CN114893938B - Movable blood sample refrigerator - Google Patents
Movable blood sample refrigerator Download PDFInfo
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- CN114893938B CN114893938B CN202210824273.2A CN202210824273A CN114893938B CN 114893938 B CN114893938 B CN 114893938B CN 202210824273 A CN202210824273 A CN 202210824273A CN 114893938 B CN114893938 B CN 114893938B
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F25—REFRIGERATION OR COOLING; COMBINED HEATING AND REFRIGERATION SYSTEMS; HEAT PUMP SYSTEMS; MANUFACTURE OR STORAGE OF ICE; LIQUEFACTION SOLIDIFICATION OF GASES
- F25D—REFRIGERATORS; COLD ROOMS; ICE-BOXES; COOLING OR FREEZING APPARATUS NOT OTHERWISE PROVIDED FOR
- F25D11/00—Self-contained movable devices, e.g. domestic refrigerators
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F25—REFRIGERATION OR COOLING; COMBINED HEATING AND REFRIGERATION SYSTEMS; HEAT PUMP SYSTEMS; MANUFACTURE OR STORAGE OF ICE; LIQUEFACTION SOLIDIFICATION OF GASES
- F25D—REFRIGERATORS; COLD ROOMS; ICE-BOXES; COOLING OR FREEZING APPARATUS NOT OTHERWISE PROVIDED FOR
- F25D17/00—Arrangements for circulating cooling fluids; Arrangements for circulating gas, e.g. air, within refrigerated spaces
- F25D17/04—Arrangements for circulating cooling fluids; Arrangements for circulating gas, e.g. air, within refrigerated spaces for circulating air, e.g. by convection
- F25D17/06—Arrangements for circulating cooling fluids; Arrangements for circulating gas, e.g. air, within refrigerated spaces for circulating air, e.g. by convection by forced circulation
- F25D17/08—Arrangements for circulating cooling fluids; Arrangements for circulating gas, e.g. air, within refrigerated spaces for circulating air, e.g. by convection by forced circulation using ducts
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F25—REFRIGERATION OR COOLING; COMBINED HEATING AND REFRIGERATION SYSTEMS; HEAT PUMP SYSTEMS; MANUFACTURE OR STORAGE OF ICE; LIQUEFACTION SOLIDIFICATION OF GASES
- F25D—REFRIGERATORS; COLD ROOMS; ICE-BOXES; COOLING OR FREEZING APPARATUS NOT OTHERWISE PROVIDED FOR
- F25D29/00—Arrangement or mounting of control or safety devices
- F25D29/003—Arrangement or mounting of control or safety devices for movable devices
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- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06V—IMAGE OR VIDEO RECOGNITION OR UNDERSTANDING
- G06V40/00—Recognition of biometric, human-related or animal-related patterns in image or video data
- G06V40/10—Human or animal bodies, e.g. vehicle occupants or pedestrians; Body parts, e.g. hands
- G06V40/12—Fingerprints or palmprints
- G06V40/13—Sensors therefor
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- General Engineering & Computer Science (AREA)
- Combustion & Propulsion (AREA)
- Mechanical Engineering (AREA)
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- Agricultural Chemicals And Associated Chemicals (AREA)
- Investigating Or Analysing Biological Materials (AREA)
Abstract
The invention belongs to the technical field of recording carriers, and particularly relates to a movable blood sample refrigerating box which comprises a blood sample refrigerating box assembly, wherein the blood sample refrigerating box assembly comprises a refrigerating box component, a refrigerating component, a blood sample storing component, a vacuum component, an anti-pulling control component, a triggering component, a releasing control component, a power component and a releasing component, the refrigerating component is installed on the inner side of the refrigerating box component, the blood sample storing component is also installed on the inner side of the refrigerating box component, the vacuum component is installed on the inner side of the blood sample storing component, the anti-pulling control component is installed at one end of the blood sample storing component, through the arranged blood sample refrigerating box assembly, illegal means such as law enforcement personnel malting illegal personal fraud, blood sample dropping and the like can be prevented, and after a blood sample tube is inserted into a device, the blood sample tube cannot be pulled out privately without the operation of a touch screen control host computer, thereby preventing law enforcement personnel from unpacking the blood sample tube, etc.
Description
Technical Field
The invention belongs to the technical field of recording carriers, and particularly relates to a movable blood sample refrigerating box.
Background
In order to deeply promote law enforcement standardization construction, ensure case law compliance such as drunken driving, accidents and the like, prevent law enforcement risks and establish a management system for robustly extracting vehicle driver sample preparation, and aim to strengthen supervision and management on driver sample extraction work, prevent law enforcement risks and bugs, continuously promote and promote specific measures of law enforcement regulations, prevent law enforcement personnel from committing illicit fraud, give blood samples to fall off bags and other illegal means, therefore, a movable blood sample refrigerating box is needed.
Disclosure of Invention
To solve the problems set forth in the background art described above. The invention provides a movable blood sample refrigerating box which has the characteristics of preventing law enforcement officers from committing illegalities, and providing illegal means such as blood sample bag falling.
In order to achieve the purpose, the invention provides the following technical scheme: a movable blood sample refrigerating box comprises a blood sample refrigerating box assembly, wherein the blood sample refrigerating box assembly comprises a refrigerating box component, a refrigerating component, a blood sample storing component, a vacuum component, an anti-pulling control component, a triggering component, a releasing control component, a power component and a releasing component;
the inboard of freezer subassembly is installed the refrigeration subassembly, the inboard of freezer subassembly is still installed the subassembly is deposited to the blood sample, the inboard of subassembly is deposited to the blood sample is installed the vacuum assembly, the one end of subassembly is deposited to the blood sample is installed prevent pulling out the control assembly, the inboard of vacuum assembly is installed trigger the subassembly, remove control assembly, power component and remove the subassembly.
As a preferable preference of the movable blood sample refrigerating box, the refrigerating box component comprises a refrigerating box shell, a portable handle, a handle limiting plate, a fingerprint identification module, a touch screen control host, a multi-angle camera, a cover plate and an electronic lock, the two ends of the refrigerator shell are rotatably provided with the hand-held handles, one side of the refrigerator shell is provided with the handle limiting plate which can support the hand-held handles, the fingerprint identification module, the touch screen control host and the multi-angle camera are arranged at the top of the refrigerator shell, the inside of the touch screen control host is provided with a GPS positioning module and a data networking module, the top of the fridge shell is also rotatably provided with the cover plate, one end of the refrigerator shell is provided with the electronic lock capable of locking the cover plate, and the inner side of the refrigerator shell is further provided with a micro printing device.
Preferably, the refrigeration assembly comprises a storage battery and an air-cooled micro refrigerator, the storage battery is mounted on the inner side of one end of the refrigerator shell, and the air-cooled micro refrigerator is further mounted on the inner side of one end of the refrigerator shell.
Preferably, the mobile blood sample refrigerating box of the invention is characterized in that the blood sample storage assembly comprises eight heat-insulating hard shells, eight circulating air pipes, blood sample pipes, radio frequency electronic tags, annular sealing pieces, hard connecting blocks, an annular base, a movable base, an electronic tag identification module, a sliding limiting ring and a first extension spring, wherein the heat-insulating hard shells are arranged at the inner side of one end of the refrigerating box shell, the heat-insulating hard shells are communicated with one another through the circulating air pipes, the heat-insulating hard shells are communicated with the inlet and outlet refrigerating air pipes of the air-cooled micro refrigerator, the blood sample pipes can be inserted into the inner sides of the tops of the heat-insulating hard shells, the radio frequency electronic tags are fixedly connected to the bottoms of the blood sample pipes, and the annular sealing pieces are fixedly connected to the inner sides of one ends of the heat-insulating hard shells, the bottom fixedly connected with of annular sealing member the stereoplasm connecting block, stereoplasm connecting block fixed mounting be in the one end of heat preservation stereoplasm casing is inboard, the bottom contact of blood appearance pipe is connected with annular base, the outer terminal surface fixedly connected with of annular base the mobile base, mobile base's inboard with the bottom contact of blood appearance pipe is connected, annular base's bottom outside fixedly connected with electronic tags identification module, the outer terminal surface fixedly connected with of one end of mobile base the slip spacing ring, slip spacing ring sliding connection be in the one end of stereoplasm connecting block is inboard, the top outside fixedly connected with of slip spacing ring first extension spring, first extension spring's top fixed connection be in the one end of stereoplasm connecting block is inboard.
Preferably, the vacuum assembly comprises a sealing shell, an air pump bracket, a vacuum pump, an air pressure detection module, a communication pipe and a sealing plug, wherein the opening at the top of the sealing shell is fixedly connected to the outer side of the bottom end of the hard connecting block, the air pump bracket is fixedly connected to the outer side of one end of the sealing shell, the vacuum pump is installed on the inner side of one end of the air pump bracket, the air exhaust end of the vacuum pump is communicated with the sealing shell, the air pressure detection module is fixedly installed on the inner side of one end of the sealing shell, the communication pipe is fixedly communicated with one end of the sealing shell, the top of the communication pipe is fixedly connected with the top of the heat-insulating hard shell, and the sealing plug is installed on the inner side of the top end of the communication pipe.
Preferably, the anti-pulling control component comprises a bottom clamping seat, a square rod, a connecting sleeve, a rotating shaft, a rotating wheel, a sealing cover, a spring seat and a first compression spring, the inner side of the bottom end of the movable base is fixedly connected with the bottom clamping seat, the inner side of the bottom clamping seat is connected with the square rod in a sliding way, the outer side of one end of the square rod is fixedly connected with the connecting sleeve, the outer side of one end of the connecting sleeve is fixedly connected with the rotating shaft, the outer side of one end of the rotating shaft is rotatably connected with the rotating wheel, the outer side of one end of the rotating wheel can be contacted with the bottom end of the bottom clamping seat, the inner side of one end of the bottom clamping seat is rotationally connected with the sealing cover, the outer side of the right end of the square rod is fixedly connected with the spring seat, the first compression spring is fixedly connected between the outer side of the left end of the spring seat and the outer side of the right end of the bottom clamping seat.
Preferably, the movable blood sample refrigerating box of the present invention comprises a first sliding sleeve, a single-slope pushing bar, a triggering shell, a slope groove member, a sliding rod, a movable inner rod, a sliding limiting block, a second compression spring, a special-shaped clamping bar, a first slope, a second arc-shaped portion, a movable outer rod, a sliding push rod, a second sliding sleeve, a first single-slope clamping bar and an installation bracket, wherein one end of the first sliding sleeve is fixed at the inner side of one end of the sealing shell, the single-slope pushing bar is connected to the inner side of one end of the first sliding sleeve in a sliding manner, the triggering shell is fixedly connected to the outer side of the right end of the single-slope pushing bar, a second extension spring is fixedly connected between the outer side of the right end of the first sliding sleeve and the outer side of the left end of the triggering shell, and the slope groove member is fixedly connected to the inner side of one end of the triggering shell, the inner side of one end of the inclined groove part is connected with the sliding rod in a sliding manner, the outer side of one end of the sliding rod is fixedly connected with the inner moving rod, the inner side of the top end of the inner moving rod is connected with the sliding limiting blocks in a sliding manner, the second compression spring is fixedly connected between the two sliding limiting blocks, the other end of each sliding limiting block is fixedly connected with the special-shaped clamping strip, the clamping part of the special-shaped clamping strip is provided with the first inclined surface, the first inclined surface part of the special-shaped clamping strip is connected with the second arc-shaped part, the outer side of the inner moving rod is connected with the outer moving rod in a sliding manner, the inner side of the outer moving rod is provided with a groove which can be simultaneously clamped with the first inclined surface and the second arc-shaped part, the inner side of the top end of the outer moving rod is fixedly connected with the sliding push rod, and the outer side of one end of the sliding push rod is connected with the second sliding sleeve part in a sliding manner, the top end of the sliding push rod is fixedly connected with the first single-inclined-plane clamping strip, the inclined plane part of the first single-inclined-plane clamping strip can be connected with the right end of the square rod in a clamping mode, one end of the second sliding external member is fixedly connected with the mounting support, and the top end of the mounting support is fixedly connected with the bottom end of the movable base.
Preferably, the movable blood sample refrigerating box of the invention is characterized in that the releasing control component comprises a first threaded rod, an elastic bracket, a first semi-elliptical block, a releasing bracket, a bearing, a releasing shell, a gear ring, a large push plate, a third compression spring, thread teeth and hollow annular rubber, the right end of the first threaded rod is fixedly connected with the outer side of the left end of the square rod, the outer side of the left end of the first threaded rod is fixedly connected with the elastic bracket, the outer side of the bottom end of the elastic bracket is fixedly connected with the first semi-elliptical block, the right end of the releasing bracket is fixedly connected with the outer side of the left end of the bottom clamping seat, the inner side of one end of the releasing bracket is fixedly connected with the bearing, the inner side of one end of the bearing is fixedly connected with the releasing shell, the outer side of the left end of the releasing shell is fixedly connected with the gear ring, and the inner side of one end of the releasing shell is connected with the large push plate in a sliding manner, the third compression spring is fixedly connected between the outer side of one end of the large push plate and the inner wall surface of the releasing shell, the thread teeth are fixedly connected to the other end of the large push plate, the thread teeth are plate-shaped, and the hollow annular rubber is installed between one end, facing the first threaded rod, of the large push plate and the inner side of the releasing shell.
Preferably, the power assembly comprises a hard tube, a through hole, an impeller assembly, a counterweight, a second threaded rod, a coil spring seat, a transmission rod, a pinion, a spiral spring, an internal threaded slider, a sliding strip, a control shell, a sliding plate, spherical hollow rubber, a second single-inclined-plane clamping strip, a small limiting ring and a fourth compression spring, wherein the top end of the hard tube is fixedly communicated with the inner side of the bottom end of the movable base, the impeller assembly is installed on the inner side of the bottom of the hard tube, one end of a rotating shaft of the impeller assembly is fixedly connected with the counterweight, the other end of the rotating shaft of the impeller assembly is fixedly connected with the second threaded rod, the other end of the second threaded rod is fixedly connected with the coil spring seat, the other end of the coil spring seat is fixedly connected with the transmission rod, and the transmission rod is rotatably connected to the inner side of the tail end of the hard tube, the other end of the transmission rod is rotatably connected to the outer side of the left end of the bottom clamping seat, one end of the transmission rod is fixedly connected with the pinion, one end of the pinion is meshed with the bottom end of the gear ring, one end of the coil spring seat is fixedly connected with the clockwork spring, the other end of the clockwork spring is fixedly connected to the inner side of the tail end of the hard tube, the outer side of one end of the second threaded rod is in threaded connection with the internal thread sliding block, the outer side of the bottom end of the internal thread sliding block is fixedly connected with the sliding strip, the sliding strip is in sliding connection with the inner side of the tube wall of the hard tube, the outer side of the bottom end of the hard tube is fixedly connected with the control shell, the inner side of one end of the control shell is in sliding connection with the sliding plate, and the spherical hollow rubber is installed between the outer side of the bottom end of the sliding plate and the inner side of the bottom end of the control shell, the second single-inclined-plane clamping strip is fixedly connected to the outer side of the top end of the sliding plate, the inclined plane part of the second single-inclined-plane clamping strip can be connected with the inner side of the bottom end of the sliding strip in a clamping mode, the small limiting ring is fixedly connected to the outer side of one end of the second single-inclined-plane clamping strip, and the fourth compression spring is fixedly connected between the outer side of the top end of the sliding plate and the outer side of the bottom end of the hard tube.
Preferably, the release assembly comprises a square shell, a sliding inner part, a third single-inclined-surface clamping strip, a fifth compression spring, a right-angle rod and a second semi-elliptical block, the square shell is fixedly connected to the inner side of one end of the sealing shell, the sliding inner part is slidably connected to the inner side of one end of the square shell, the third single-inclined-surface clamping strip is fixedly connected to the right end of the sliding inner part, the inclined surface part of the third single-inclined-surface clamping strip can be clamped and connected with the inner side of the bottom end of the bottom clamping seat, the fifth compression spring is fixedly connected between the outer side of the left end of the sliding inner part and the inner side of the left end of the square shell, the right-angle rod is fixedly connected to the left end of the sliding inner part, and the second semi-elliptical block is fixedly connected to the top end of the right-angle rod.
Compared with the prior art, the invention has the beneficial effects that: through the blood sample fridge assembly that sets up, can realize preventing that law enforcement personnel from committing illegalities for personal gains, give the blood sample and fall illegal means such as package to can be behind blood sample pipe insertion device, can't not pull out the blood sample pipe privately through the operation of touch-sensitive screen control host computer, thereby prevent that law enforcement personnel from falling package etc. for blood sample pipe.
Drawings
The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention. In the drawings:
FIG. 1 is a schematic view of the overall structure of the present invention;
FIG. 2 is a schematic view of an open structure of the cover plate according to the present invention;
FIG. 3 is a schematic view of the internal construction of the refrigerator shell of the present invention;
FIG. 4 is a schematic view of the internal structure of the insulated hard shell according to the present invention;
FIG. 5 is a schematic bottom view of a blood sample vessel according to the present invention;
FIG. 6 is a schematic view showing the internal structure of the hermetic container according to the present invention;
FIG. 7 is an enlarged view of the structure of FIG. 6 at A in the present invention;
FIG. 8 is a schematic view of the mounting structure of the movable base of the present invention;
FIG. 9 is an enlarged view of the structure of FIG. 8 at B in the present invention;
FIG. 10 is a schematic view showing the overall construction of a power module according to the present invention;
FIG. 11 is a schematic view of the overall structure of the release control assembly of the present invention;
FIG. 12 is a schematic view of the internal structure of the rigid tube of the present invention;
FIG. 13 is an enlarged view of the structure of FIG. 12 at C in the present invention;
FIG. 14 is a schematic view showing the overall structure of a release member according to the present invention;
FIG. 15 is a sectional view showing an installation structure of the release case in the present invention;
FIG. 16 is a schematic view of the installation structure of the trigger assembly of the present invention;
FIG. 17 is a schematic view of the overall structure of the trigger assembly of the present invention;
FIG. 18 is a schematic view of the installation structure of the movable inner rod of the present invention;
FIG. 19 is an enlarged view of FIG. 18 at D according to the present invention;
FIG. 20 is a schematic view of the overall structure of the special-shaped card strip of the present invention.
In the figure:
1. a blood sample cooler assembly;
2. a refrigeration case assembly; 21. a refrigerator housing; 22. a carrying handle; 23. a handle limiting plate; 24. a fingerprint identification module; 25. the touch screen controls the host computer; 26. a multi-angle camera; 27. a cover plate; 28. an electronic lock;
3. a refrigeration assembly; 31. a storage battery; 32. an air-cooled micro refrigerator;
4. a blood sample storage assembly; 41. a heat-insulating hard shell; 42. a circulating air duct; 43. a blood sample tube; 431. a radio frequency electronic tag; 44. an annular seal; 45. a hard connecting block; 46. an annular base; 47. a movable base; 48. an electronic tag identification module; 49. sliding the limiting ring; 491. a first extension spring;
5. a vacuum assembly; 51. sealing the housing; 52. an air pump bracket; 53. a vacuum pump; 54. an air pressure detection module; 55. a communicating pipe; 56. a sealing plug;
6. an anti-pullout control assembly; 61. a bottom clamping seat; 62. a square rod; 63. connecting sleeves; 64. a rotating shaft; 65. a rotating wheel; 66. a sealing cover; 67. a spring seat; 68. a first compression spring;
7. a trigger component; 71. a first sliding sleeve member; 72. a single bevel push bar; 721. a second extension spring; 73. triggering the shell; 74. a chute member; 75. a slide bar; 76. moving the inner rod; 77. a sliding limiting block; 78. a second compression spring; 79. special-shaped clamping strips; 791. a first inclined plane; 792. a second arcuate portion; 793. moving the outer rod; 794. a sliding push rod; 795. a second sliding sleeve member; 796. a first single-bevel clamping strip; 797. mounting a bracket;
8. releasing the control assembly; 81. a first threaded rod; 82. an elastic support; 821. a first semi-elliptical block; 83. releasing the bracket; 831. a bearing; 84. releasing the shell; 841. a ring gear; 85. a large push plate; 851. a third compression spring; 852. thread teeth; 86. hollow ring rubber;
9. a power assembly; 91. a rigid tube; 911. a through hole; 92. an impeller assembly; 921. a balancing weight; 922. a second threaded rod; 93. a coil spring seat; 931. a transmission rod; 932. a pinion gear; 933. a clockwork spring and a coil spring; 94. an internal thread slider; 941. a slide bar; 95. a control housing; 951. a sliding plate; 952. spherical hollow rubber; 96. a second single-bevel clamping strip; 961. a small limiting ring; 962. a fourth compression spring;
10. releasing the component; 1001. a square housing; 1002. a sliding inner member; 1003. a third single-bevel clamping strip; 1004. a fifth compression spring; 1005. a right-angle rod; 1006. the second semi-elliptical block.
Detailed Description
The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.
As shown in fig. 1-20:
a movable blood sample refrigerating box comprises a blood sample refrigerating box assembly 1, wherein the blood sample refrigerating box assembly 1 comprises a refrigerating box component 2, a refrigerating component 3, a blood sample storage component 4, a vacuum component 5, an anti-pulling control component 6, a trigger component 7, a release control component 8, a power component 9 and a release component 10;
refrigeration subassembly 3 is installed to the inboard of freezer subassembly 2, and the subassembly 4 is deposited to the blood sample still installed to the inboard of freezer subassembly 2, and vacuum assembly 5 is installed to the inboard of subassembly 4 is deposited to the blood sample, and the one end of subassembly 4 is deposited to the blood sample is installed and is prevented pulling out control assembly 6, and trigger subassembly 7, release control assembly 8, power component 9 and remove subassembly 10 are installed to the inboard of vacuum assembly 5.
Further, the method comprises the following steps of;
in an alternative embodiment, the refrigeration box assembly 2 includes a refrigeration box housing 21, a carrying handle 22, a handle limiting plate 23, a fingerprint identification module 24, a touch screen control host 25, a multi-angle camera 26, a cover plate 27 and an electronic lock 28, the carrying handle 22 is rotatably installed at two ends of the refrigeration box housing 21, the handle limiting plate 23 capable of supporting the carrying handle 22 is installed at one side of the refrigeration box housing 21, the fingerprint identification module 24, the touch screen control host 25 and the multi-angle camera 26 are installed at the top of the refrigeration box housing 21, a GPS positioning module and a data networking module are arranged inside the touch screen control host 25, the cover plate 27 is further rotatably installed at the top of the refrigeration box housing 21, the electronic lock 28 capable of locking the cover plate 27 is arranged at one end of the refrigeration box housing 21, and a micro-printer is further installed at the inner side of the refrigeration box housing 21.
In an alternative embodiment, the refrigeration assembly 3 comprises a battery 31 and an air-cooled micro refrigerator 32, the battery 31 is mounted inside one end of the refrigerator housing 21, and the air-cooled micro refrigerator 32 is mounted inside one end of the refrigerator housing 21.
In an alternative embodiment, the blood sample storage assembly 4 includes a heat-insulating hard housing 41, a circulating air pipe 42, a blood sample pipe 43, a radio frequency electronic tag 431, an annular sealing member 44, hard connecting blocks 45, an annular base 46, a movable base 47, an electronic tag identification module 48, a sliding limiting ring 49 and a first tension spring 491, the heat-insulating hard housing 41 is installed on the inner side of one end of the refrigerator housing 21, the number of the heat-insulating hard housings 41 is eight, the heat-insulating hard housings 41 are communicated with each other through the circulating air pipe 42, the heat-insulating hard housing 41 is communicated with an inlet and outlet refrigerating air pipe of the air-cooled micro refrigerator 32, the blood sample pipe 43 can be inserted into the inner side of the top of the heat-insulating hard housing 41, the radio frequency electronic tag 431 is fixedly connected to the bottom of the blood sample pipe 43, the annular sealing member 44 is fixedly connected to the inner side of one end of the heat-insulating hard housing 41, the hard connecting block 45 is fixedly connected to the bottom end of the annular sealing member 44, hard connecting block 45 fixed mounting is inboard at the one end of heat preservation stereoplasm casing 41, the bottom contact of blood specimen pipe 43 is connected with annular base 46, annular base 46's outer terminal surface fixedly connected with mobile base 47, mobile base 47's inboard is connected with the bottom contact of blood specimen pipe 43, annular base 46's bottom outside fixedly connected with electronic tags identification module 48, the outer terminal surface fixedly connected with slip spacing ring 49 of one end of mobile base 47, slip spacing ring 49 sliding connection is inboard at the one end of hard connecting block 45, the first extension spring 491 of the top outside fixedly connected with of slip spacing ring 49, the top fixed connection of first extension spring 491 is inboard at the one end of hard connecting block 45.
In an alternative embodiment, the vacuum assembly 5 includes a sealed housing 51, an air pump bracket 52, a vacuum pump 53, an air pressure detection module 54, a communication pipe 55 and a sealing plug 56, the top opening of the sealed housing 51 is fixedly connected to the outside of the bottom end of the hard connecting block 45, the air pump bracket 52 is fixedly connected to the outside of one end of the sealed housing 51, the vacuum pump 53 is installed on the inside of one end of the air pump bracket 52, the air exhaust end of the vacuum pump 53 is connected to the sealed housing 51, the air pressure detection module 54 is fixedly installed on the inside of one end of the sealed housing 51, the communication pipe 55 is fixedly connected to one end of the sealed housing 51, the top of the communication pipe 55 is fixedly connected to the top of the heat-insulating hard housing 41, and the sealing plug 56 is installed on the inside of the top end of the communication pipe 55.
In an alternative embodiment, the anti-pulling control assembly 6 comprises a bottom engaging seat 61, a square rod 62, a connecting sleeve 63, a rotating shaft 64, the bottom end inner side of the movable base 47 is fixedly connected with a bottom clamping seat 61, the inner side of the bottom clamping seat 61 is slidably connected with a square rod 62, the one end outer side of the square rod 62 is fixedly connected with a connecting sleeve 63, the one end outer side of the connecting sleeve 63 is fixedly connected with a rotating shaft 64, the one end outer side of the rotating shaft 64 is rotatably connected with the rotating wheel 65, the one end outer side of the rotating wheel 65 can be in contact with the bottom end of the bottom clamping seat 61, the one end inner side of the bottom clamping seat 61 is rotatably connected with a sealing cover 66, the right end outer side of the square rod 62 is fixedly connected with a spring seat 67, and a first compression spring 68 is fixedly connected between the left end outer side of the spring seat 67 and the right end outer side of the bottom clamping seat 61.
In an alternative embodiment, the triggering component 7 includes a first sliding sleeve 71, a single-slope pushing bar 72, a triggering shell 73, a chute member 74, a sliding rod 75, a movable inner rod 76, a sliding stopper 77, a second compression spring 78, a special-shaped clamping bar 79, a first slope 791, a second arc portion 792, a movable outer rod 793, a sliding push rod 794, a second sliding sleeve 795, a first single-slope clamping bar 796 and a mounting bracket 797, wherein one end of the first sliding sleeve 71 is fixed inside one end of the sealing shell 51, one end of the first sliding sleeve 71 is slidably connected with the single-slope pushing bar 72, the right end of the single-slope pushing bar 72 is fixedly connected with the triggering shell 73, a second extension spring is fixedly connected between the right end of the first sliding sleeve 71 and the left end of the triggering shell 73, one end of the triggering shell 73 is fixedly connected with the slope groove member 74, one end of the slope groove member 74 is slidably connected with the sliding rod 75, a movable inner rod 76 is fixedly connected to the outer side of one end of the sliding rod 75, a sliding limiting block 77 is slidably connected to the inner side of the top end of the movable inner rod 76, a second compression spring 78 is fixedly connected between the two sliding limiting blocks 77, a special-shaped clamping strip 79 is fixedly connected to the other end of the sliding limiting block 77, a first inclined surface 791 is arranged on the clamping portion of the special-shaped clamping strip 79, a second arc-shaped portion 792 is connected with the first inclined surface 791 of the special-shaped clamping strip 79, a movable outer rod 793 is slidably connected to the outer side of the movable inner rod 76, a groove capable of being clamped with the first inclined surface 791 and the second arc-shaped portion 792 is formed in the inner side of the movable outer rod 793, a sliding push rod 794 is fixedly connected to the inner side of the top end of the movable outer rod 793, a second sliding sleeve 795 is slidably connected to the outer side of one end of the sliding push rod 794, a first single-inclined-surface clamping strip 796 is fixedly connected to the inclined surface portion of the first single-inclined surface clamping strip 796 and is connected with the right end of the square rod 62, one end of the second sliding sleeve 795 is fixedly connected with a mounting bracket 797, and the top end of the mounting bracket 797 is fixedly connected with the bottom end of the movable base 47.
In an alternative embodiment, the releasing control assembly 8 includes a first threaded rod 81, an elastic support 82, a first semi-elliptical block 821, a releasing support 83, a bearing 831, a releasing casing 84, a gear ring 841, a large push plate 85, a third compression spring 851, a thread tooth 852 and a hollow ring rubber 86, the right end of the first threaded rod 81 is fixedly connected with the outer side of the left end of the square rod 62, the elastic support 82 is fixedly connected with the outer side of the left end of the first threaded rod 81, the first semi-elliptical block 821 is fixedly connected with the outer side of the bottom end of the elastic support 82, the right end of the releasing support 83 is fixedly connected with the outer side of the left end of the bottom clamping seat 61, the bearing 831 is fixedly connected with the inner side of one end of the releasing support 83, the releasing casing 84 is fixedly connected with the inner side of one end of the bearing 831, the gear ring 841 is fixedly connected with the outer side of the left end of the releasing casing 84, the large push plate 85 is slidably connected with the inner side of one end of the releasing casing 84, a third compression spring 851 is fixedly connected between the outer side of one end of the large push plate 85 and the inner wall surface of the release case 84, a screw tooth 852 is fixedly connected to the other end of the large push plate 85, the screw tooth 852 is plate-shaped, and a hollow annular rubber 86 is installed between one end of the large push plate 85 facing the first threaded rod 81 and the inner side of the release case 84.
In an alternative embodiment, the power assembly 9 includes a hard tube 91, a through hole 911, an impeller assembly 92, a weight block 921, a second threaded rod 922, a coil spring seat 93, a transmission rod 931, a pinion 932, a coil spring 933, an internally threaded slider 94, a sliding bar 941, a control housing 95, a sliding plate 951, a spherical hollow rubber 952, a second single-inclined-surface clamping bar 96, a small limiting ring 961 and a fourth compression spring 962, wherein a top end of the hard tube 91 is fixedly connected to an inner side of a bottom end of the movable base 47, the impeller assembly 92 is mounted on an inner side of a bottom of the hard tube 91, one end of a rotating shaft of the impeller assembly 92 is fixedly connected to the weight block 921, the other end of the rotating shaft of the impeller assembly 92 is fixedly connected to the second threaded rod 922, the other end of the second threaded rod 922 is fixedly connected to the coil spring seat 93, the other end of the coil spring seat 93 is fixedly connected to the transmission rod 931, the transmission rod 931 is rotatably connected to an inner side of the end of the hard tube 91, the other end of the transmission rod 931 is rotatably connected to the outer side of the left end of the bottom clamping seat 61, one end of the transmission rod 931 is fixedly connected with a pinion 932, one end of the pinion 932 is meshed with the bottom end of the gear ring 841, one end of the coil spring seat 93 is fixedly connected with a clockwork coil spring 933, the other end of the clockwork coil spring 933 is fixedly connected to the inner side of the tail end of the rigid tube 91, the outer side of one end of the second threaded rod 922 is in threaded connection with an internal threaded slider 94, the outer side of the bottom end of the internal threaded slider 94 is fixedly connected with a sliding strip 941, the sliding strip 941 is in sliding connection with the inner side of the tube wall of the rigid tube 91, the outer side of the bottom end of the rigid tube 91 is fixedly connected with a control shell 95, the inner side of one end of the control shell 95 is in sliding connection with a sliding plate 951, a spherical hollow rubber 952 is installed between the outer side of the bottom end of the sliding plate 951 and the inner side of the bottom end of the control shell 95, the outer side of the top end of the sliding plate 951 is fixedly connected with a second single-slope clamping strip 96, the inclined surface portion of the second single-inclined-surface clamping strip 96 can be connected with the inner side of the bottom end of the sliding strip 941 in a clamping mode, a small limiting ring 961 is fixedly connected to the outer side of one end of the second single-inclined-surface clamping strip 96, and a fourth compression spring 962 is fixedly connected between the outer side of the top end of the sliding plate 951 and the outer side of the bottom end of the hard tube 91.
In an alternative embodiment, the releasing assembly 10 includes a square housing 1001, a sliding inner member 1002, a third single-bevel clamping bar 1003, a fifth compression spring 1004, a right-angle bar 1005 and a second semi-elliptical block 1006, the square housing 1001 is fixedly connected to the inner side of one end of the sealing housing 51, the inner side of one end of the square housing 1001 is slidably connected to the sliding inner member 1002, the right end of the sliding inner member 1002 is fixedly connected to the third single-bevel clamping bar 1003, a bevel portion of the third single-bevel clamping bar 1003 can be clamped to the inner side of the bottom end of the bottom clamping seat 61, the fifth compression spring 1004 is fixedly connected between the outer side of the left end of the sliding inner member 1002 and the inner side of the left end of the square housing 1001, the left end of the sliding inner member 1002 is fixedly connected to the right-angle bar 1005, and the top end of the right-angle bar 1005 is fixedly connected to the second semi-elliptical block 1006.
In this embodiment: in order to deeply promote law enforcement standardization construction, ensure that cases such as drunk driving, accidents and the like are legal and just, prevent law enforcement risks, prevent law enforcement officers from committing illegalities for personal committee, and give illegal means such as blood sample falling off a bag, the problem can be solved by the arranged blood sample refrigerating box assembly 1, the arranged multi-angle camera 26 has different installation angles for the plurality of cameras, can shoot pictures with more angles, the whole blood drawing process and the whole storage process can be recorded by the multi-angle camera 26, the law enforcement officers can operate the blood sample refrigerating box assembly 1 by the arranged fingerprint identification module 24, the screen of the touch screen control host computer 25 can be lightened by the fingerprint identification module 24, then the electronic lock 28 is controlled by the touch screen control host computer 25 to open the cover plate 27, when the cover plate 27 is opened, the fingerprints of the law enforcement officers need to be output again by the fingerprint identification module 24, the blood sample refrigerating box assembly 1 is powered by the storage battery 31, the temperature of the inner side of the refrigerating box shell 21 can be reduced by the air-cooled micro refrigerator 32, the temperature can be set by the touch screen control host computer 25, the temperature setting range is from minus five degrees to normal temperature, a receipt can be printed by the arranged printing equipment, the printed content of the receipt comprises information of the radio frequency electronic label 431 and identity information of a person to be subjected to blood drawing, the information can be uploaded to a server through a data networking module in real time, namely, the printed information corresponds to the information of the radio frequency electronic label 431, authenticity can be verified at a later stage, when a blood sample tube 43 is stored in the blood sample refrigerating box assembly 1, fingerprints of the person to be subjected to blood drawing can be recorded, when the blood sample tube 43 is inserted into the blood sample refrigerating box assembly 1, the touch screen control host computer 25 can prompt the person to be subjected to blood drawing to carry out fingerprint recording, moreover, after the blood sample tube 43 is inserted, even if the cover plate 27 is opened, the blood sample tube 43 cannot be pulled out, and even if the blood sample tube 43 is pulled out with brute force, the blood sample can be recorded by the blood sample refrigerating box assembly 1, specifically, as follows, after the blood of the person to be drawn is stored in the blood sample tube 43, the cover plate 27 is opened, the blood sample tube 43 is inserted into the heat-insulating hard shell 41, the blood sample tube 43 will contact with the annular base 46, at this time, the rfid module 48 can identify the rfid 431 at the bottom of the blood sample tube 43, the bottom of the blood sample tube 43 will contact with the annular base 46 and drive the annular base 46 to move downwards, the annular base 46 will drive the movable base 47 to move downwards, the movable base 47 will drive the sliding limiting ring 49 to move downwards against the elastic force of the first stretching spring 491, when the movable base 47 moves downwards, the movable base 47 will drive the bottom engaging seat 61 to engage with the third single-slope card 1003 in the releasing assembly 10, therefore, the movable base 47 is prevented from moving upwards again, meanwhile, the inner side of the sealed shell 51 can be always kept in a vacuum state through the arranged vacuum component 5, the air pressure in the inner side of the sealed shell 51 can be detected through the arranged air pressure detection module 54, when the vacuum degree in the sealed shell 51 does not meet the requirement, the vacuum pump 53 is electrified, when the vacuum degree in the sealed shell 51 meets the requirement, the vacuum pump 53 stops working, before no blood sample tube 43 is inserted into the inner side of the movable base 47, the outside air can pass through the bottom of the movable base 47 to enter the inner side of the sealed shell 51, mainly the outside air enters the inner side of the movable base 47 and then enters the inner side of the hard tube 91, then enters the inner side of the sealed shell 51 through the through hole 911, and the sealing cover 66 is in a closed state at the moment, so the air in the movable base 47 cannot pass through the bottom clamping seat 61, however, in the process that air enters the inside of the sealed housing 51 through the through hole 911, the air flow passes through the impeller assembly 92, so that the impeller assembly 92 rotates, the rotation of the impeller assembly 92 drives the counterweight 921 and the second threaded rod 922 to rotate together, the rotation of the second threaded rod 922 drives the coil spring seat 93 to rotate, the coil spring seat 93 needs to rotate against the elastic force of the spiral spring 933, the coil spring seat 93 also drives the transmission rod 931 and the pinion 932 to rotate, the rotation of the pinion 932 drives the ring gear 841 and the release housing 84 to rotate, at this time, the thread teeth 852 do not contact with the first threaded rod 81, so that the release housing 84 does not drive the first threaded rod 81 to move, because the inside of the sealed housing 51 is in a vacuum environment at this time, although a part of air enters the inside of the sealed housing 51 through the through hole 911, the amount of air entering is relatively small, and the vacuum pump 53 is continuously vacuumized, so the inner side of the sealing shell 51 is still in a relatively good vacuum environment at this time, under the vacuum environment, the air inside the hollow annular rubber 86 expands to cause the hollow annular rubber 86 to expand integrally, the expansion of the hollow annular rubber 86 pushes the large push plate 85 to move against the elastic force of the third compression spring 851, so the large push plate 85 at this time drives the thread teeth 852 not to contact with the first threaded rod 81, the second threaded rod 922 rotates to drive the internal thread slider 94 to move, because the bottom of the internal thread slider 94 is provided with the sliding strip 941 to slide on the inner side of the rigid tube 91, so that the internal thread slider 94 can only slide but not rotate, the internal thread slider 94 moves to approach towards the through hole 911 until the through hole 911 is blocked by the internal thread slider 94, and through the set counterweight 921, when the internal thread slider 94 is about to block the through hole 911, or when the through hole 911 is partially blocked, the air flow amount is reduced, so that the rotation speed of the impeller assembly 92 is reduced, and the through hole 911 cannot be completely blocked, in order to avoid this, the impeller assembly 92 can continue to rotate under the action of inertia through the arranged balancing weight 921, so that the through hole 911 can be completely blocked by the internal thread slider 94, when the through hole 911 is completely blocked by the internal thread slider 94, the internal thread slider 94 also drives the sliding strip 941 to be clamped with the second single-slope clamping strip 96, and the spring 933 is prevented from driving the second threaded rod 922 to rotate reversely, so that the through hole 911 is not blocked by the internal thread slider 94, thereby realizing that the sealed shell 51 is still in a vacuum state before the blood sample tube 43 is not inserted into the movable base 47, and when the blood sample tube 43 is inserted into the sealed shell 51 and then drives the sealed shell 51 to move downwards, in the process of engaging the bottom engaging seat 61 with the third single-bevel engaging strip 1003 by the sealing housing 51, the bottom engaging seat 61 will push the single-bevel pushing strip 72 in the process of moving downward, the single-bevel pushing strip 72 will drive the trigger housing 73 to drive the chute member 74 to move, the chute member 74 will drive the sliding rod 75 to move downward, the sliding rod 75 will drive the moving inner rod 76 to drive the moving outer rod 793 to move downward, the moving outer rod 793 will drive the sliding push rod 794 to drive the first single-bevel engaging strip 796 to move downward, so that the first single-bevel engaging strip 796 will move downward and then be separated from the square rod 62, in this process, since the moving base 47 will also drive the mounting bracket 797 and the square rod 62 to move downward together, the mounting bracket 797 will drive the second sliding sleeve 795 to push the moving outer rod 793 to move downward, so that the moving outer rod 793 and the moving inner rod 76 will relatively move, the movable outer rod 793 and the movable inner rod 76 can be relatively displaced through the arranged special-shaped clamping strip 79, and the movable outer rod 793 and the movable inner rod 76 have a movable transmission force, when the movable outer rod 793 moves downwards, the movable outer rod 793 can push the first inclined surface 791, so that the special-shaped clamping strip 79 is more easily forced to move, the special-shaped clamping strip 79 drives the sliding limiting block 77 to move against the elastic force of the second compression spring 78, when the movable inner rod 76 moves downwards, the movable inner rod 76 can drive the special-shaped clamping strip 79 to move downwards, at the moment, the second arc-shaped part 792 on the special-shaped clamping strip 79 can drive the movable outer rod 793 to move downwards together, because the second arc-shaped part 792 is more laboursome relative to the first inclined surface 791, the inner rod moves more difficultly, when the movable outer rod 793 moves downwards, and when the movable inner rod 76 moves downwards, the movable outer rod 793 can be better driven to move downwards through the special-shaped clamping strip 79, and when the movable inner rod 76 moves downwards actively, make and be difficult to take place relative movement between removal outer pole 793 and the removal interior pole 76, when removing outer pole 793 and being driven the downstream, remove outer pole 793 and can drive slide push rod 794 thereby drive first single inclined plane card strip 796 and move down, first single inclined plane card strip 796's base this moment can contact with the top of removing outer pole 793, square pole 62 does not have the block restriction of first single inclined plane card strip 796, square pole 62 can move, square pole 62 can drive adapter sleeve 63 and drive axis of rotation 64 and move, axis of rotation 64 can drive and rotate wheel 65 and move, make and rotate wheel 65 and move to not contact with sealed lid 66 at sealed lid 66 downside position originally, make and rotate the bottom contact of wheel 65 and bottom block 61, do not rotate the restriction of wheel 65, sealed lid 66 can rotate and open, receive the influence of the inboard vacuum environment of sealed casing 51, the air that the space that the inboard of activity base 47 space of bottom block 61 upside and blood sample pipe 43 bottom enclose becomes can get into sealed casing 51 The inner side of the sealing shell 51 is pumped out by the vacuum pump 53, the annular sealing element 44 is arranged to prevent outside air from entering the inner side of the movable base 47, at this time, because the bottom of the blood sample tube 43 is communicated with the inner space of the sealing shell 51, at this time, the blood sample tube 43 is difficult to pull out due to the influence of atmospheric pressure, if the blood sample tube 43 is pulled out with brute force, the atmospheric pressure needs to be overcome, and after the blood sample tube 43 is pulled out, the vacuum degree of the inner side of the sealing shell 51 can be detected by the atmospheric pressure detection module 54, through this way, the blood sample tube 43 can be stably inserted into the blood sample refrigerating box assembly 1 without easily falling off, when the blood sample tube 43 needs to be taken off, the host computer 25 is firstly controlled to input the blood sample tube 43 to be taken off through the touch screen, the device stops supplying power to the vacuum pump 53 at the position of the blood sample tube 43, and no matter what value the atmospheric pressure detection module 54 detects, the vacuum pump 53 will not work any more, the worker can pull out the sealing plug 56, after the sealing plug 56 is pulled out, the outside air will enter the inner side of the sealing housing 51 through the communicating pipe 55 instantly, so that the inner side of the sealing housing 51 is no longer in a vacuum environment, the spherical hollow rubber 952 expands due to the previous vacuum environment, at this time, because of no vacuum environment, the spherical hollow rubber 952 will shrink, after shrinking, the spherical hollow rubber 952 will not generate an upward pushing force on the sliding plate 951, the sliding plate 951 will move downward under the influence of the elastic force of the fourth compression spring 962, the sliding plate 951 will drive the second single-slope clamping strip 96 to move downward without being clamped with the sliding strip 941, at this time, the elastic force of the spiral spring 933 will be released, the spiral spring 933 will drive the spiral seat 93 to reverse, the spiral seat 93 will drive the second threaded rod 922 to reverse, so that the internal threaded rod 94 will move rightward to return to the initial position, meanwhile, according to the same principle, the hollow annular rubber 86 is also in a reduced state under the influence of air pressure, the hollow annular rubber 86 does not generate thrust on the large push plate 85 after being reduced, the third compression spring 851 pushes the large push plate 85 to move at the moment, the large push plate 85 drives the thread teeth 852 to move, the thread teeth 852 move to be in contact with and in threaded connection with the first threaded rod 81, because the coil spring seat 93 rotates at the moment, the coil spring seat 93 drives the transmission rod 931 to drive the pinion 932 to rotate, the pinion 932 drives the release housing 84 to rotate, the release housing 84 drives the thread teeth 852 to rotate, so that the first threaded rod 81 can move, the first threaded rod 81 moves leftwards to drive the square rod 62 to move leftwards, the spring seat 67 is driven by the rod 62 to move against the elastic force of the square compression spring 68, according to the above principle, the square rod 62 moves to make the rotating wheel 65 move to push the sealing cover 66 to close, and the rotating wheel 65 stays on the sealing cover 66 to block the sealing cover 66 and prevent the sealing cover 66 from rotating, when the first threaded rod 81 moves to the left, the first threaded rod 81 drives the elastic bracket 82 to drive the first semi-elliptical block 821 to move, the first semi-elliptical block 821 moves to push the second semi-elliptical block 1006 to make the second semi-elliptical block 1006 be pushed to move, the second semi-elliptical block 1006 moves to the left to drive the sliding inner member 1002 to move to the left against the elastic force of the fifth compression spring 1004, the sliding inner member 1002 moves to the left to drive the third single-inclined-surface clamping strip 1003 to move to the left to separate from the bottom clamping seat 61, so that the bottom clamping seat 61 can move upwards, it should be noted that, when the blood sample tube 43 is inserted, according to the above principle, the square rod 62 will be influenced by the elastic force of the first compression spring 68 to move rightwards rapidly, the square rod 62 will drive the first threaded rod 81 to move rightwards as well, but at this moment, the first semi-elliptical block 821 is on the left side of the second semi-elliptical block 1006, the elastic bracket 82 has certain elasticity, so that when the elastic bracket 82 drives the first semi-elliptical block 821 to move rightwards, the elastic bracket 82 drives the first semi-elliptical block 821 to pass over the second semi-elliptical block 1006 through elastic deformation of the elastic bracket 82, without the clamping limitation of the third single-bevel clamping strip 1003, the bottom clamping seat 61 will move upwards along with the movable base 47, the movable base 47 moves upwards, the first extension spring 491 drives the sliding limiting ring 49 to drive the movable base 47 to move upwards, and the damping needs to be applied between the first sliding external member 71 and the single-bevel pushing strip 72, therefore, when the second extension spring 721 drives the trigger housing 73 to move back and forth to the left, and the trigger housing 73 pushes the single-slope pushing bar 72 to move together, the movement of the single-slope pushing bar 72 can be very slow, so that when the trigger housing 73 is basically at the original position, the bottom engaging seat 61 will move upward, at this time, the upward movement of the bottom engaging seat 61 will move upward together with the movable base 47, the upward movement of the movable base 47 will drive the mounting bracket 797 to move upward, the mounting bracket 797 will drive the second sliding sleeve 795 to move upward, because the top end of the second sliding sleeve 795 at this time is directly contacted with the base of the first single-slope clamping bar 796, the second sliding sleeve 795 can directly drive the first single-slope clamping bar 796 to move upward, the first single-slope clamping bar 796 will drive the sliding push rod 794 to drive the moving outer rod 793 to move upward, at this moment, the inner moving rod 76 is almost not moved upwards, and at this moment, the upward movement of the outer moving rod 793 can directly enable the outer moving rod 793 and the inner moving rod 76 to be relatively displaced, so that the length between the outer moving rod 793 and the inner moving rod 76 reaches an initial length state, and because the square rod 62 is moved back to the initial position when the first single-inclined-surface clamping strip 796 moves upwards, the first single-inclined-surface clamping strip 796 moves upwards to be clamped with the square rod 62, and all the parts are restored to the initial state.
Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that changes may be made in the embodiments and/or equivalents thereof without departing from the spirit and scope of the invention. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.
Claims (7)
1. A portable blood sample fridge which characterized in that: the blood sample refrigerating box comprises a blood sample refrigerating box assembly (1), wherein the blood sample refrigerating box assembly (1) comprises a refrigerating box component (2), a refrigerating component (3), a blood sample storage component (4), a vacuum component (5), an anti-pulling control component (6), a trigger component (7), a releasing control component (8), a power component (9) and a releasing component (10);
the refrigerator is characterized in that the refrigerating assembly (3) is installed on the inner side of the refrigerator assembly (2), the blood sample storage assembly (4) is installed on the inner side of the refrigerator assembly (2), the vacuum assembly (5) is installed on the inner side of the blood sample storage assembly (4), the anti-pulling control assembly (6) is installed at one end of the blood sample storage assembly (4), the trigger assembly (7), the release control assembly (8), the power assembly (9) and the release assembly (10) are installed on the inner side of the vacuum assembly (5), the refrigerator assembly (2) comprises a refrigerator shell (21), a portable handle (22), a handle limiting plate (23), a fingerprint identification module (24), a touch screen control host (25), a multi-angle camera (26), a cover plate (27) and an electronic lock (28), the portable handle (22) is installed at the two ends of the refrigerator shell (21) in a rotating manner, one side of refrigerator shell (21) is installed and to be right portable handle (22) is supported handle limiting plate (23), install at the top of refrigerator shell (21) fingerprint identification module (24), touch-sensitive screen control host computer (25) and multi-angle camera (26), the inside of touch-sensitive screen control host computer (25) is provided with GPS orientation module and data networking module, the top of refrigerator shell (21) is still rotated and is provided with apron (27), the one end of refrigerator shell (21) is provided with can with apron (27) lock dead electronic lock (28), miniature printing apparatus is still installed to the inboard of refrigerator shell (21), refrigerating assembly (3) are including battery (31) and wind-cooled miniature refrigerator (32), install the one end inboard of refrigerator shell (21) battery (31), the air-cooled micro refrigerator (32) is further installed on the inner side of one end of the refrigerator shell (21), the vacuum assembly (5) comprises a sealing shell (51), an air pump support (52), a vacuum pump (53), an air pressure detection module (54), a communication pipe (55) and a sealing plug (56), the opening at the top of the sealing shell (51) is fixedly connected to the outer side of the bottom end of the hard connecting block (45), the air pump support (52) is fixedly connected to the outer side of one end of the sealing shell (51), the vacuum pump (53) is installed on the inner side of one end of the air pump support (52), the air suction end of the vacuum pump (53) is communicated with the sealing shell (51), the air pressure detection module (54) is fixedly installed on the inner side of one end of the sealing shell (51), and the communication pipe (55) is fixedly communicated with one end of the sealing shell (51), the top of the communicating pipe (55) is fixedly connected with the top of the heat-preservation hard shell (41), and the sealing plug (56) is installed on the inner side of the top end of the communicating pipe (55).
2. The portable blood sample cooler of claim 1 further comprising: the blood sample storage assembly (4) comprises a heat-preservation hard shell (41), a circulating air pipe (42), a blood sample pipe (43), a radio-frequency electronic tag (431), an annular sealing piece (44), a hard connecting block (45), an annular base (46), a movable base (47), an electronic tag identification module (48), a sliding limiting ring (49) and a first tension spring (491), wherein the heat-preservation hard shell (41) is installed on the inner side of one end of the refrigerator shell (21), the heat-preservation hard shells (41) are eight in number, the heat-preservation hard shells (41) are communicated with each other through the circulating air pipe (42), the heat-preservation hard shells (41) are communicated with an air inlet and outlet pipe of the air-cooled micro refrigerator (32) for refrigeration, the blood sample pipe (43) can be inserted into the inner side of the top of the heat-preservation hard shell (41), and the radio-frequency electronic tag (431) is fixedly connected to the bottom of the blood sample pipe (43), the inner side of one end of the heat-preservation hard shell (41) is fixedly connected with the annular sealing element (44), the bottom end of the annular sealing element (44) is fixedly connected with the hard connecting block (45), the hard connecting block (45) is fixedly installed at the inner side of one end of the heat-preservation hard shell (41), the bottom of the blood sample tube (43) is in contact connection with the annular base (46), the outer end face of the annular base (46) is fixedly connected with the movable base (47), the inner side of the movable base (47) is in contact connection with the bottom of the blood sample tube (43), the bottom outer side of the annular base (46) is fixedly connected with the electronic tag identification module (48), the outer end face of one end of the movable base (47) is fixedly connected with the sliding limiting ring (49), and the sliding limiting ring (49) is in sliding connection with the inner side of one end of the hard connecting block (45), the first tension spring (491) is fixedly connected to the outer side of the top end of the sliding limiting ring (49), and the top end of the first tension spring (491) is fixedly connected to the inner side of one end of the hard connecting block (45).
3. The portable blood sample cooler of claim 2 further comprising: the anti-pulling control component (6) comprises a bottom clamping seat (61), a square rod (62), a connecting sleeve (63), a rotating shaft (64), a rotating wheel (65), a sealing cover (66), a spring seat (67) and a first compression spring (68), the bottom clamping seat (61) is fixedly connected to the inner side of the bottom of the movable base (47), the square rod (62) is connected to the inner side of the bottom clamping seat (61) in a sliding manner, the connecting sleeve (63) is fixedly connected to the outer side of one end of the square rod (62), the rotating shaft (64) is fixedly connected to the outer side of one end of the connecting sleeve (63), the rotating wheel (65) is rotatably connected to the outer side of one end of the rotating shaft (64), the outer side of one end of the rotating wheel (65) can be in contact with the bottom of the bottom clamping seat (61), and the sealing cover (66) is rotatably connected to the inner side of one end of the bottom clamping seat (61), the spring seat (67) is fixedly connected to the outer side of the right end of the square rod (62), and the first compression spring (68) is fixedly connected between the outer side of the left end of the spring seat (67) and the outer side of the right end of the bottom clamping seat (61).
4. The portable blood sample cooler of claim 3 further comprising: trigger subassembly (7) including first slip external member (71), single inclined plane promote strip (72), trigger casing (73), chute spare (74), slide bar (75), remove interior pole (76), slip stopper (77), second compression spring (78), dysmorphism card strip (79), first inclined plane (791), second arc portion (792), remove outer pole (793), slide push rod (794), second slip external member (795), first single inclined plane card strip (796) and installing support (797), the one end of first slip external member (71) is fixed the one end of seal casing (51) is inboard, the inboard sliding connection in one end of first slip external member (71) has single inclined plane promote strip (72), the right-hand member outside fixed connection in single inclined plane promote strip (72) trigger casing (73), the right-hand member outside of first slip external member (71) with the left end outside of trigger casing (73) between the fixed connection in the tensile second of stretching The inner side of one end of the trigger shell (73) is fixedly connected with the chute piece (74), the inner side of one end of the chute piece (74) is connected with the sliding rod (75) in a sliding manner, the outer side of one end of the sliding rod (75) is fixedly connected with the movable inner rod (76), the inner side of the top end of the movable inner rod (76) is connected with the sliding limiting blocks (77) in a sliding manner, the second compression spring (78) is fixedly connected between the two sliding limiting blocks (77), the other end of the sliding limiting block (77) is fixedly connected with the special-shaped clamping strip (79), the clamping part of the special-shaped clamping strip (79) is provided with the first inclined surface (791), the second arc-shaped part (792) is connected with the first inclined surface (791) part of the special-shaped clamping strip (79), and the outer side of the movable inner rod (76) is connected with the movable outer rod (793) in a sliding manner, the inboard of removing outer pole (793) seted up can simultaneously with first inclined plane (791) with the groove of second arc portion (792) block, the inboard fixedly connected with in top of removing outer pole (793) slip push rod (794), the one end outside sliding connection of slip push rod (794) has second slip external member (795), the top fixedly connected with of slip push rod (794) first single inclined plane card strip (796), the inclined plane part of first single inclined plane card strip (796) can with the right-hand member block of square pole (62) is connected, the one end fixedly connected with of second slip external member (795) installing support (797), the top of installing support (797) with the bottom fixed connection of activity base (47).
5. The portable blood sample cooler of claim 4 further comprising: the release control assembly (8) comprises a first threaded rod (81), an elastic support (82), a first semi-elliptical block (821), a release support (83), a bearing (831), a release shell (84), a gear ring (841), a large push plate (85), a third compression spring (851), a thread tooth (852) and hollow annular rubber (86), wherein the right end of the first threaded rod (81) is fixedly connected with the outer side of the left end of the square rod (62), the outer side of the left end of the first threaded rod (81) is fixedly connected with the elastic support (82), the outer side of the bottom end of the elastic support (82) is fixedly connected with the first semi-elliptical block (821), the right end of the release support (83) is fixedly connected with the outer side of the left end of the bottom clamping seat (61), the inner side of one end of the release support (83) is fixedly connected with the bearing (831), the inner side of one end of the bearing (831) is fixedly connected with the release shell (84), the gear ring (841) is fixedly connected to the outer side of the left end of the releasing shell (84), the large push plate (85) is connected to the inner side of one end of the releasing shell (84) in a sliding mode, the third compression spring (851) is fixedly connected between the outer side of one end of the large push plate (85) and the inner wall surface of the releasing shell (84), the thread teeth (852) are fixedly connected to the other end of the large push plate (85), the thread teeth (852) are plate-shaped, and the hollow annular rubber (86) is installed between one end, facing the first threaded rod (81), of the large push plate (85) and the inner side of the releasing shell (84).
6. The portable blood sample cooler of claim 5 further comprising: the power assembly (9) comprises a hard tube (91), a through hole (911), an impeller assembly (92), a balancing weight (921), a second threaded rod (922), a spring coiling seat (93), a transmission rod (931), a pinion (932), a spring coiling spring (933), an internal thread slider (94), a sliding strip (941), a control shell (95), a sliding plate (951), spherical hollow rubber (952), a second single-inclined-plane clamping strip (96), a small limiting ring (961) and a fourth compression spring (962), wherein the top end of the hard tube (91) is fixedly communicated with the inner side of the bottom end of the movable base (47), the impeller assembly (92) is installed on the inner side of the bottom of the hard tube (91), one end of a rotating shaft of the impeller assembly (92) is fixedly connected with the balancing weight (921), and the other end of the rotating shaft of the impeller assembly (92) is fixedly connected with the second threaded rod (922), the other end fixedly connected with of second threaded rod (922) coil spring seat (93), the other end fixedly connected with of coil spring seat (93) transfer line (931), transfer line (931) rotate to be connected the terminal inboard of rigid pipe (91), the other end of transfer line (931) rotates to be connected the left end outside of bottom block seat (61), the one end fixedly connected with of transfer line (931) pinion (932), the one end of pinion (932) with the bottom meshing of ring gear (841) is connected, the one end fixedly connected with of coil spring seat (93) clockwork spring (933), the other end fixed connection of clockwork spring (933) is in the terminal inboard of rigid pipe (91), the one end outside threaded connection of second threaded rod (922) has female thread slider (94), the bottom outside fixedly connected with of female thread slider (94) slide bar (941), the sliding strip (941) is connected to the inner side of the pipe wall of the hard pipe (91) in a sliding manner, the outer side of the bottom end of the hard pipe (91) is fixedly connected with the control shell (95), the inner side of one end of the control shell (95) is connected with the sliding plate (951) in a sliding way, the spherical hollow rubber (952) is arranged between the outer side of the bottom end of the sliding plate (951) and the inner side of the bottom end of the control shell (95), the outer side of the top end of the sliding plate (951) is fixedly connected with the second single-inclined-surface clamping strip (96), the inclined surface part of the second single-inclined-surface clamping strip (96) can be in clamping connection with the inner side of the bottom end of the sliding strip (941), the outer side of one end of the second single-inclined-surface clamping strip (96) is fixedly connected with the small limiting ring (961), the fourth compression spring (962) is fixedly connected between the outer side of the top end of the sliding plate (951) and the outer side of the bottom end of the hard pipe (91).
7. The portable blood sample cooler of claim 6 further comprising: the release assembly (10) comprises a square shell (1001), a sliding inner piece (1002), a third single-bevel clamping strip (1003), a fifth compression spring (1004), a right-angle rod (1005) and a second semi-elliptical block (1006), the square shell (1001) is fixedly connected to the inner side of one end of the sealing shell (51), the sliding inner piece (1002) is slidably connected to the inner side of one end of the square shell (1001), the third single-bevel clamping strip (1003) is fixedly connected to the right end of the sliding inner piece (1002), the bevel part of the third single-bevel clamping strip (1003) can be clamped and connected with the inner side of the bottom end of the bottom clamping seat (61), the fifth compression spring (1004) is fixedly connected between the outer side of the left end of the sliding inner piece (1002) and the inner side of the left end of the square shell (1001), the right-angle rod (1005) is fixedly connected to the left end of the sliding inner piece (1002), the top end of the right-angle rod (1005) is fixedly connected with the second semi-elliptical block (1006).
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CN202210824273.2A CN114893938B (en) | 2022-07-14 | 2022-07-14 | Movable blood sample refrigerator |
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CN202210824273.2A CN114893938B (en) | 2022-07-14 | 2022-07-14 | Movable blood sample refrigerator |
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CN114893938B true CN114893938B (en) | 2022-09-30 |
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EP2208951B1 (en) * | 2009-01-19 | 2018-05-30 | Liconic Ag | Low-temperature automated storage for laboratory samples with automated access |
WO2016120224A1 (en) * | 2015-01-26 | 2016-08-04 | Ventana Medical Systems, Inc. | Transporter systems, assemblies and associated methods for transporting tissue samples |
CN208958917U (en) * | 2018-03-01 | 2019-06-11 | 刘红黔 | A kind of hematology's blood storage device |
CN109724353B (en) * | 2018-11-30 | 2020-12-22 | 嘉兴市华染新能源有限公司 | Biological agent refrigerating box based on independent cavity structure formed by gas diversion |
CN211274705U (en) * | 2019-11-01 | 2020-08-18 | 杨梅 | Blood collection test tube storage device |
CN111209313B (en) * | 2020-01-03 | 2023-10-27 | 腾讯科技(深圳)有限公司 | Block chain-based medical project data query method and device |
CN113562337A (en) * | 2021-08-31 | 2021-10-29 | 泰州市人民医院 | Emergency cerebral apoplexy analysis specimen submission device and use method |
CN114013813B (en) * | 2021-12-02 | 2023-08-18 | 浙江原数科技有限公司 | Censoring equipment and censoring system |
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