are sealed and abutted against each other.

The top of one end of the carrier 17 close to the heat-sealing assembly 4 is provided with a storage platform 18 for placing a blood bag, the pushing mechanism 20 comprises a sliding lower support 21, a sliding upper pushing frame 23, a reversing mechanism 24 and a lower push rod 29, the sliding lower support 21 is arranged in the lower half of the carrier 17 in a horizontal state, the sliding upper pushing frame 23 is arranged in the upper half of the carrier 17 in a horizontal state, sliding chutes 19 for the sliding upper pushing frame 23 and the sliding lower support 21 to move horizontally are formed in two inner walls of the carrier 17, the reversing mechanism 24 is arranged between the sliding upper pushing frame 23 and the sliding lower support 21 in a horizontal state, the reversing mechanism 24 is used for enabling the sliding upper pushing frame 23 and the sliding lower support 21 to move oppositely, the resetting mechanism 36 is a plurality of first tension springs 37, one end of each first tension spring 37 is fixedly connected with the sliding upper pushing frame 23, the other end of the first tension spring 37 is fixedly connected with one end of the carrier 17 far away from the storage platform 18, the bottom of one end of the sliding lower support 21 close to the heat-sealing assembly 4 is fixedly provided with a support rod 22 arranged in a horizontal state, and the support rod 22 is used for the lower push rod 29 when the heat-sealing assembly 4 is close to move.

When the device is operated, a blood collection bag is placed on the object placing platform 18 in advance, the sliding lower support 21 is pushed to transversely move along the sliding groove 19 after the lower push rod 29 is abutted against the bearing rod 22 and is transmitted to the sliding upper push frame 23 through the reversing mechanism 24, the sliding upper push frame 23 transversely moves along the sliding groove 19 in the direction opposite to that of the sliding lower support 21 at the moment, the blood bag is pushed away from the object placing platform 18 until the blood bag is packaged, the first tension spring 37 is stressed and stretched, the resetting mechanism 36 is connected with the sliding upper push frame 23, and when the abutting of the lower push rod 29 and the bearing rod 22 disappears, the first tension spring 37 retracts to drive the device to reset to an initial state.

The reversing mechanism 24 comprises a central shaft 26, an upper flat rack 27, a lower flat rack 28 and a reversing gear 25, wherein the central shaft 26 is arranged in a horizontal state, two ends of the central shaft 26 are respectively connected with the inner walls of two sides of the carrier 17 in a shaft manner, the reversing gear 25 is fixedly sleeved with the central shaft 26, the upper flat rack 27 is arranged at the bottom of the sliding upper pushing frame 23 in a horizontal state and is meshed with the reversing gear 25, and the lower flat rack 28 is arranged at the top of the sliding lower support 21 in a horizontal state and is meshed with the reversing gear 25.

When the device is operated, the sliding lower support 21 can drive the lower flat rack 28 to move when transversely moving on the sliding groove 19, the lower flat rack 28 is meshed with the reversing gear 25, so that the central shaft 26 is driven to rotate, and at the moment, the upper flat rack 27 drives the sliding upper pushing frame 23 to slide on the sliding groove 19 along the direction opposite to the transverse moving direction of the sliding lower support 21, so that the blood collection bag is pushed away from the storage platform 18.

The pipe withdrawing mechanism 40 comprises an installation side plate 41, a limiting block 44, an upper push rod 45, a sliding rail 46, an arched support 48 and a plurality of sliding pieces 47, the installation side plate 41 is fixedly arranged on the outer wall of the carrier 17, two wedge-shaped sliding grooves 42 which are distributed at intervals are formed in the installation side plate 41, the length direction of each wedge-shaped sliding groove 42 is consistent with the sliding direction of the sliding upward pushing frame 23, a wedge-shaped sliding block 43 is connected to each wedge-shaped sliding groove 42 in a sliding mode, the limiting block 44 is fixedly arranged at one end, close to the heat sealing assembly 4, of each wedge-shaped sliding groove 42, the upper push rod 45 is arranged on the cross beam installation plate 6, located above the heat sealing assembly 4, the sliding rail 46 is fixedly arranged on the outer side of the installation side plate 41 in a horizontal state, the length direction of each sliding rail 46 is consistent with the length direction of each wedge-shaped sliding groove 42, all the sliding pieces 47 are sleeved on the sliding rail 46 at intervals, all the sliding pieces 47 are fixedly sleeved outside the air extracting pipe 39, two ends of the arched support 48 are fixedly connected with the wedge-shaped sliding blocks 43, and the head end of the air extracting pipe 39 penetrates through the arched support 48.

When the device is operated, the longitudinal displacement of the beam mounting plate 6 positioned above the heat sealing assembly 4 is transmitted to the arched bracket 48 through the upper push rod 45, the arched bracket 48 moves transversely along the length direction of the wedge-shaped chute 42 under the action of the upper push rod 45, and after the arched bracket 48 moves for a certain distance, the arched bracket 48 touches the sliding part 47 closest to the arched bracket 48, so that the sliding part 47 drives the air exhaust pipe 39 to move transversely along the length direction of the sliding rail 46 on the sliding rail 46, and the air exhaust pipe 39 is extracted from the packaging bag.

The outside of installation curb plate 41 is still fixed two interval distribution's from top to bottom fixing base 50 that is provided with, and every fixing base 50 all links to each other through an elasticity telescopic link 51 with the tip of arched bracket 48, and elasticity telescopic link 51 is the horizontality setting, and elasticity telescopic link 51 includes loop bar, stock 53 and second spring 54, and second spring 54 is located pole cover 52, stock 53's one end and arched bracket 48 fixed connection, and the other end activity is inserted in pole cover 52 and is contradicted second spring 54.

This device is when moving, elasticity telescopic link 51 atress compression when arched bracket 48 is along wedge spout 42 sideslip, the second spring 54 that is located every elasticity telescopic link 51 is atress compression simultaneously, every stock 53 removes the same distance with arched bracket 48 sideslip distance in rod cover 52 simultaneously, after the wrapping bag seals, crossbeam mounting panel 6 that is located heat-seal subassembly 4 takes place the motion dorsad under the drive of actuating mechanism 5 in opposite directions, go up push rod 45 and remove under the drive of crossbeam mounting panel 6, the external force that gives arched bracket 48 this moment disappears, second spring 54 release pressure in the elasticity telescopic link 51 kick-backs, transmit via elasticity telescopic link 51, drive to arched bracket 48 to the direction sideslip of keeping away from fixing base 50, until conflicting with stopper 44.

The outer side of the arched bracket 48 is fixedly connected with a bearing short rod 49 used for being matched with the upper push rod 45, a U-shaped bracket 55 is fixedly arranged on the fixing seat 50, each U-shaped bracket 55 is connected with the same sliding piece 47 through a second tension spring 56, and the second tension spring 56 is positioned on one side, away from the elastic telescopic rod 51, of the fixing seat 50.

When the device is operated, the bearing short rod 49 is abutted against the U-shaped groove 31 of the upper push rod 45, when the arched support 48 drives the exhaust tube 39 to transversely move along the direction of the slide rail 46, the sliding part 47 which is fixedly connected with the exhaust tube 39 and is farthest away from the arched support 48 simultaneously drives the second tension spring 56 to be stressed and stretched, after the exhaust tube 39 finishes the tube withdrawing movement, the beam mounting plate 6 moves back under the driving of the opposite driving mechanism 5 in the heat sealing assembly 4, so that the upper push rod 45 is not abutted against the bearing short rod 49, the external force for pushing the arched support 48 disappears, at the moment, the second tension spring 56 releases the tensile force to retract, and the tensile force is transmitted to the exhaust tube 39 to move by the sliding part 47, and the exhaust tube 39 is restored to the initial state.

The upper push rod 45 and the lower push rod 29 are connected with the corresponding beam mounting plate 6 through elastic connectors 30, each elastic connector 30 comprises a connecting seat 34 fixedly arranged on the corresponding beam mounting plate 6, a fixed shaft 35 fixedly arranged on the inner side of the connecting seat 34, a limiting rod 33 fixedly arranged in the connecting seat 34 and a torsion spring 32 sleeved on the fixed shaft 35, and one end of each of the upper push rod 45 and the lower push rod 29 is connected with the corresponding fixed shaft 35;

the upper push rod 45 is connected with the upper beam mounting plate 6 in the heat sealing assembly 4 through an elastic connector 30, in the elastic connector 30, the limiting rod 33 is located below the fixed shaft 35, and the torsion spring 32 is used for enabling the upper push rod 45 to turn downwards around the fixed shaft 35 until the upper push rod contacts the limiting rod 33;

the lower push rod 29 is connected with the lower beam mounting plate 6 in the heat sealing assembly 4 through another elastic connector 30, in the elastic connector 30, the limiting rod 33 is positioned above the fixed shaft 35, and the torsion spring 32 is used for enabling the lower push rod 29 to turn upwards around the fixed shaft 35 until contacting with the limiting rod 33;

u-shaped grooves 31 are formed in the free ends of the upper push rod 45 and the lower push rod 29, and a bearing short rod 49 matched with the corresponding U-shaped groove 31 is fixedly connected to the outer side of the arch support 48.

This device is when moving, crossbeam mounting panel 6 in heat-seal subassembly 4 is driven by actuating mechanism 5 in opposite directions, when crossbeam mounting panel 6 takes place the relative motion, crossbeam mounting panel 6 that is located heat-seal subassembly 4 top drives push-up rod 45 downstream, when the U type groove 31 of push-up rod 45 with accept the quarter butt 49 and take place the conflict, push-up rod 45 upwards overturns around fixed axle 35, cup joint the torsional spring 32 on fixed axle 35 and receive torsion, thereby pass through the downward motion that is located heat-seal subassembly 4 top crossbeam mounting panel 6 to accepting quarter butt 49 and transmit to arched bracket 48, cause arched bracket 48 lateral shifting, second spring 54 atress compression in the elastic expansion link 51, second extension spring 56 atress is tensile.

The crossbeam mounting panel 6 that is located heat-seal subassembly 4 below drives push down rod 29 rebound, when the conflict takes place for the U type groove 31 of push down rod 29 and support rod 22, push down rod 29 overturns around fixed axle 35 downwards, cup joint the torsional spring 32 on fixed axle 35 at this moment and receive torsion, push down rod 29 cooperation support rod 22 promotes the sideslip of slip lower carriage 21 along spout 19, and the rethread reversing mechanism 24 passes to the frame 23 that pushes up that slides, thereby makes the blood sampling bag of placing in advance on platform 18 push away from, and first extension spring 37 atress is tensile in this process.

When the beam mounting plate 6 moves backwards, the beam mounting plate 6 above the heat-sealing assembly 4 drives the upper push rod 45 to move upwards, the U-shaped groove 31 of the upper push rod 45 is separated from the bearing short rod 49, and the torsion spring 32 connected with one end of the upper push rod 45 releases torsion force to drive the upper push rod 45 to turn downwards around the fixed shaft 35 until the upper push rod abuts against the limiting rod 33. Because the U-shaped groove 31 of the upper push rod 45 is separated from the receiving short rod 49, at this time, the second spring 54 in the elastic telescopic rod 51 releases the elastic force, and drives the arched bracket 48 to move along the wedge-shaped chute 42 until the arched bracket collides with the stopper 44 and returns to the initial state, and the second tension spring 56 releases the pulling force and retracts, and drives the air suction pipe 39 fixed by the sliding member 47 to transversely move on the sliding rail 46 until the initial state is returned.

The beam mounting plate 6 positioned below the heat-seal assembly 4 drives the lower push rod 29 to move downwards, the U-shaped groove 31 of the lower push rod 29 is separated from the supporting rod 22, and at the moment, the torsion spring 32 connected with one end of the lower push rod 29 releases torsion force to drive the lower push rod 29 to turn upwards around the fixed shaft 35 until the lower push rod abuts against the limiting rod 33. Since the lower push rod 29 is separated from the support rod 22, the first tension spring 37 releases the tension, so that the sliding push-up frame 23 is driven to reset, and the sliding lower support 21 is driven to reset through the reversing mechanism 24.

The working principle is as follows:

when the device is operated, a packaging bag sequentially enters the opening assembly 1 and the heat-seal assembly 4 through the front bag conveying device, the opening assembly 1 drives the two strip-shaped hollow suction plates 2 to be close to each other through the opposite driving mechanism 5 until the two strip-shaped hollow suction plates contact the upper outer wall and the lower outer wall of the packaging bag and tightly suck the packaging bag, then the opening assembly 1 drives the two strip-shaped hollow suction plates 2 to be away from each other reversely through the opposite driving mechanism 5, so that the packaging bag is retracted, the pushing assembly 16 with the carriers 17 with the blood collection bags arranged in advance is close to the heat-seal assembly 4, then the heat-seal assembly 4 works, the two heat-seal pressing strips 8 are driven to be close to each other through the opposite driving mechanism 5, in the process, the longitudinal displacement of one heat-seal pressing strip 8 is transmitted to the pushing mechanism 20, the blood collection bag is conveyed into the packaging bag with the opening by the pushing mechanism 20, meanwhile, the air exhaust tube 39 also extends into the packaging bag together for vacuumizing, as the two heat-seal pressing strips 8 are continuously close to each other, the longitudinal displacement of the other heat-seal pressing strip 8 is transmitted to the tube withdrawing mechanism 40, so that the heat-seal pressing strip 39 can be gradually closed to prevent the air-seal bag opening of the packaging bag from being damaged by the heat-seal pressing strip 8 in the process of the heat-seal pressing strip 8, and the air-seal bag, and the air-seal pressing strip withdrawing mechanism, the air-seal bag can be gradually damaged by the air-seal pressing mechanism 40, and the air-sealing strip 8, and tearing mechanism, and the air-sealing strip can be prevented from being damaged by the sealing cutter mechanism from being damaged by the sealing strip 8, and the sealing cutter mechanism in the process of the heat-sealing strip in the process of the process, and tearing mechanism, and the process, the bag.

The crossbeam mounting panel 6 among the heat-seal subassembly 4 is driven by actuating mechanism 5 in opposite directions, when crossbeam mounting panel 6 takes place the relative motion, the crossbeam mounting panel 6 that is located the heat-seal subassembly 4 top drives push-up rod 45 and moves down, when the U type groove 31 of push-up rod 45 with accept the quarter butt 49 and take place the conflict, push-up rod 45 upwards overturns around fixed axle 35, the torsional spring 32 that cup joints on fixed axle 35 receives torsion, thereby pass through the downward motion of crossbeam mounting panel 6 that is located the heat-seal subassembly 4 top to accepting the quarter butt 49 and transmit to arched bracket 48, cause arched bracket 48 lateral shifting, second spring 54 atress compression in the elastic expansion pole 51, second extension spring 56 atress is tensile.

The crossbeam mounting panel 6 that is located heat-seal subassembly 4 below drives push rod 29 rebound down, when the conflict takes place for the U type groove 31 of push rod 29 and support rod 22 down, push rod 29 overturns down around fixed axle 35 down, cup joint the torsional spring 32 on fixed axle 35 at this moment and receive torsion, push rod 29 cooperation support rod 22 promotes the sideslip of slip lower carriage 21 along spout 19, again transmit to slip push up frame 23 through reversing mechanism 24 again, thereby make the blood collection bag of placing in advance on platform 18 push away from, first extension spring 37 atress is tensile at this in-process.

When the beam mounting plate 6 moves backwards, the beam mounting plate 6 above the heat-sealing assembly 4 drives the upper push rod 45 to move upwards, the U-shaped groove 31 of the upper push rod 45 is separated from the bearing short rod 49, and the torsion spring 32 connected with one end of the upper push rod 45 releases torsion force to drive the upper push rod 45 to turn downwards around the fixed shaft 35 until the upper push rod abuts against the limiting rod 33. Because the U-shaped groove 31 of the upper push rod 45 is separated from the receiving short rod 49, at this time, the second spring 54 in the elastic telescopic rod 51 releases the elastic force, the arched bracket 48 is driven to move along the wedge-shaped sliding groove 42 until the arched bracket collides with the limiting block 44 to restore the initial state, the second tension spring 56 releases the pulling force to retract, and the suction pipe 39 fixed by the sliding piece 47 is driven to transversely move on the sliding rail 46 until the initial state is restored.

The beam mounting plate 6 positioned below the heat-seal assembly 4 drives the lower push rod 29 to move downwards, the U-shaped groove 31 of the lower push rod 29 is separated from the supporting rod 22, and at the moment, the torsion spring 32 connected with one end of the lower push rod 29 releases torsion force to drive the lower push rod 29 to turn upwards around the fixed shaft 35 until the lower push rod abuts against the limiting rod 33. Since the lower push rod 29 is separated from the support rod 22, the first tension spring 37 releases the tension, so that the sliding push-up frame 23 is driven to reset, and the sliding lower support 21 is driven to reset through the reversing mechanism 24.

The arched bracket 48 moves along the wedge-shaped sliding slot 42 toward the fixed seat 50, and when the arched bracket 48 touches the sliding member 47 nearest to the arched bracket, the air suction pipe 39 is driven to move together, and at the same time, the air suction pipe 39 begins to leave the packaging bag slowly.

The above examples only show one or more embodiments of the present invention, and the description is specific and detailed, but not construed as limiting the scope of the present invention. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the inventive concept, which falls within the scope of the present invention. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims (9)

1. The blood bag transferring and packaging machine is characterized by comprising an opening component (1), a heat sealing component (4) and a pushing component (16) which are sequentially arranged, wherein a vacuumizing component (38) is arranged between the pushing component (16) and the heat sealing component (4);

the opening assembly (1) and the heat sealing assembly (4) both comprise opposite driving mechanisms (5), and the opposite driving mechanisms (5) are provided with two moving output ends capable of moving in opposite directions;

the opening assembly (1) further comprises two strip-shaped hollow suction plates (2) for adsorbing the outer sides of the packaging bags, and the two strip-shaped hollow suction plates (2) are respectively arranged on two opposite moving output ends of the corresponding opposite driving mechanisms (5);

the heat-sealing assembly (4) also comprises two heat-sealing pressing strips (8), the two heat-sealing pressing strips (8) are respectively connected with two moving output ends of the corresponding opposite driving mechanisms (5), and two ends of each heat-sealing pressing strip (8) are respectively provided with a tearing-opening cutter (9);

the pushing assembly (16) comprises a carrier (17), a pushing mechanism (20) and a resetting mechanism (36), the carrier (17) is horizontally arranged on one side, away from the opening assembly (1), of the heat sealing assembly (4), the pushing mechanism (20) is arranged in the carrier (17), the pushing mechanism (20) is used for outwards pushing away blood bags placed on the carrier (17), and the resetting mechanism (36) is arranged on the carrier (17) and used for resetting the pushing mechanism (20);

evacuation subassembly (38), quantity has two sets ofly, sets up respectively in the both sides of carrier (17), and every evacuation subassembly of group (38) all includes exhaust tube (39) and moves back a tub mechanism (40), exhaust tube (39) activity sets up on the lateral wall of carrier (17), moves back tub mechanism (40) and sets up between heat-seal subassembly (4) and carrier (17), in exhaust tube (39) are used for stretching into the wrapping bag, it will to move back tub mechanism (40) is used for at heat-seal subassembly (4) during operation exhaust tube (39) the wrapping bag of withdrawing from.

2. The blood bag transferring and packaging machine according to claim 1, wherein the opposite driving mechanisms (5) of the opening assembly (1) and the heat sealing assembly (4) are respectively provided with two beam mounting plates (6) capable of moving along the longitudinal direction, two opposite moving output ends of each opposite driving mechanism (5) are respectively fixedly connected with the two corresponding beam mounting plates (6), and each beam mounting plate (6) is fixedly connected with an L-shaped adapter plate (7);

wherein, the two strip-shaped hollow suction plates (2) are distributed between the two corresponding L-shaped adapter plates (7) in a parallel state, and a plurality of negative pressure suction holes (3) are formed on one opposite sides of the two strip-shaped hollow suction plates (2);

the two heat-seal pressing strips (8) are distributed between the two corresponding L-shaped adapter plates (7) in a parallel state, and the heat-seal surfaces of the two heat-seal pressing strips (8) are arranged oppositely.

3. The blood bag transfer packaging machine according to claim 2, wherein a plurality of buffer pressing mechanisms (10) which are distributed at equal intervals along the linear direction are arranged between each heat-seal pressing bar (8) and the corresponding L-shaped adapter plate (7);

every buffering pushes down mechanism (10) and all includes connection base (11), connecting screw (12), first spring (13), push down pipe box (14) and anticreep nut (15), the one end fixed connection who keeps away from the hot sealing face in connection base (11) and heat-seal layering (8), push down pipe box (14) and fix and set up in one side that L type keysets (7) are close to heat-seal layering (8), the one end and the connection base (11) fixed connection of connecting screw (12), the other end passes in proper order and pushes down behind pipe box (14) and L type keysets (7) and has connect two anticreep nut (15) of locking each other soon, connecting screw (12) are located to first spring (13) cover, the both ends of first spring (13) support tightly respectively and connect base (11) and push down pipe box (14).

4. The blood bag transfer packaging machine according to claim 2, wherein a placement platform (18) for placing the blood bag is arranged at the top of one end of the carrier (17) close to the heat-seal assembly (4), the pushing mechanism (20) comprises a sliding lower support (21), a sliding upper pushing frame (23), a reversing mechanism (24) and a lower push rod (29), the sliding lower support (21) is arranged at the lower half of the carrier (17) in a horizontal state, the sliding upper pushing frame (23) is arranged at the upper half of the carrier (17) in a horizontal state, sliding grooves (19) for allowing the sliding upper pushing frame (23) and the sliding lower support (21) to move horizontally are formed in two inner walls of the carrier (17), the reversing mechanism (24) is arranged between the sliding upper pushing frame (23) and the sliding lower support (21) in a horizontal state, the reversing mechanism (24) is used for enabling the sliding upper pushing frame (23) and the sliding lower support (21) to move oppositely, the resetting mechanism (36) is provided with a plurality of first tension springs (37), one end of each first tension spring (37) is connected with the sliding upper pushing frame (23), one end of the other end of the sliding lower push rod (22) is connected with the fixed support (22), and the other end of the heat-seal assembly (22) is arranged at the lower support (17), and the lower support (22) close to the heat-seal assembly (17), and the heat-seal assembly (22), and the lower support (22) is arranged at the lower support (17), and the lower support (22) is arranged at the lower support (17) when the sliding upper pushing frame (22) is arranged at the lower support (17) in a horizontal state (29) the interference.

5. The blood bag transfer packaging machine according to claim 4, wherein the reversing mechanism (24) comprises a central shaft (26), an upper flat rack (27), a lower flat rack (28) and a reversing gear (25), the central shaft (26) is arranged in a horizontal state, two ends of the central shaft (26) are respectively coupled with inner walls of two sides of the carrier (17), the reversing gear (25) is fixedly sleeved with the central shaft (26), the upper flat rack (27) is arranged at the bottom of the sliding upper pushing frame (23) in a horizontal state and is meshed with the reversing gear (25), and the lower flat rack (28) is arranged at the top of the sliding lower frame (21) in a horizontal state and is meshed with the reversing gear (25).

6. The blood bag transferring and packaging machine according to claim 4, wherein the tube withdrawing mechanism (40) comprises a mounting side plate (41), a limiting block (44), an upper push rod (45), a slide rail (46), an arched bracket (48) and a plurality of sliding parts (47), the mounting side plate (41) is fixedly arranged on the outer wall of the carrier (17), the mounting side plate (41) is provided with an upper wedge-shaped sliding groove (42) and a lower wedge-shaped sliding groove (42) which are distributed at intervals, the length direction of the wedge-shaped sliding grooves (42) is consistent with the sliding direction of the sliding push-up frame (23), each wedge-shaped sliding groove (42) is internally and slidably connected with a wedge-shaped sliding block (43), a limiting block (44) is fixedly arranged at one end, close to the heat sealing assembly (4), of each wedge-shaped sliding groove (42), an upper push rod (45) is arranged on a cross beam mounting plate (6) positioned above the heat sealing assembly (4), a sliding rail (46) is fixedly arranged at the outer side of the mounting side plate (41) in a horizontal state, the length direction of the sliding rail (46) is consistent with the length direction of the wedge-shaped sliding grooves (42), all sliding parts (47) are sleeved on the sliding rail (46) at intervals, all sliding parts (47) are fixedly sleeved outside the air exhaust pipe (39), and two ends of the arch-shaped support (48) are fixedly connected with the wedge-shaped sliding blocks (43), the head end of the air suction pipe (39) penetrates through the arch-shaped support (48).

7. The blood bag transferring and packaging machine according to claim 6, wherein an upper fixing seat (50) and a lower fixing seat (50) are fixedly arranged on the outer side of the installation side plate (41) and are distributed at intervals, each fixing seat (50) is connected with the end of the arched support (48) through an elastic telescopic rod (51), the elastic telescopic rods (51) are arranged in a horizontal state, each elastic telescopic rod (51) comprises a sleeve rod, a long rod (53) and a second spring (54), the second spring (54) is located in the rod sleeve (52), one end of each long rod (53) is fixedly connected with the arched support (48), and the other end of each long rod is movably inserted into the rod sleeve (52) and abuts against the second spring (54).

8. The blood bag transferring and packaging machine according to claim 7, wherein a receiving short rod (49) for matching with the upper push rod (45) is fixedly connected to the outer side of the arched support (48), a U-shaped support (55) is fixedly arranged on each fixing seat (50), each U-shaped support (55) is connected with the same sliding part (47) through a second tension spring (56), and the second tension spring (56) is positioned on one side of the fixing seat (50) far away from the elastic telescopic rod (51).

9. The blood bag transferring and packaging machine according to claim 6, wherein the upper push rod (45) and the lower push rod (29) are connected with the corresponding beam mounting plate (6) through elastic connectors (30), each elastic connector (30) comprises a connecting seat (34) fixedly arranged on the corresponding beam mounting plate (6), a fixed shaft (35) fixedly arranged on the inner side of the connecting seat (34), a limiting rod (33) fixedly arranged in the connecting seat (34) and a torsion spring (32) sleeved on the fixed shaft (35), and one end of each of the upper push rod (45) and the lower push rod (29) is connected with the corresponding fixed shaft (35);

the upper push rod (45) is connected with the beam mounting plate (6) positioned above the heat sealing assembly (4) through an elastic connector (30), in the elastic connector (30), the limiting rod (33) is positioned below the fixed shaft (35), and the torsion spring (32) is used for enabling the upper push rod (45) to downwards turn around the fixed shaft (35) until contacting with the limiting rod (33);

the lower push rod (29) is connected with a cross beam mounting plate (6) positioned below in the heat sealing assembly (4) through another elastic connector (30), in the elastic connector (30), a limiting rod (33) is positioned above the fixed shaft (35), and the torsion spring (32) is used for enabling the lower push rod (29) to upwards turn around the fixed shaft (35) until contacting the limiting rod (33);

the free ends of the upper push rod (45) and the lower push rod (29) are respectively formed with a U-shaped groove (31), and the outer side of the arched support (48) is fixedly connected with a bearing short rod (49) matched with the corresponding U-shaped groove (31).

Images