CN218344250U - Medical cold chain transport case and cold chain transport system - Google Patents

Abstract

The utility model provides a medical cold chain transport case and a cold chain transport system, wherein the medical cold chain transport case comprises a case body and a refrigerating chamber; the first cover body is arranged on the box body and can cover and seal the refrigerating chamber; the detection unit comprises a temperature sensing module, a mounting seat and a wire pipe, wherein the mounting seat comprises a seat body, a second cover body and a connecting assembly, the seat body and the wire pipe are both embedded in the box body, the seat body is provided with a first wire groove and a first hole group, the second cover body covers the inlet of the first wire groove and is provided with a mounting position and a second hole group, the temperature sensing module is assembled in the mounting position, and the connecting assembly is fixedly connected with the second hole group after penetrating through the first hole group; the collection unit is arranged on the box body and is positioned outside the refrigerating chamber, the wire pipe is connected between the first wire groove and the collection unit, and the lead of the temperature sensing module penetrates through the first wire groove and the wire pipe and is then electrically connected with the collection unit. The cold chain transport system comprises the medical cold chain transport case, and the medical cold chain transport case can improve the installation reliability of the temperature sensing module.

Description

Medical cold chain transport case and cold chain transport system

Technical Field

The utility model belongs to the technical field of the cold chain transportation technique and specifically relates to a medical cold chain transport case and include cold chain conveyor system of this medical cold chain transport case is related to.

Background

The medical cold chain transport case can be used to the turnover transportation that has cold chain transportation requirement goods such as biological sample, pathogenic microorganism bacterial, blood, bacterin, biochemical sample, and at present, can set up the temperature sensing module in some medical cold chain transport cases and be used for monitoring the temperature condition in the box to whether in time know goods and whether lose efficacy or scrap because of losing temperature, overtemperature causes. However, the existing medical cold chain transport case has the following defects or shortcomings:

firstly, as shown in fig. 1, there is an irregular problem in the temperature sensing module 91 of the medical cold chain transport case 9 of the existing part, which results in the temperature sensing module 91 being in a suspended unfixed state, so that in the transportation process, the temperature sensing module 91 is very easy to collide with the box body 92 and/or goods of the medical cold chain transport case 9, in addition, the wiring of the temperature sensing module 91 is exposed, the risk of wire breakage is increased, and the probability of damage to the temperature sensing module 91 and/or goods is increased.

Secondly, the existing partial temperature sensing module is directly and fixedly installed in the box body of the medical cold chain transport case through bolts, although the problem existing in the first point is effectively solved, the defect that the signal wire of the temperature sensing module is exposed outside still exists, and the signal wire exposed outside is influenced by cold and hot alternation (when the medical cold chain transport case is in a use state, the temperature in the box body is generally lower; when the medical cold chain transport case is in a non-use state, the temperature in the box body is generally kept at normal temperature) for a long time, so that the service life is shortened; moreover, when the box adopted the foam material to make, the whole nail-holding power of box was poor for the bolt is difficult to threaded connection reliably on the box, leads to the temperature sensing module of installation to drop from the box easily, thereby makes the temperature sensing module have and takes place the collision risk with box and/or goods, has increased the impaired probability of temperature sensing module and/or goods.

Disclosure of Invention

In order to solve the problem, the main object of the utility model is to provide a medical cold chain transport case that can improve temperature sensing module installation reliability.

The utility model also aims at providing a be provided with the cold chain conveyor system of above-mentioned medical cold chain transport case.

In order to realize the utility model discloses a main objective, the utility model provides a medical cold chain transport case, the power distribution box comprises a box body, first lid, detecting element and acquisition unit, the box has the walk-in, first lid is installed on the box, first lid can cover and close on the uncovered of walk-in and sealed walk-in, detecting element includes the temperature sensing module, the temperature sensing module sets up in the walk-in, acquisition unit installs on the box and is located outside the walk-in, detecting element still includes mount pad and spool, the mount pad includes the pedestal, second lid and coupling assembling, the pedestal passes through the inserts technology of moulding plastics pre-buried in the box, the pedestal has first wire casing and first punch combination, the second lid covers the entrance at first wire casing, the second lid has installation position and second punch combination, pass behind the second punch combination with first punch combination fixed connection, the spool passes through the inserts technology of moulding plastics pre-buried in the box, the spool has the second wire casing, the first end of second wire casing docks with the export of first wire casing, the second end of second wire casing runs through box and extends to acquisition unit department, the temperature sensing module is installed in the installation position, the wire casing passes the lead wire and is connected with the second unit electricity.

Therefore, the base body of the detection unit is arranged in the box body by adopting an insert injection molding process, so that the base body can be firmly fixed on the box body, the second cover body is matched with the connecting assembly to reliably fix the temperature sensing module on the box body, and meanwhile, the temperature sensing module can be maintained and replaced more conveniently, the problem that the temperature sensing module cannot be maintained and replaced when the box body is made of foamed plastic is solved, and the service life of the medical cold chain transport box is effectively prolonged; and through inserts injection molding process with the spool pre-buried then can guarantee convenience and smoothness when the lead wire of temperature sensing module carries out the threading in the box, especially when the box adopts foamed plastic to make, the pre-buried setting of spool can prevent that the lead wire threading in-process of temperature sensing module from causing the destruction to the box, plays the guard action to the box to the life of medical cold chain transport case has further been prolonged.

Preferably, the first trunking has a flared portion at the inlet, the diameter of the end of the flared portion close to the second cover body is larger than the diameter of the end of the flared portion far away from the second cover body, the bottom of the seat body has a bent pipe portion, and a part of the first trunking is formed in the bent pipe portion.

Therefore, the lead of the temperature sensing module can be more conveniently inserted into the first wire groove due to the design of the horn part, and the lead penetrates out of the box body through the bent pipe part and the wire pipe and is electrically connected with the acquisition unit, so that the threading convenience of the lead is improved; and the design of bent pipe portion then can reduce the required spatial position that occupies of pedestal, and then optimizes the structure of medical cold chain transport case, increases the volume of medical cold chain transport case.

The detection unit further comprises a sealing element, the sealing element is sleeved on the circumferential direction of the annular bulge, and the sealing element is abutted between the base body and the second cover body.

It is from top to bottom visible, above-mentioned design makes the sealing member can seal up the gap between pedestal and the second lid, avoids inside steam in the box of medical cold chain transport case gets into the detecting element to cause temperature-detecting module and other electronic component to receive steam influence and erosion.

According to a further scheme, the first hole group comprises a plurality of connecting holes, knurled nuts are embedded in the connecting holes through an insert injection molding process, the second hole group comprises a plurality of through holes, the connecting assembly comprises a plurality of bolts, and one bolt penetrates through one through hole and then is in threaded connection with the knurled nut of one connecting hole.

It is from top to bottom visible, through set up the annular knurl nut in the connecting hole, the life of the medical cold chain transport case of improvement that can be better.

Another preferred scheme is that the collection unit includes casing and collection module, and the casing passes through insert injection molding process and pre-buries on the box, and the casing is located the cold-stored chamber outside, and the casing has the installation cavity, is provided with first electric contact in the installation cavity, and first electric contact is connected with the down-lead electricity, and collection module detachably installs in the installation cavity, has second electric contact on the collection module, and second electric contact can be connected with first electric contact electricity.

It can be seen from above that, above-mentioned design makes the casing of collection unit can be reliable fix on the box of medical cold chain transport case to make collection module box relatively dismantle, in order to upgrade update, maintenance, change collection module.

Another preferred scheme is that, the box has the round arch in uncovered department's shaping, and the arch has a plurality of outer portions that expand, but outer portion elastic deformation that expands, and first lid has interior concave position, and interior concave position has a plurality of draw-in grooves, closes when uncovered when first lid, and the arch stretches into to the interior concave position in, the internal perisporium butt of bellied periphery wall and interior concave position, and one expands a joint in a draw-in groove outward.

It is thus clear that above-mentioned design makes the firm installation of first lid ability on the box to avoid first lid to drop from the box in transport or transportation, can also prevent that the walk-in from receiving ambient temperature's influence.

Another preferred scheme is that a partition plate assembly is arranged in the box body, the refrigerating chamber is divided into more than two cavities by the partition plate assembly, when the first cover body is installed on the box body, the more than two cavities are mutually separated, the number of the detection units is more than two, and the temperature sensing module of one detection unit is located in one cavity.

It can be seen from above that, accessible baffle subassembly is separated into two or more independent cavities with the walk-in the box for every cavity can set up a temperature, in addition, sets up through the quantity to detecting element, makes the data that the collection unit can gather two or more cavities simultaneously, and carries out independent monitoring to two or more cavities.

The baffle component comprises at least one baffle plate, and a handle part is arranged at a position, close to the opening, of the baffle plate.

Therefore, the partition board can be detached more conveniently due to the arrangement of the handle.

Still further, the case is made of foam.

Therefore, the box body made of the foamed plastic can better lighten the whole weight of the medical cold chain transport box and has better heat preservation effect.

In order to realize the utility model discloses a further purpose, the utility model provides a cold chain transportation system, including the cloud ware, wherein, still include foretell medical cold chain transport case, the acquisition unit has orientation module and communication module, and communication module can be with cloud ware information interaction.

Drawings

Fig. 1 is a structural view of a conventional medical cold chain transport box.

Fig. 2 is a first structural view of the medical cold chain transport case of the present invention without some components.

Fig. 3 is a second structural view of the medical cold chain transport box of the present invention without some components.

Fig. 4 is a structural diagram of the first cover body of the medical cold chain transportation box of the present invention.

Fig. 5 is a structural view of the third omitted part of the medical cold chain transport case of the present invention.

Fig. 6 is a cross-sectional view of the detection unit of the medical cold chain transportation box of the present invention without some components.

Fig. 7 is an exploded view of the detection unit of the medical cold chain transportation box of the present invention with some components omitted.

Fig. 8 is an exploded view of the temperature sensing module according to the embodiment of the medical cold chain transportation box of the present invention.

Fig. 9 is a sectional view of the temperature sensing module according to the embodiment of the medical cold chain transportation box of the present invention.

Fig. 10 is a structural view of a base body of the medical cold chain transportation box of the present invention.

Fig. 11 is a structural view of a second cover body of the medical cold chain transport box of the present invention.

Figure 12 is an exploded view of the collection unit of the medical cold chain transport case of the present invention.

The present invention will be further described with reference to the accompanying drawings and examples.

Detailed Description

Embodiments of medical cold chain transport case

Referring to fig. 2 and 3, the medical cold chain transport box 100 includes a box body 1, a first cover body 2, a detection unit 3, and an acquisition unit 4. The box body 1 is provided with a refrigerating chamber 11, and the refrigerating chamber 11 is used for storing goods such as biological samples, pathogenic microorganism strains (virus) species, blood, vaccines or biochemical samples and the like which have cold chain transportation requirements so as to refrigerate and store the goods, thereby avoiding the goods from being damaged due to overhigh temperature in the transportation process. The first cover 2 covers an opening of the refrigerating compartment 11 and seals the refrigerating compartment 11 to prevent the refrigerating compartment 11 from being affected by an external temperature.

The box body 1 is formed with a circle of projections 12 at the opening, the projections 12 surround the circumference of the opening of the refrigerating chamber 11, and the projections 12 have a plurality of outward-expanding parts 121, and the outward-expanding parts 121 can be elastically deformed. As in the present embodiment, the refrigerating chamber 11 is provided in a substantially rectangular parallelepiped shape, and therefore, the projection 12 is preferably provided in a substantially frame shape, and the flared portions 121 are formed at four outer corners of the frame-shaped projection 12.

Referring to fig. 4, the first cover 2 has a concave portion 21, and the contour of the concave portion 21 matches the contour of the protrusion 12. The recessed portion 21 has a plurality of slots 211, and the slots 211 correspond to the flared portions 121 one by one. When the first cover body 2 is installed on the box body 1 and covers the opening of the refrigerating chamber 11, the bulge 12 on the box body 1 extends into the inner concave position 21, so that the outer peripheral wall of the bulge 12 is abutted against the inner peripheral wall of the inner concave position 21 to form sealing, the refrigerating chamber 11 is prevented from being communicated with the outside, and the heat preservation performance of the refrigerating chamber 11 is ensured; in addition, one expands portion 121 joint outward in a corresponding draw-in groove 211, expands portion 121 outward and carries out inseparable block through self elastic deformation and draw-in groove 211 to seal the gap between self and draw-in groove 211, make first lid 2 can firmly install on box 1, avoid first lid 2 to drop from box 1 in transport or transportation, and can prevent that walk-in 11 from receiving the ambient temperature influence.

Referring to fig. 5, the detecting unit 3 includes a temperature sensing module 31, a mounting seat 32, and a conduit 33, wherein the temperature sensing module 31 is mounted on the mounting seat 32 and disposed in the refrigerating compartment 11.

Referring to fig. 6 to 9, the temperature sensing module 31 includes an outer shell 311, an inner shell 312, and a temperature sensor 313. The outer shell 311 has a first inner cavity 3111, the inner shell 312 has a second inner cavity 3121, at least a portion of the inner shell 312 is located within the first inner cavity 3111, and a gap is provided between the first inner cavity 3111 and an outer wall of the inner shell 312, the temperature sensor 313 is disposed within the gap, and the temperature sensor 313 abuts the outer shell 311 and the inner shell 312, respectively. Among them, the temperature sensor 313 may preferably employ a platinum resistor or a thermistor. In addition, the gap between the outer shell 311 and the inner shell 312 is filled with a first sealing layer 314, and the first sealing layer 314 may preferably be made of a heat conductive adhesive. The second inner cavity 3121 is filled with a second sealing layer 315, and the second sealing layer 315 preferably adopts a waterproof special pouring sealant.

The second shell of the temperature sensing module 31 is set to be a double-shell structure, so that the second shell of the temperature sensing module 31 has enough strength, and the second shell of the temperature sensing module 31 is not easy to deform or damage; in addition, the temperature sensor 313 is arranged in the gap between the outer shell 311 and the inner layer, so that the temperature sensor 313 can be better attached to the outer shell 311, the reaction sensitivity of the temperature sensor 313 is improved, the influence of the packaging of the first sealing layer 314 on the reaction sensitivity of the temperature sensor 313 is avoided, and the detection accuracy of the temperature sensing module 31 is ensured. Wherein, the outer profile face of inner shell 312 sets up in the imitative setting of the interior profile face of first inner chamber 3111 for inner shell 312 can be better close to first inner chamber 3111, and make the clearance size between inner shell 312 and the shell 311 keep unanimous.

Preferably, a bottom of the first inner cavity 3111 is recessed into the second open cavity facing away from the first inner cavity 3111 to form a first concave portion 31111, so that the housing 311 is substantially in a stepped column shape, and the first concave portion 31111 is preferably located at a middle position of the first inner cavity 3111; the bottom of the second inner cavity 3121 is recessed away from the third open cavity of the second inner cavity 3121 to form a second inner recessed portion 31211, so that the inner shell 312 is also disposed in a substantially stepped column shape, and the second inner recessed portion 31211 is preferably located at a middle position of the second inner cavity 3121. When the temperature sensor 313 is disposed in the gap between the outer case 311 and the inner case 312, the temperature sensor 313 is clamped between the first inner recess 31111 and the second inner recess 31211. The first concave portion 31111 and the second concave portion 31211 are designed to position the temperature sensor 313, so that the temperature sensing module 31 prevents the temperature sensor 313 from moving in the gap between the outer shell 311 and the inner shell 312 before packaging, and the temperature sensor 313 is substantially limited to the middle position of the outer shell 311, thereby ensuring that the temperature sensor 313 is installed at the center position of the outer shell 311, and ensuring the uniformity and detection accuracy of the thermal reaction of the entire temperature sensing module 31.

In addition, the housing 311 is preferably formed with a first flange 3112 at the second opening of the first cavity 3111, and the first flange 3112 extends from the second opening of the first cavity 3111 to the first cavity 3111, such that the first flange 3112 is disposed annularly. The inner shell 312 is preferably formed with a second flap 3122 at the third opening of the second inner cavity 3121, and the second flap 3122 extends from the third opening of the second inner cavity 3121 to the outside of the second inner cavity 3121, so that the second flap 3122 is annularly disposed. The first flange 3112 and the second flange 3122 can be thinner to ensure the relative position between the outer shell 311 and the inner shell 312, and can also make the assembly between the temperature sensor 313 and other components (e.g., the seat 321 and the second cover 322) more convenient and reliable.

The outer casing 311 and the inner casing 312 are preferably made of a metal material with good thermal conductivity, and the metal material may be preferably stainless steel, copper alloy, aluminum alloy, zinc or zinc alloy. When the outer and inner housings 311 and 312 are made of stainless steel, 304 stainless steel or 316 stainless steel is preferably used as the stainless steel material. Through the selection of the manufacturing materials of the outer shell 311 and the inner shell 312, the outer shell 311 and the inner shell 312 have enough strength and rigidity, the outer shell 311 and the inner shell 312 are not easy to deform, the outer shell 311 and the inner shell 312 have good heat conductivity, and the temperature sensor 313 can accurately detect the temperature in the box body 1. In addition, the thickness of the outer shell 311 is preferably between 0.1 mm and 0.15 mm, the thickness of the inner shell 312 is preferably between 0.08 mm and 0.1 mm, as in the present embodiment, the thickness of the outer shell 311 and the thickness of the inner shell 312 are both set to be 0.1 mm, and the thickness of the inner and outer shells is designed to ensure that the second shell of the temperature sensing module 31 has sufficient strength and rigidity to resist deformation and damage, and at the same time, the weight of the temperature sensing module 31 can be reduced well.

With reference to fig. 10 and 11, the mounting base 32 includes a base 321, a second cover 322, a connecting assembly 323, and a sealing member 324, the base 321 is embedded in the box 1 through an insert injection molding process, the base 321 has a first slot 3211 and a first hole set, and the first connecting hole 3212 is disposed on a connecting plate 3215 of the base 321. The second cover 322 is covered and installed at the inlet of the first linear groove 3211, and the second cover has an installation position 3221 and a second hole set, the outer shell 311 of the temperature sensing module 31 is embedded in the installation position 3221, the third opening of the inner shell 312 is disposed toward the inlet of the first linear groove 3211, a portion of the outer shell 311 protrudes from the first surface of the second cover 322 facing away from the seat 321, and the first flange 3112 of the outer shell 311 is adjacent to the second cover 322. The connecting assembly 323 passes through the first hole set and then is fixedly connected to the second hole set, so as to fixedly connect the base 321 and the second cover 322. The first hole group includes a plurality of connection holes 3212, and preferably, a knurled nut 32121 is embedded in the first connection hole 3212 through an insert molding process, the second hole group includes a plurality of through holes 3222, the connecting assembly 323 includes a plurality of bolts, and one bolt passes through one through hole 3222 and then is in threaded connection with the knurled nut 32121 of one connection hole 3212 group. The service life of the medical cold chain transport case 100 can be better prolonged by arranging the knurled nut 32121 in the connecting hole 3212.

Preferably, the first wire groove 3211 has a flared portion 32111 at an entrance thereof, and a diameter of a first end of the flared portion 32111 close to the second cover 322 is larger than a diameter of an end of the flared portion 32111 away from the second cover 322. The design of horn portion 32111 makes the lead wire of temperature sensing module 31 can be more convenient insert to first wire casing 3211 to outside making the lead wire wear out to box 1 through bent pipe portion 3213 and spool 33, then carry out the electricity with acquisition unit 4 and be connected, improved the convenience of lead wire threading.

The base 321 has an elbow portion 3213 and the connecting plate 3215, and a portion of the first wire groove 3211 is formed in the elbow portion 3213. The design of bent pipe portion 3213 then can reduce the required spatial position that occupies of pedestal 321, and then optimizes the structure of medical cold chain transport case 100, increases the volume of medical cold chain transport case 100. In addition, the base 321 has an annular protrusion 3214 at an inlet of the first linear groove 3211, the sealing element 324 is sleeved on the annular protrusion 3214, and the sealing element 324 abuts between the base 321 and the second cover 322. The sealing member 324 can seal a gap between the base 321 and the second cover 322, so as to prevent water vapor in the box body 1 of the medical cold chain transport case 100 from entering the detection unit 3, thereby causing the temperature detection module and other electronic components to be affected and corroded by the water vapor.

Spool 33 is pre-buried in box 1 through insert injection molding process, and spool 33 has the second wire casing, and the first end of second wire casing docks with the first end of first wire casing 3211, and spool 33 extends to acquisition unit 4 department for the second end of the second wire casing of spool 33 runs through box 1 with extending to acquisition unit 4 department, and then temperature sensing module 31's lead wire can pass behind first wire casing 3211 and the second wire casing to be connected with acquisition unit 4 electricity. It can be seen that the seat 321 of the detection unit 3 is arranged in the box body 1 by using an insert injection molding process, so that the seat 321 can be firmly fixed on the box body 1, the second cover body 322 is matched with the connection assembly 323 to reliably fix the temperature sensing module on the box body 1, and meanwhile, the temperature sensing module 31 can be more conveniently maintained and replaced, the problem that the temperature sensing module 31 cannot be maintained and replaced when the box body 1 is made of foamed plastic is solved, and the service life of the medical cold chain transport box 100 is effectively prolonged; and through insert injection molding process with spool 33 pre-buried then can guarantee convenience and smoothness when the lead wire of temperature sensing module 31 carries out the threading in box 1, especially when box 1 adopts foamed plastic to make, the pre-buried setting of spool 33 can prevent that the lead wire threading in-process of temperature sensing module 31 from leading to the fact destruction to box 1, play the guard action to box 1, and further prolonged the life of medical cold chain transport case 100, the problem that the lead wire of current temperature sensing module 31 exposes in box 1 can also be solved to spool 33 simultaneously, the broken string appears in the lead wire of avoiding temperature sensing module 31.

With reference to fig. 12, the collecting unit 4 includes a housing 41 and a collecting module 42, the housing 41 is preferably embedded in the box 1 through an insert injection molding process, the housing 41 is located outside the refrigerating chamber 11, the housing 41 has an installation cavity, a first electrical contact 411 is disposed in the installation cavity, the first electrical contact 411 is electrically connected to a lead of the temperature sensing module 31, the collecting module 42 is detachably installed in the installation cavity, the collecting module 42 has a second electrical contact thereon, and the second electrical contact can be electrically connected to the first electrical contact 411. The acquisition unit 4 is provided with a display screen, a positioning module, a communication module, a processor, a battery module and the like are arranged in the acquisition unit 4, and the display screen, the positioning module, the communication module and the battery module are respectively electrically connected with the processor. The display screen can be used for displaying relevant information of the medical cold chain transport case 100, such as the temperature and humidity in the case body 1; for displaying the remaining amount of the battery; for displaying the communication status of the communication module, etc. The positioning module is used for detecting the position of the medical cold chain transport case 100 and feeding back the position to the cloud server of the cold chain transport system through the communication module. The communication module is used for establishing communication between the medical cold chain transport box and a cloud server of the cold chain transport system, so that background management personnel of the cold chain transport system can know the real-time state of the medical cold chain transport box 100 in real time; the battery module is used for supplying power to the acquisition module 42 and the temperature sensing module 31 so as to ensure the normal working operation of the medical cold chain transport case 100.

Through the design to collection unit 4 for collection unit 4's casing 41 can reliably be fixed on medical cold chain transport case 100's box 1, and make collection module 42 dismantle relative box 1, so that upgrade update, maintenance, change etc. to collection module 42.

Preferably, a partition assembly is arranged in the box body 1, the partition assembly includes at least one partition 13, the partition assembly divides the refrigerating chamber 11 into more than two cavities 111, when the first cover body 2 is installed on the box body 1, the more than two cavities 111 are mutually separated, the number of the detecting units 3 is more than two, and the temperature sensing module 31 of one detecting unit 3 is located in one cavity 111.

As in the present embodiment, the partition assembly includes a partition 13, the partition 13 divides the refrigerating compartment 11 into two chambers 111, the number of the detecting units 3 is two, and the temperature sensing module 31 of one detecting unit 3 is located in one chamber 111. It should be noted that, in another embodiment, the number of the partition plates 13 may be two to divide the refrigerating chamber 11 into three chambers 111, and accordingly, the number of the detecting units 3 is also set to be three to ensure that there is one detecting unit 3 in each chamber 111; in a further embodiment, the partition assembly comprises a T-shaped partition to divide the refrigerating compartment 11 into three chambers 111, and accordingly, the number of the detecting units 3 is set to three to ensure that there is one detecting unit 3 in each chamber 111; and so on. Since the number of chambers 111 partitioned by the refrigerating compartment 11 is different due to the different number and/or different structural design of the partition plates 13, the case where the partition plates 13 are designed to have different numbers and/or different structures is not illustrated here based on the above-mentioned operation principle of the partition plates 13 and the arrangement principle of the detecting unit 3.

Further, the barrier assembly is detachably connected to the cabinet 1, wherein different second locking grooves may be provided in the refrigerating compartment 11 of the cabinet 1, so that the barrier assembly can have different installation positions and the size of the partitioned chamber 111 can be adjusted. In addition, the partition 13 is preferably provided with a catching portion 131 near the opening of the refrigerating compartment 11, and the catching portion 131 is provided to facilitate the detachment of the partition 13. Furthermore, in the present embodiment, the box body 1 is preferably made of foam, and the use of foam to make the box body 1 can make the overall weight of the medical cold chain transport box 100 light, and make the box body 1 have a good heat insulation effect.

To sum up, the utility model provides a medical cold chain transport case 100 can improve the installation reliability of temperature sensing module 31 to it is more convenient to make the maintenance of medical cold chain transport case 100, can also be suitable extension medical cold chain transport case 100 life.

Cold chain conveyor system embodiments

The cold chain transport system comprises the cloud server and the medical cold chain transport box in the embodiment of the medical cold chain transport box, and the communication module of the acquisition unit can interact with the cloud server information, so that background management personnel of the cold chain transport system can know the real-time state of the medical cold chain transport box in real time.

Finally, it should be emphasized that the above-described embodiments are merely preferred examples of the present invention, and are not intended to limit the invention, as those skilled in the art will appreciate that various changes and modifications may be made, and any and all modifications, equivalents, and improvements made, while remaining within the spirit and principles of the present invention, are intended to be included within the scope of the present invention.

Claims (10)

1. Medical cold chain transport case includes:

a cabinet having a refrigerating chamber;

the first cover body is arranged on the box body, and can cover the opening of the refrigerating chamber and seal the refrigerating chamber;

the detection unit comprises a temperature sensing module, and the temperature sensing module is arranged in the refrigerating chamber;

the collection unit is arranged on the box body and is positioned outside the refrigerating chamber;

characterized in that, the detecting unit further comprises:

the mounting seat comprises a seat body, a second cover body and a connecting assembly, the seat body is embedded in the box body through an insert injection molding process, the seat body is provided with a first wire groove and a first hole group, the second cover body covers an inlet of the first wire groove, the second cover body is provided with a mounting position and a second hole group, and the connecting assembly penetrates through the second hole group and then is fixedly connected with the first hole group;

the spool, the spool passes through insert injection molding process pre-buried in the box, the spool has the second wire casing, the first end of second wire casing with the export butt joint of first wire casing, the second end of second wire casing runs through the box extends to acquisition unit department, the temperature sensing module is installed in the installation position, the lead wire of temperature sensing module passes first wire casing with behind the second wire casing with acquisition unit electricity is connected.

2. The medical cold chain transport case of claim 1, wherein:

the first wire groove is provided with a horn part at the inlet, and the diameter of one end, close to the second cover body, of the horn part is larger than that of one end, far away from the second cover body, of the horn part;

the bottom of pedestal has the bent pipe portion, a part shaping of first wire casing is in the bent pipe portion.

3. The medical cold chain transport case of claim 2, wherein:

the seat body is provided with an annular bulge at the inlet;

the detection unit further comprises a sealing element, the sealing element is sleeved on the circumferential direction of the annular bulge, and the sealing element is abutted between the base body and the second cover body.

4. The medical cold chain transport case of claim 2, wherein:

the first hole group comprises a plurality of connecting holes, knurled nuts are embedded in the connecting holes through an insert injection molding process, the second hole group comprises a plurality of through holes, the connecting assembly comprises a plurality of bolts and one bolt penetrates through one of the through holes and then is in threaded connection with the knurled nuts.

5. The medical cold chain transport case of claim 1, wherein:

the acquisition unit includes:

the shell is embedded in the box body through an insert injection molding process and is positioned outside the refrigerating chamber, the shell is provided with an installation cavity, a first electric contact part is arranged in the installation cavity, and the first electric contact part is electrically connected with the lead;

the collection module is detachably arranged in the installation cavity and is provided with a second electric contact part, and the second electric contact part can be electrically connected with the first electric contact part.

6. The medical cold chain transport case of claim 1, wherein:

a circle of bulges are formed on the opening of the box body, the bulges are provided with a plurality of outward-expanding parts, and the outward-expanding parts can elastically deform;

first lid has the indent position, the indent position has a plurality of draw-in grooves, works as first lid closes when uncovered, the arch stretches into to in the indent position, bellied periphery wall with the internal perisporium butt of indent position, and one the joint of expanding portion outward is in one in the draw-in groove.

7. The medical cold chain transport case of claim 1, wherein:

a partition plate assembly is arranged in the box body and divides the refrigerating chamber into more than two chambers, and when the first cover body is arranged on the box body, the more than two chambers are mutually separated;

the number of the detection units is more than two, and one of the detection units is that the temperature sensing module is located in one of the cavities.

8. The medical cold chain transport case of claim 7, wherein:

the clapboard component is detachably connected with the box body;

the baffle plate assembly comprises at least one baffle plate, and the baffle plate is close to the opening and is provided with a handle buckling part.

9. The medical cold chain transport box according to any one of claims 1 to 8, wherein:

the box body is made of foam plastic.

10. The cold chain transportation system comprises a cloud server and is characterized by further comprising the medical cold chain transportation box of any one of claims 1 to 9, wherein the acquisition unit is provided with a positioning module and a communication module, and the communication module can interact with the cloud server in information.

Images