CN107364679B

CN107364679B - Plasma storage device

Info

Publication number: CN107364679B
Application number: CN201710647801.0A
Authority: CN
Inventors: 马立修; 高明亮; 邹国锋; 韩鑫; 申晋; 尹丽菊; 张彦斐; 宫金良; 孙冬; 石东
Original assignee: Shandong University of Technology
Current assignee: Shandong University of Technology
Priority date: 2017-08-01
Filing date: 2017-08-01
Publication date: 2020-03-24
Anticipated expiration: 2037-08-01
Also published as: CN107364679A

Abstract

Plasma storage device belongs to plasma storage technical field. Including storage cabinet (1) and deposit in cabinet (4), be equipped with storage tank (15) that a plurality of downward sloping set up on storage cabinet (1), downside opening part at storage tank (15) is equipped with storage tank backstop unit, deposit in cabinet (4) and go up and down to set up, deposit in storage tank (13) that is equipped with a plurality of downward sloping settings on cabinet (4), deposit in storage tank (13) downside opening part and be equipped with and deposit in backstop unit (12), one side of depositing in cabinet (4) is equipped with and deposits push mechanism, deposit push mechanism with plasma storage unit (14) propelling movement to deposit in storage tank (13). The invention stores the plasma storage unit (14) into the corresponding storage groove (15) by utilizing the storage cabinet (4), does not need to store the plasma storage unit (14) into different equipment according to blood type, and has the advantages of convenient storage, small occupied space and the like.

Description

Plasma storage device

Technical Field

Plasma storage device belongs to plasma storage technical field.

Background

The plasma is generally required to be firstly stored, namely the firstly collected plasma, when the plasma is taken out of the warehouse every time, but the plasma has a plurality of types and needs to be stored respectively, so that the existing plasma storage device has large occupied space, very complex structure and inconvenient operation.

Disclosure of Invention

The technical problem to be solved by the invention is as follows: overcomes the defects of the prior art and provides the plasma storage device which is convenient to store and small in occupied space.

The technical scheme adopted by the invention for solving the technical problems is as follows: this plasma storage device, including the cabinet and deposit in the cabinet, be equipped with the holding tank that a plurality of downward sloping set up on the cabinet, be equipped with holding tank backstop unit at the downside opening part of holding tank, deposit the cabinet and go up and down to set up, deposit and be equipped with the storage groove of keeping in that a plurality of downward sloping set up in the cabinet, deposit and be equipped with in the groove downside opening part of keeping in and deposit the backstop unit, one side of depositing in the cabinet is equipped with and deposits push mechanism, deposits push mechanism and with plasma storage unit propelling movement to depositing in the.

Preferably, deposit push mechanism including depositing in conveyor belt and propelling movement cylinder, the propelling movement cylinder will deposit the blood plasma memory cell propelling movement on the conveyor belt to deposit in the groove of keeping in.

Preferably, the propelling movement cylinder includes horizontal propelling movement cylinder and vertical propelling movement cylinder, is equipped with the slope setting of depositing in and accepts the ramp in one side of depositing in conveyor belt, the inclination of accepting the ramp in depositing is the same with the inclination of depositing in the groove of keeping in, the lower extreme of accepting the ramp in depositing is equipped with spacing flange, horizontal propelling movement cylinder is accepting the corresponding setting in the ramp in depositing in conveyor belt's opposite side with depositing in, the opening of intercommunication holding tank is seted up to the lateral part of cabinet, vertical propelling movement cylinder sets up and accepts on the ramp in depositing and with plasma memory cell propelling movement to depositing in the groove of keeping in.

Preferably, the storing stopping unit is a storing stopping sheet which is arranged in a rotating mode, and a motor which drives the storing stopping sheet to rotate is arranged on one side of the storing cabinet.

Preferably, the storage cabinet is provided with a plurality of horizontally sliding cabinets.

Preferably, still including the cabinet of taking out that goes up and down to set up, take out and be equipped with on the cabinet and take out the groove of keeping in, take out the one end downward sloping setting that the cabinet was kept away from to the groove of keeping in, take out the groove of keeping in downside opening part and be equipped with groove backstop unit of keeping in, take out the holding tank that groove upper end opening part was equipped with open holding tank backstop unit and take out the unit.

Preferably, the storage tank backstop unit is vertically freely rotatably arranged, the lower end of the plasma storage unit is abutted to the storage tank backstop unit, the storage tank taking-out unit is transversely rotatably arranged and is connected with a taking-out trigger power unit which drives the storage tank to rotate, and the storage tank taking-out unit stirs the storage tank backstop unit to rotate upwards.

Preferably, a taking-out supporting mechanism is further arranged below the taking-out cabinet, and a temporary storage groove taking-out unit for opening the temporary storage groove stopping unit is arranged on the taking-out supporting mechanism.

Preferably, the temporary storage groove stopping unit comprises a transversely arranged stop rod, one end of the stop rod is rotatably connected with the taking-out cabinet, the other end of the stop rod is bent to form a balance weight swing arm, a baffle is arranged on the lower side of the middle of the stop rod, the lower end of the plasma storage unit is abutted against the baffle, and the temporary storage groove taking-out unit and the balance weight swing arm are correspondingly fixed on the taking-out supporting mechanism.

Preferably, the taking-out bearing mechanism comprises a taking-out sliding table and a taking-out conveying belt, the taking-out sliding table is provided with a taking-out bearing ramp obliquely arranged, a taking-out trigger rod is fixed on one side of the upper end of the taking-out bearing ramp, and the taking-out conveying belt is arranged on the lower side of the taking-out sliding table.

Preferably, the temporary storage groove taking-out unit comprises a taking-out trigger rod fixed on one side of the upper end of the taking-out bearing ramp, and the middle of the taking-out bearing ramp is provided with a baffle abdicating groove.

Preferably, the taking-out cabinet is arranged in a lifting mode, and the taking-out cabinet is arranged in a horizontal sliding mode along the length direction of the storage cabinet.

Compared with the prior art, the invention has the beneficial effects that: the invention stores the plasma storage units in the storage tanks of the storage cabinets, when the plasma storage units need to be stored in one storage cabinet or taken from one storage cabinet, one storage cabinet can be directly moved out of the side-by-side storage cabinet array, and the adjacent storage cabinets can also be moved, so that a channel for the operation of the storing mechanism and the taking mechanism is formed between the adjacent storage cabinets, thus, the channel does not need to be reserved for each storage cabinet, the space occupied by the equipment is effectively reduced, and simultaneously, a coordinate can be assigned to each storage tank, so that the plasma storage unit in each storage tank has a unique position coordinate, a storage cabinet does not need to be independently established for each blood type, and the occupied space is further reduced.

Drawings

Fig. 1 is a schematic perspective view of the plasma storage device.

Fig. 2 is a schematic structural diagram of the storage cabinet.

Fig. 3 is a partially enlarged view of a portion a in fig. 2.

Fig. 4 is a schematic structural view of the storage cabinet.

Fig. 5 is a schematic structural view of the take-out cabinet.

Fig. 6 is a schematic structural view of the take-out cabinet.

Fig. 7 is a schematic structural view of the take-out slide table.

Wherein: 1. the storage cabinet 2, the frame 3, the crossbeam 4, deposit in the cabinet 5, horizontal propelling movement cylinder 6, deposit in and accept ramp 7, vertical propelling movement cylinder 8, deposit in conveyor belt 9, take out the cabinet 10, take out the slip table 11, take out conveyor belt 12, deposit in backstop unit 13, deposit in temporary storage groove 14, plasma storage unit 15, holding tank 16, take out backstop piece 17, take out temporary storage groove 18, pin 19, baffle 20, counter weight swing arm 21, rotary disk 22, take out and accept ramp 23, take out trigger lever 24, baffle abdication groove.

Detailed Description

Fig. 1 to 7 are preferred embodiments of the plasma storage device, and the present invention will be further described with reference to fig. 1 to 7.

Referring to fig. 1 to 3, the plasma storage device includes a storage cabinet 1, a storing cabinet 4 and a taking-out cabinet 9, a plurality of storage cabinets 1 are disposed in a frame 2, and is horizontally slidably disposed so that one storage cabinet 1 can be moved out of an array of a plurality of storage cabinets 1 or a passage is formed between adjacent storage cabinets 1 for facilitating storing and taking out operations, the storage cabinets 1 are provided with a plurality of storage slots 15 which are arranged to be inclined downward, a storage groove stopping unit is arranged at the lower opening of the storage groove 15, the lower end of the plasma storage unit 14 is abutted against the storage groove stopping unit, the upper part of the frame 2 is provided with a beam 3, the storage cabinet 4 and the taking-out cabinet 9 are respectively connected with the beam 3 in a lifting way, and deposit in cabinet 4 and take out cabinet 9 and set up along crossbeam 3 horizontal migration, deposit and be equipped with a plurality of temporary storage grooves 13 of depositing that correspond with holding tank 15 on cabinet 4, deposit and be equipped with in backstop unit 12 in temporary storage groove 13 downside opening part. A take-out sliding table 10 and a take-out conveying belt 11 are arranged below the take-out cabinet 9. The plasma storage unit 14 of the present invention may be a plasma storage case or a plasma bag.

Deposit in one side of cabinet 4 and be equipped with and deposit in conveyor belt 8 and propelling movement cylinder, the propelling movement cylinder will deposit the plasma memory cell 14 propelling movement on conveyor belt 8 to deposit in the groove of keeping in 13, and the one side of depositing in cabinet 4 is equipped with the opening that the intercommunication was deposited in groove of keeping in 13, and the propelling movement cylinder is with plasma memory cell 14 by the opening propelling movement of depositing in cabinet 4 to the groove of keeping in 13. The plasma storage unit 14 is sent into the storage tank 15 by using the air cylinder, the structure is simple, and the heat generated in the working process is little, thereby being beneficial to the storage of the plasma. The propelling movement cylinder includes horizontal propelling movement cylinder 5 and vertical propelling movement cylinder 7, it accepts ramp 6 to deposit in that one side of depositing in conveyor belt 8 was equipped with an slope setting, the inclination of accepting ramp 6 to deposit is the same with the inclination of depositing in groove 13 of keeping in, the lower extreme of accepting ramp 6 to deposit is equipped with spacing flange in, horizontal propelling movement cylinder 5 is accepting the opposite side of ramp 8 in depositing in with the corresponding setting of accepting ramp 6 in of depositing, vertical propelling movement cylinder 7 sets up and is depositing on accepting ramp 6 and with the propelling movement of plasma storage unit 14 to depositing in groove 13 of keeping in. Utilize horizontal propelling movement cylinder 5 will deposit the plasma memory cell 14 on conveyor belt 8 and push to storing on accepting ramp 6, then utilize vertical propelling movement cylinder 7 with plasma memory cell 14 propelling movement to storing in the groove of keeping in 13, can ensure like this that plasma memory cell 14 gets into smoothly and stores in the groove of keeping in 13, simple structure, reliable operation. The storing stopping unit 12 is a storing stopping sheet which is arranged in a rotating way, and one side of the storing cabinet 4 is provided with a motor which drives the storing stopping sheet to rotate. The plasma storage unit 14 is prevented from continuously sliding downwards by the storage stopping sheet, the structure is simple, the failure rate is low, and the phenomenon of blocking is avoided. Further, the arrangement that the storing conveyor belt 8 is inclined gradually in the embodiment, so that the plasma storing unit 14 stored on the conveyor belt 8 is inclined downwards gradually in the conveying process, and finally the angle of the plasma storing unit can be basically the same as that of the storing receiving ramp 6, so that the plasma storing unit 14 cannot directly slide over the storing receiving ramp 6 due to the angle problem during pushing of the transverse pushing cylinder 5, and the operation is more reliable.

Referring to fig. 3, the storage tank stopping unit is rotatably disposed on the taking-out stopping sheet 16, the taking-out stopping sheet 16 is vertically and freely rotatably disposed, the lower end of the plasma storage unit 14 abuts against the taking-out stopping sheet 16, and the rotating disk 21 is transversely and rotatably disposed and connected with a motor for driving the rotating disk to rotate.

Referring to fig. 4, a deposit pushing mechanism is provided at one side of the deposit cabinet 4 and pushes the plasma storage unit 14 into the deposit escrow slot 13. The plasma storage unit 14 can be stored in the plasma with different heights by utilizing the storage cabinet 4 arranged in a lifting way, so that the storage cabinet 1 can be set into a higher shape, the space utilization rate is improved, and the storage mode is flexible.

Referring to fig. 5-6, take out and be equipped with on the cabinet 9 and take out the groove 17 of keeping in with holding tank 15 corresponding, take out the downward sloping setting of the groove 17 of keeping in, take out the semicircular rotary disk 21 that the upper end opening part of the groove 17 of keeping in was equipped with the backstop unit of opening the holding tank, take out the downside opening part of the groove 17 of keeping in and be equipped with the groove backstop unit of keeping in, take out the supporting mechanism and set up in the below of taking out the cabinet 9, take out the supporting mechanism or take out the groove of keeping in that is equipped.

The rotating disk 21 dials the take-out stopper piece 16 to rotate upward. When the taking-out cabinet 9 moves to the front side of the corresponding storage cabinet 1, the rotating disk 21 of the corresponding taking-out temporary storage groove 17 rotates and stirs the taking-out stopping sheet 16, so that the plasma storage units 14 in the corresponding storage grooves 15 slide downwards to the taking-out temporary storage groove 17, the action of taking out the plasma storage units 14 from the storage cabinet 1 is completed, the structure is simple, seamless butt joint of the storage cabinet 1 and the taking-out cabinet 9 can be realized, and the reliable transfer of the plasma storage units 14 to the taking-out cabinet 9 is ensured.

The temporary storage groove stopping unit comprises a transversely arranged stop rod 18, one end of the stop rod 18 is rotatably connected with the taking-out cabinet 9, the other end of the stop rod 18 is bent to form a balance weight swing arm 20, a baffle plate 19 is arranged on the lower side of the middle of the stop rod 18, the lower end of the plasma storage unit 14 abuts against the baffle plate 19, and the temporary storage groove taking-out unit and the balance weight swing arm 20 are correspondingly fixed on the taking-out sliding table 10. The stop lever 18 is counterbalanced by the counterweight swing arm 20, so that the baffle 19 is prevented from being opened undesirably due to the impact of the downward sliding of the plasma storage unit 14, and meanwhile, the stop lever 18 is rotated by the relative movement of the temporary storage groove taking-out unit and the counterweight swing arm 20, so that the plasma storage unit 14 slides downwards to the taking-out sliding table 10 through the taking-out temporary storage groove 17.

Referring to fig. 7, the takeout slide 10 has a takeout receiving ramp 22 disposed obliquely, the temporary storage tank takeout unit is fixed to the upper end of the takeout receiving ramp 22, and the takeout conveyor belt 11 is disposed on the lower side of the takeout slide 10. The temporary storage groove taking-out unit comprises a taking-out trigger rod 23 fixed on one side of the upper end of the taking-out bearing ramp 22, a baffle plate abdicating groove 24 is formed in the middle of the taking-out bearing ramp 22, and when the stop lever 18 rotates, the baffle plate 19 passes through the baffle plate abdicating groove 24.

The working process is as follows:

storing: the plasma storage units 14 are conveyed to one side of the storage cabinet 4 by the storage conveying belt 8, the plasma storage units 14 are pushed to the storage receiving ramp 6 by the transverse pushing cylinder 5, then the plasma storage units 14 are pushed to the storage temporary storage groove 13 by the longitudinal pushing cylinder 7, then the storage cabinet 4 ascends or descends by the height of the storage temporary storage groove 13 until the storage cabinet 4 is full or the specified number of the plasma storage units 14 are stored, the storage cabinet 1 needing to be stored in the plasma storage units 14 is moved out of the frame 2 or a channel is formed at the rear side of the corresponding storage cabinet 1, the storage cabinet 4 moves horizontally to the specified position of the storage cabinet 1, then the corresponding storage stopping unit 12 is driven by the motor to be opened, so that the plasma storage units 14 slide into the corresponding storage grooves 15, and the storage of the plasma storage units 14 is completed.

Taking out: the storage cabinet 1 is moved out from the frame 2 or a channel is formed at the front side of the corresponding storage cabinet 1, the taking-out cabinet 9 is moved to a designated position at the front side of the storage cabinet 1 and is descended to a designated height, at the moment, the rotating disk 21 rotates and stirs the taking-out stopping sheet 16, so that the plasma storage units 14 in the corresponding storage tanks 15 slide down to the taking-out temporary storage groove 17, the action of taking out the plasma storage units 14 from the storage cabinet 1 is completed, when all the plasma storage units 14 or the taking-out cabinet 9 required for taking out are full, the taking-out cabinet 9 is moved to the upper part of the taking-out sliding table 10 and starts to descend gradually, the counterweight swing arm 20 is contacted with the taking-out trigger rod 23, the baffle rod 18 drives the baffle plate 19 to rotate, the plasma storage units 14 in the taking-out temporary storage groove 17 slide down to the taking-out receiving ramp 22, and are finally conveyed by the taking-out conveying belt 11, and the plasma storage units 14 in the taking-out cabinet 9 with the lower On the conveyor belt 11.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not intended to limit the present invention in any way, so that any person skilled in the art can make modifications or changes in the technical content disclosed above. However, any simple modification, equivalent change and modification of the above embodiments according to the technical essence of the present invention are within the protection scope of the technical solution of the present invention.

Claims

1. A plasma storage device, characterized by: the plasma storage cabinet comprises a storage cabinet (1) and a storage cabinet (4), wherein a plurality of storage tanks (15) which are arranged in a downward inclination mode are arranged on the storage cabinet (1), storage tank stopping units are arranged at openings at the lower sides of the storage tanks (15), the storage cabinets (4) are arranged in a lifting mode, a plurality of storage temporary storage tanks (13) which are arranged in a downward inclination mode are arranged on the storage cabinet (4), storage stopping units (12) are arranged at openings at the lower sides of the storage temporary storage tanks (13), a storage pushing mechanism is arranged on one side of the storage cabinet (4), and the storage pushing mechanism pushes plasma storage units (14) into the storage temporary storage tanks (13); the storage cabinets (1) are horizontally arranged in a sliding manner, and when the plasma storage units need to be stored in one storage cabinet or taken out of the one storage cabinet, one storage cabinet is directly moved out of the side-by-side storage cabinet array, or adjacent storage cabinets are moved, so that a channel for the operation of the storing mechanism and the taking mechanism is formed between the adjacent storage cabinets;

the storage cabinet is characterized by further comprising a taking-out cabinet (9) which is arranged in a lifting mode, wherein a taking-out temporary storage groove (17) is formed in the taking-out cabinet (9), one end, far away from the storage cabinet (1), of the taking-out temporary storage groove (17) is arranged in a downward inclined mode, a temporary storage groove stopping unit is arranged at an opening at the lower side of the taking-out temporary storage groove (17), and a storage groove taking-out unit which opens the storage groove stopping unit is arranged at an opening; the storage tank stopping unit is a taking-out stopping sheet (16) which is vertically and freely rotatably arranged, the lower end of the plasma storage unit (14) abuts against the taking-out stopping sheet (16), the storage tank taking-out unit is a rotating disk (21) which is transversely and rotatably arranged, the rotating disk (21) is connected with a motor for driving the rotating disk (21) to rotate, and the rotating disk (21) stirs the taking-out stopping sheet (16) to rotate upwards; the storage stopping unit (12) is a storage stopping sheet which is arranged in a rotating mode, and one side of the storage cabinet (4) is provided with a motor which drives the storage stopping sheet to rotate;

a taking-out supporting mechanism is further arranged below the taking-out cabinet (9), and a temporary storage groove taking-out unit for opening a temporary storage groove stopping unit is arranged on the taking-out supporting mechanism;

the temporary storage groove stopping unit comprises a transversely arranged stopping rod (18), one end of the stopping rod (18) is rotatably connected with the taking-out cabinet (9), the other end of the stopping rod is bent to form a counterweight swing arm (20), a baffle plate (19) is arranged on the lower side of the middle part of the stopping rod (18), the lower end of the plasma storage unit (14) abuts against the baffle plate (19), and the temporary storage groove taking-out unit and the counterweight swing arm (20) are correspondingly fixed on the taking-out supporting mechanism;

the taking-out bearing mechanism comprises a taking-out sliding table (10) and a taking-out conveying belt (11), the taking-out sliding table (10) is provided with a taking-out bearing ramp (22) which is obliquely arranged, a taking-out trigger rod (23) is fixed on one side of the upper end of the taking-out bearing ramp (22), and the taking-out conveying belt (11) is arranged on the lower side of the taking-out sliding table (10).

2. The plasma storage device of claim 1, wherein: deposit push mechanism including depositing in conveyor belt (8) and propelling movement cylinder, the propelling movement cylinder will deposit plasma memory cell (14) propelling movement on conveyor belt (8) to deposit in storing in groove (13).

3. A plasma storage device according to claim 2, wherein: the propelling movement cylinder includes horizontal propelling movement cylinder (5) and vertical propelling movement cylinder (7), it accepts ramp (6) to be equipped with the depositing of an slope setting in the one side of depositing in conveyor belt (8), the inclination of accepting ramp (6) is the same with the inclination of depositing in groove (13) of keeping in the depositing in, the lower extreme of accepting ramp (6) in the depositing is equipped with spacing flange, horizontal propelling movement cylinder (5) is accepting ramp (6) corresponding setting in the opposite side of depositing in conveyor belt (8) with depositing in, the opening of intercommunication holding tank (15) is seted up to the lateral part of storage cabinet (1), vertical propelling movement cylinder (7) set up in depositing in accept ramp (6) on and with plasma memory cell (14) propelling movement to deposit in groove (13) of keeping in.