CN204212461U - Portable intravenous administration mixing system - Google Patents

Abstract

This application discloses a kind of portable intravenous administration mixing system, comprising: the first module, this first module has first housing in space in restriction first, and the first housing has the first connector being positioned at the first wall; And second module, this second module has second housing in space in restriction second.Wherein, described second module is prefabricated unit.The size of described second housing is less than the size of described first housing, thus makes described second housing to be moved into by described first connector or to be shifted out described first housing.In collapsed state, the overall volume of the portable intravenous administration mixing system of the application is less, is convenient to transport and moves; And in deployed condition, the inner space of the portable intravenous administration mixing system of the application is expanded, be convenient to arrange the various equipment of allotment needed for intravenous administration and facility wherein.

Description

Portable intravenous administration mixing system

Technical field

The application relates to intravenous administration blending equipment field, more specifically, relates to portable intravenous administration mixing system.

Background technology

Intravenous administration allotment center (Pharmacy Intravenous Admixture Service, PIVAS) be under the operating environment meeting GMP standard, foundation intravenous administration characteristics design, by the pharmaceutical professional being subject to train or nursing staff, in strict accordance with the operation sequence of regulation, carry out the allotment comprising the intravenous administration such as Total parenteral nutrient admixture, harmfulness intravenous administration and antibiotic, think clinical vein medication treatment service.PIVAS changes being dispersed in the drip-feed intravenous administration of allocating in each ward surrounding of hospital the management mode concentrated allotment in clean environment, check, distribute into, thus provides specification, safe and effective intravenous administration service for clinical.

According to the actual needs of hospital's diagnosis and treatment, traditional PIVAS is arranged in the door/acute disease building of hospital, the building such as pharmacy or ward usually.Concentrating the correlated quality management regulation of allotment, standard and operational procedure in order to meet intravenous administration, often needing to carry out various adaptability reform to building, this considerably increases construction and the use cost of PIVAS.In addition, after PIVAS builds up, as fixed building, be difficult to change on a large scale it and extend, therefore traditional PIVAS is often more difficult meets hospital's ever-increasing intravenous administration allotment demand.Moreover traditional PIVAS needs to take former very limited building area in hospital, thus may affect the diagnosis and treatment scale of hospital.

Therefore, be necessary to provide a kind of novel intravenous administration mixing system to solve traditional PI VAS Problems existing, such as require higher to place election and surrounding enviroment, construction cost is high, the cycle is long, can not be widely used in the problem such as various medical treatment and Health Services place.

Utility model content

This application provides a kind of can the portable intravenous administration mixing system of flexible configuration, to adapt to different environment or place.The portable intravenous administration mixing system of the application can be retracted into when transporting the form (being in collapsed state) taking less space, after transporting job site to, then can be extended to the operation form (being namely in deployed condition) of internal working volume expansion, thus the practical application needs of intravenous administration allotment can be met.The portable intravenous administration mixing system of the application also has other technical characteristics improved, for solving deficiency and the problem of traditional PI VAS existence.

In one aspect, this application provides a kind of portable intravenous administration mixing system, this system comprises: the first module, and described first module has first housing in space in restriction first, and described first housing has the first connector being positioned at the first wall; And second module, described second module has second housing in space in restriction second, wherein, described second module is prefabricated unit, and the size of wherein said second housing is less than the size of described first housing, thus described second housing is made to move into by described first connector or to shift out described first housing.

In certain embodiments, described portable intravenous administration mixing system also comprises the 3rd module formed by flap, and wherein said flap folds in described first housing of described first module pivotly.

Do not need to be cured, to build between floors according to the portable intravenous administration mixing system of the application, but can be placed in such as playground, parking lot or other there is outdoor environment or the place of certain floor space.In addition, because the second module can be contained in the first module with being moved, therefore portable intravenous administration mixing system is more convenient for transporting.In addition, the portable intravenous administration mixing system that modularization is arranged can be undertaken transforming, upgrading by additional different module, which further enhances dilatation ability and the universality of system, also improves application life simultaneously.

Be more than the general introduction of the application, the situation of simplification, summary and omissions of detail may be had, therefore those skilled in the art will appreciate that this part is only Illustrative, and be not intended to limit the application's scope by any way.This overview section is the key feature of not intended to be determination claimed subject or essential feature both, and also not intended to be is used as the supplementary means of the scope determining claimed subject.

Accompanying drawing explanation

By the explanation done below in conjunction with accompanying drawing and appending claims, the above and other feature understanding teachings herein will be known more fully.Be appreciated that these drawings depict only some embodiments of teachings herein, therefore should do not think the restriction to teachings herein scope.By reference to accompanying drawing, teachings herein will obtain definitely and explain.

Fig. 1 shows the plan view of the portable intravenous administration mixing system 100 according to the application's embodiment;

Along the lateral plan in A-A ' direction in Fig. 1 when the portable intravenous administration mixing system 100 that Fig. 2 A shows Fig. 1 is in deployed condition;

Along the lateral plan in A-A ' direction in Fig. 1 when the portable intravenous administration mixing system 100 that Fig. 2 B shows Fig. 1 is in collapsed state;

Fig. 3 shows the plan view of the portable intravenous administration mixing system 200 according to the application's embodiment;

Fig. 4 shows the plan view of the portable intravenous administration mixing system 300 according to the application's embodiment;

Fig. 5 A shows a kind of example arrangement of the part flap of the 3rd module in Fig. 4;

Fig. 5 B shows the another kind of example arrangement of the part flap of the 3rd module in Fig. 4;

Fig. 6 shows the plan view of the portable intravenous administration mixing system 300 shown in Fig. 4 along B-B ' direction in Fig. 4;

Fig. 7 shows a kind of ventilating duct configuration of the second module for intravenous administration mixing system 300 portable shown in Fig. 4;

Fig. 8 shows the plan view of the portable intravenous administration mixing system 400 according to the application's embodiment.

Detailed description of the invention

In the following detailed description, with reference to the accompanying drawing of the part forming manual.In the accompanying drawings, unless otherwise indicated by context, the ingredient that similar symbol ordinary representation is similar.The illustrative embodiments describe in detail, described in accompanying drawing and claims not intended to be limit.When not departing from the spirit or scope of theme of the application, other embodiments can be adopted, and other changes can be made.Be appreciated that, can carry out multiple different configuration, replacement, combination, design to the various aspects of general teachings herein that describe, illustration in the accompanying drawings herein, and all these different configurations, replacement, combination, design form a part for teachings herein all clearly.

Fig. 1, Fig. 2 A and Fig. 2 B shows the portable intravenous administration mixing system 100 according to the application's embodiment.Wherein, Fig. 1 is this portable intravenous administration mixing system 100 plan view in the deployed state, and the lateral plan seen in direction along A-A ' in Fig. 1 when Fig. 2 A and Fig. 2 B portable intravenous administration mixing system 100 that is this is in deployed condition and collapsed state respectively.This portable intravenous administration mixing system 100 can be used for providing the space of placing intravenous administration allotment related facility and equipment, intravenous administration and/or unclassified stores, and can be used for providing intravenous administration allotment work associative operation personnel the working space of (such as, pharmacists, intravenous administration allotment personnel, doctor, nurse and support staff etc.).

As shown in Fig. 1 to Fig. 2 B, portable intravenous administration mixing system 100 comprises the first housing 105 that the first module 101, first module 101 has space 103 in restriction first.In certain embodiments, when overlooking from the top of the first housing 105, the first housing 105 can have rectangle, square, hexagon or other shapes be applicable to.If no special instructions, the shape of the first described in this article housing 105 refers to the shape (visual angle shown in Figure 1) under its plan view, and this shape is substantially identical with the shape bottom the first housing 105.

Portable intravenous administration mixing system 100 also comprises the second module 121, and it has second housing 125 in space 123 in restriction second.This second module 121 is prefabricated units.Wherein, prefabricated unit described herein refers to that the second module 121 is by packaged in advance, and wherein each equipment and facility have been arranged in the second housing 125 in advance, can be able to realize " plug and play " without processing further.As prefabricated unit, the second module 121 can be constructed to hermetically-sealed construction, thus ensure that the cleanliness factor in space 123 in second can meet the purification rank that intravenous administration concentrates defined in allotment related management specification or standard.

The size of the second housing 125 is less than the size of the first housing 105, thus makes the second housing 125 can be moved into or shift out the first housing 105.In certain embodiments, as shown in Figure 1, the first housing 105 has rectangular shape, and it comprises 4 sidewalls, bottom surface and end faces.First housing 105 has the first connector 109 on its first wall 107, and the size of this first connector 109 designed to be able to permission second housing 125 and passes through.Such as, the width of the first connector 109 is equal to or greater than the width of the second housing 125, and the height of the first connector 109 is also equal to or greater than the height of the second housing 125.In some instances, the external width of the second housing 125 and highly equal width and the height of the first housing 105 inner space, therefore the first connector 109 occupies the whole region of the first wall 107, can omit the entity structure of the first wall 107.In other examples, the first connector 109 only can occupy a part of region of the first wall 107.

In the embodiment shown in fig. 1, the first connector 109 occupies the Zone Full of the first wall 107 substantially.In this configuration, the external surface of the sidewall 127 and 129 of the second housing 125, end face 131, bottom surface flushes substantially with the corresponding surface of the first housing 105 respectively, namely substantially flush with the inner surface of the sidewall 111 and 113 of the first housing 105, end face 116, bottom surface respectively, thus in the second housing 125 is limited second, the volume in space 123 is maximum as far as possible.In some embodiments, when the second housing 125 is moved in the first housing 105 completely, with when the second housing 125 shifts out the first housing 105, the first connector 109 can be closed airtightly by the respective surfaces of the second housing 125, to keep the cleanliness factor in first in space 103.

The structure of the second housing 125 is further illustrated below with reference to Fig. 2 A and Fig. 2 B.Second housing 125 moves along the normal direction of the first connector 109 substantially, such as, move in the horizontal direction in (as shown in arrow in Fig. 2 A and Fig. 2 B direction), thus moves into or shift out the first housing 105.Wherein, in order to the annexation between clear display first housing 105 and the second housing 125, in the lateral view shown in Fig. 2 A and Fig. 2 B, the add-on module 138 in Fig. 1 is eliminated.In certain embodiments, portable intravenous administration mixing system 100 also can comprise carriage (not shown), such as rail plate.This carriage is used for connecting the first housing 105 and the second housing 125 slidably, can slide to make the second housing 125 between the stowed position shown in the expanded position shown in Fig. 2 A and Fig. 2 B.Wherein, in stowed position, the second housing 125 is incorporated in the first housing 105, as shown in Figure 2 B.And at expanded position, the second housing 125 is moved out of the first housing 105, as shown in Figure 2 A.In a preferred embodiment, the width of the sidewall 127 and 129 of the second housing 125 is substantially equal to respectively or is less than the width of sidewall 111 and 113 of the first housing 105.Like this, when the second housing 125 is moved in the first housing 105, the second housing 125 can be contained wholly within the first housing 105 (see Fig. 2 B).And when the second housing 125 is moved to the expanded position shown in Fig. 2 A, the second housing 125 is moved to outside the first housing 105 substantially completely, thus make the second housing 125 can take space 103 in first as few as possible.

In certain embodiments, carriage can comprise dismountable brace summer.When the second housing 125 shifts out the first housing 105, brace summer can be arranged on the bottom of the second housing 125 to support the bottom of the second housing 125, thus avoids the second housing 125 because of unsettled bottom it and relative to the first housing 105 run-off the straight or distortion.

In certain embodiments, sidewall 111 the adjacent with the first wall 107 of the first housing 105 and perpendicular to the first wall 107 is provided with the second connector (not shown), the width of this second connector equals or the width of sidewall 127 slightly larger than this second housing 125, thus allows the second housing 125 to move into from this second connector or shift out the first housing 105.This second connector can be configured to all can be closed airtightly by the second housing 125 when the second housing 125 shifts out the first housing 105 and moves into the first housing 105, to keep the cleanliness factor in first in space 103 further.

Further, carriage for be slidably connected the first housing 105 and the second housing 125 can be two way sliding apparatus, this two way sliding apparatus is configured to make the second housing 125 move horizontally along the normal direction of the first connector 109, and the second housing 125 also can be made to move horizontally along the normal direction of the second connector on sidewall 111.In other words, portable intravenous administration mixing system 100 operationally has two kinds of expansion modes.The first expansion mode i.e. the second housing 125 shifts out from the length side (long limit) of the first housing 105.The second expansion mode i.e. the second housing 125 shifts out from the width side (minor face) of the first housing 105.Therefore this two way sliding apparatus allows to choose its expansion mode be applicable to according to the concrete condition in place, portable intravenous administration mixing system 100 place.

In certain embodiments, the first housing 105 and the second housing 125 all have rectangular shape, and have substantially identical length, thus the second housing 125 can be shifted out from the long side of the first housing 105 and form "=" shape layout.

In certain embodiments, the first housing 105 and the second housing 125 all have rectangular shape, and the length of the second housing 125 is less than the length of the first housing 105, thus the second housing 125 can be shifted out from the first housing 105 and form L shape or landing tee is put.Wherein, when the first connector 109 is arranged on one end of the first housing 105 long side, the second housing 125 shifts out from one end of the first housing 105 long side and forms L-type layout; And when the first connector 109 is arranged on the middle part of the first housing 105 long side, the second housing 125 shifts out from the middle part of the long side of the first housing 105 and forms T-shaped layout.

In further embodiments, one in first housing 105 and the second housing 125 has rectangular shape and another has square shape, such as the first housing 105 has rectangular shape, and the second housing 125 has square shape, or the first housing 105 has square shape, and the second housing 125 has rectangular shape; Thus make the second housing 125 can be formed L shape by shifting out from the first housing 105 or landing tee is put.Wherein, when the first connector 109 is arranged on first wall 107 one end of the first housing 105, the second housing 125 can be formed L shape by shifting out from the first housing 105 and arrange; When in the middle part of the first connector 109 is arranged on the first wall 107 of the first housing 105, the second housing 125 can be formed landing tee by shifting out from the first housing 105 and put.

In certain embodiments, when the second housing 125 is in expanded position, its second wall 133 is roughly mutually concordant with the first wall 107.In addition, the second wall 133 remains in the first housing 105 usually.When the second housing 125 is in stowed position or expanded position, first connector 109 is closed airtightly by the second housing 125, also i.e. the first connector 109 and the second housing 125 is hermetic closed couples together, enters into space 103 in first to avoid or to reduce from external contaminants.Second housing 125 has the opening 135 be positioned on the second wall 133.When the second housing 125 is in expanded position, in first, space 103 is allowed through opening 135 and is communicated with space in second 123.In certain embodiments, the size of opening 135 at least allows people to pass through, and walks about in first to enable operating personnel in space 103 and second between space 123.Preferably, the size of opening 135 can also allow material (intravenous administration such as to be deployed or the intravenous administration etc. of having allocated) to pass through.Such as, in first, space 123 between material can be transported in space 103 and second by conveyer.

Except opening 135, the sidewall of the second housing 125 can also arrange one or more additional opening, such as, additional opening 137 is set on sidewall 127.These additional openings can allow the second module 121 to be connected with one or more add-on module, or for passing in and out space 123 in second for personnel and/or material from outside.In some embodiments, additional opening also can use as the emergency exit of in case of emergency evacuating personnel.On the additional opening of the second housing 125, such as, on additional opening 137, can hermatic door be provided with, to close additional opening when the second housing 125 is not connected with add-on module, preferably close additional opening airtightly.

Similarly, the sidewall of the first housing 105 also can arrange one or more additional opening.These additional openings can allow the first module 101 to be connected with one or more add-on module, or for passing in and out space 103 in first for personnel and/or material from outside, or as in case of emergency evacuating the emergency exit of personnel.Such as, additional opening 115 is arranged on the sidewall 111 of the first housing 105.Add-on module 138 is connected with the first housing 105 of the first module 101 by additional opening 115, such as, can be used for for space 103 in material turnover first.Now, the buffer channel that passes in and out as material of add-on module 138.Similarly, additional opening 117 is arranged on the sidewall 113 of the first housing 105, and add-on module 139 is connected with the first housing 105 by this additional opening 117, such as, can be used for passing in and out space 103 in first for operating personnel.Now, the buffer channel that passes in and out as operating personnel of this add-on module 139.

In certain embodiments, add-on module can comprise the functional compartments or functional area of allocating for intravenous administration, portable intravenous administration mixing system connects this add-on module by additional opening can expand its region allocated for intravenous administration, thus Hoisting System allotment ability.

In certain embodiments, add-on module can comprise the functional area for depositing intravenous administration.Portable intravenous administration mixing system connects this add-on module by additional opening can increase drug stock control space, thus the medicine storage capacity of corresponding raising system, be able to corresponding minimizing medicine distribution number of times.

In certain embodiments, add-on module can also comprise the functional area for other objects, such as, for the functional area of staff training object.In brief, by arranging additional opening and connecting add-on module by this additional opening, the autgmentability of portable intravenous administration mixing system can be improved.

The wall of the first housing 105 and the second housing 125 can also arrange one or more material opening.These material openings are configured to allow material to pass through, but its size can not make people pass through or be not easy to people to pass through.Such as, the shape and size of material opening can be configured to allow conveyer belt to pass through, or material opening can be designed to Bidirectional interlocking delivery window, delivery window 171 and 179 as shown in Figure 1, transmits material in space in first 103 and second between space 123.Like this, material opening provides independently material and transports passage, is conducive to the efficiency improving material transport, is easy to carry out rationally and flexible topology the functional area of portable intravenous administration mixing system inside, and installs corresponding equipment and facility.

In addition, in certain embodiments, the first housing 105 is also provided with electric power, water with in the region at least partially in the second housing 125, communicates and/or ventilating duct or circuit (not shown).By these pipelines or circuit, can externally to the equipment in the first module 101 and the second module 121 and facility power, water supply, or carry out with it communicating or ventilating.These pipelines can be arranged on the outside or inside of housing, or are arranged in the interlayer of housing wall, such as, interlayer 140 in Fig. 2.

In actual applications, the interior space of the first module 101 and the second module 121 can the equipment of placed mobile intravenous administration mixing system 100, intravenous administration or unclassified stores, be also that operating personnel (such as, pharmacists, intravenous administration allotment personnel, doctor, nurse and support staff etc.) provide working space simultaneously.Wherein, the second module 121 is prefabricated units, and its internal construction and layout are predefined, and the first module 101 is non-Prefabricated blocks, and its internal construction and layout can carry out compliance setting and adjustment according to the actual requirements.Such as, the internal construction and the layout that adjust the first module 101 when being launched can also be prepared after portable intravenous administration mixing system 100 is transported to hospital or other medical services places.When portable intravenous administration mixing system 100 is in collapsed state, in first, the space at least partially in space 103 is occupied by the second module 121.And when portable intravenous administration mixing system 100 is in deployed condition, the second housing 125 is moved out of the first housing 105, the former segment space occupied by the second housing 125 in space 103 in first is released.Therefore, after portable intravenous administration mixing system 100 launches, internal construction and the layout of the first module 101 can be configured according to the actual requirements, such as determine each functional area in space 103 in first division and at the corresponding equipment of these area configurations and facility.

Fig. 1 shows the exemplary configuration being in deployed condition according to the portable intravenous administration mixing system 100 of the embodiment of the present application.Next, then the exemplary configuration of composition graphs 1 to this portable intravenous administration mixing system 100 be specifically described.

In portable intravenous administration mixing system 100, second module 121 is mainly used in the allotment of intravenous administration, and in second, in space 123, the air purity at least part of region usually should meet intravenous administration and concentrates the purification rank that specifies in allotment related management specification or standard.In certain embodiments, the cleanliness factor in space 123 is equal to or higher than the ISO8 level (cleaniliness classs unless otherwise noted, hereinafter mentioned is the cleaniliness classs meeting ISO14644-1 standard) of ISO14644-1 standard in above-mentioned second.

In certain embodiments, in second, space 123 can be separated into different functional areas or functional compartments, such as dressing room, intravenous administration allotment room etc.These functional areas or functional compartments can have different cleanliness factors, to meet different application demands.Such as, the cleanliness factor of dressing room can be ISO8 level, and the cleanliness factor of intravenous administration allotment room can be ISO7 level or more, and the cleanliness factor of the horizontal laminar flow clean bench arranged in intravenous administration allotment room and Biohazard Safety Equipment can be ISO5 level or more, etc.It should be noted that, in described herein second, the cleanliness factor in space 123 and other cleanliness factors hereinafter refer to the cleanliness factor of its inner additional space position when portable intravenous administration mixing system 100 runs well, but not the cleanliness factor of its when improper operating condition (such as in transportation).

In certain embodiments, the second module 121 comprises the first functional compartments 141 and the second functional compartments 143 being positioned at the second housing 125, and wherein the first functional compartments 141 is between the opening 135 and the second functional compartments 143 of the second housing 125.In certain embodiments, the cleanliness factor of the first functional compartments 141 is equal to or higher than ISO8 level, and the cleanliness factor of the second functional compartments 143 is usually above the cleanliness factor of the first functional compartments 141, such as, be equal to or higher than ISO7 level.

First functional compartments 141 comprises dressing room, for changing clothing, to avoid dust, germ or other pollutants to be brought in the second functional compartments 143 for operating personnel.Such as, operating personnel can wash one's hands, are with cap, a mouth mask, change footwear, change clean garment, wear gloves etc. in dressing room.Preferably, wind shower device can be comprised in the first functional compartments 141.In certain embodiments, as shown in Figure 1, dressing room comprises a dressing room 145 and secondary dressing room 147 further.Wherein, one time dressing room 145 is adjacent with opening 135, and secondary dressing room 147 is adjacent with the second functional compartments 143.One time dressing room 145 is sent out cap, mouth mask for washing one's hands for operating personnel, being with, is changed footwear and once change one's clothes.The cleanliness factor of a dressing room 145 can be equal to or higher than ISO8 level.Secondary dressing room 147 for changing clean garment for operating personnel, wear gloves, hand-wrist bones etc. again, the cleanliness factor of secondary dressing room 147 can be equal to or higher than ISO7 level.

Correspondingly, the equipment such as pond, wardrobe, locker can be provided with in the first functional compartments 141.In certain embodiments, these equipment can be fixed on the wall of the second housing 125.Wherein, described hereinly fixedly comprise disassembled fixing, such as, fixed by the securing member such as bolt, buckle.Therefore, according to the needs of practical layout, equipment can be unloaded from some position the second housing 125, and be fixed to other positions of the second housing 125.It is evident that, the dressing room quantity that the first functional compartments 141 comprises and inner configuration thereof suitably can adjust the requirement of intravenous administration mixing system according to various countries.

In certain embodiments, as shown in Figure 1, the second functional compartments 143 comprises an intravenous administration allotment room, for allocating non-harmfulness intravenous administration or harmfulness intravenous administration.Harmfulness intravenous administration described herein refer in intravenous administration to be deployed one or more relate to cytotoxicity intravenous administration and antibiotic, but intravenous administration to be deployed also may comprise one or more other intravenous administration components, or does not comprise other intravenous administration components.In this application, non-harmfulness intravenous administration refers in intravenous administration to be deployed and does not relate to cytotoxicity intravenous administration or antibiotic.

The air pressure of the second functional compartments 143 is configured to the air pressure higher than the first functional compartments 141, such as high 5 to 10 handkerchiefs, thus avoids the air that in the first functional compartments 141, cleanliness factor is lower to flow into the cleanliness factor affecting the second functional compartments 143 in the second functional compartments 143.Can be configured with horizontal laminar flow clean bench 155 in second functional compartments 143, the cleanliness factor of horizontal laminar flow clean bench 155 is equal to or higher than ISO5 level, and operating personnel can allocate non-harmfulness intravenous administration on horizontal laminar flow clean bench 155.Horizontal laminar flow clean bench 155 is fixed on the corresponding wall of the second housing 125, the sidewall of such as the second housing 125 and/or bottom.Such as, the bottom of the second housing 125 can be fixed in the bottom of horizontal laminar flow clean bench 155 by the fixture such as bolt, buckle.When transporting portable intravenous administration mixing system 100, in order to prevent horizontal laminar flow clean bench 155 from toppling over, safety door hook (not shown) can be set on horizontal laminar flow clean bench 155 top, and connect the sidewall of safety door hook and the second housing 125 with rope.Like this, fixing horizontal laminar flow clean bench 155 can not move relative to the second housing 125, thus to avoid moving or transport in portable intravenous administration mixing system 100 process horizontal laminar flow clean bench 155 relative to the second housing 125 accidental displacement, rock and cause damage.

Certainly, also Biohazard Safety Equipment (not shown) can be provided with alternatively in the second functional compartments 143, for allotment harmfulness intravenous administration.Similarly, Biohazard Safety Equipment can be fixed on the corresponding wall of the second housing 125, and is connected with the second housing 125 by the safety door hook that its top is arranged, to prevent Biohazard Safety Equipment in system 100 In transit accidental displacement, to rock.

First module 101 is mainly used in Checking prescription, the preparation of intravenous administration and distribution, and in first, the cleanliness factor in space 103 usually can lower than the cleanliness factor in space 123 in second.Such as, the cleanliness factor in space 103 is substantially identical with the cleanliness factor of ambient air outside or a little more than the cleanliness factor of ambient air outside in first.In certain embodiments, air handling system can be provided for the first module 101, to regulate and control the air regime (such as, temperature, humidity, cleanliness factor and/or pressure etc.) in first in space 103.

At some in other embodiment, intravenous administration prepares and/or range of distribution also can be arranged in the second module, such as, be arranged on the first functional compartments and the buffer area (not shown) between the opening being connected the first module.

In certain embodiments, the first module 101 comprises the 3rd functional area 161 and the 4th functional area 163 that are positioned at the first housing 105.In the 3rd functional area 161, be provided with tables and chairs, computer, printer or other office equipment, pharmacists or doctor can check prescription and/or distribute intravenous administration (comprise and prepare intravenous administration to be deployed and/or distribute allotment to complete intravenous administration).Equipment at least partially in 3rd functional area 161, such as tables and chairs etc., can be fixed in the respective wall of the first housing 105.Shelf can be provided with, such as medicine frame, medicine cabinet or storing compartment etc. in 4th functional area 163.Can some preparations be carried out in the 4th functional area 163, such as, remove supply material, the such as external packing of medicine, medicine equipment or other consumptive materials, it is classified and is placed in the respective partition of shelf.

In certain embodiments, other functional areas in 3rd functional area 161, the 4th functional area 163 or the first housing 105 can pass through interior lining panel (with or without door, window, material opening) and separate, thus these functional areas of relative closure ground isolation.In further embodiments, the functional area in the first housing 105 also can not be separated by interior lining panel, and divides each functional area by means of only the layout of tables and chairs, office equipment etc.

Except also other functional areas can be comprised in the 3rd functional area 161 and the 4th functional area 163, first module 101.Such as, can also comprise the five-function region for training purpose in the first module 101, intravenous administration allotment personnel can give training in this five-function region.Correspondingly, tables and chairs, projecting apparatus, computer or other training facilities or equipment in five-function region, can be provided with, and these facilities or equipment can be fixed on the first housing 105.

The intravenous administration deposited in first module 101 or unclassified stores are provided to the second module 121, to allocate in the second module 121.In the second module 121, deployed intravenous administration is transported in the first module 101, and then is distributed to corresponding staff by the medicine outlet 179 on such as sidewall 119.Correspondingly, in order to transport intravenous administration to be deployed and deployed intravenous administration between the first module 101 and the second module 121, portable intravenous administration mixing system 100 also can comprise conveyer 171.This conveyer 171 is configured to transmit material between the first module 101 and the second module 121, such as to be deployed the or intravenous administration of having allocated.In the embodiment shown in fig. 1, conveyer is arranged on the material opening of the second wall 133, be configured to Bidirectional interlocking delivery window or other similar structures, so that medicine or unclassified stores transmit between space 123 in space 103 and second in first, and farthest reduce the pollution to space 123 in second.

Following composition graphs 1 again, is further detailed the use of the portable intravenous administration mixing system 100 according to the embodiment of the present application.

Intravenous administration or unclassified stores can enter into space 103 in first by additional opening 115, and are stored in the 4th functional area 163.Operating personnel can enter into space 103 in first by additional opening 117, wherein be responsible for examining side, the doctor of drug row and drug or pharmacists at the 3rd functional area 161, be responsible for the pharmacists (allotment personnel) of allotment intravenous administration in intravenous administration allotment room 143.

In the 4th functional area 163, after careful side pharmacists confirms prescription, drug row pharmacist selects according to prescription and examines corresponding intravenous administration to be deployed, then these intravenous administration to be deployed is delivered in the second module 121 by Bidirectional interlocking delivery window 171.The allotment personnel being arranged in intravenous administration allotment room 143 fetch intravenous administration to be deployed through Bidirectional interlocking delivery window 171, and are transferred on horizontal laminar flow clean bench 155.Allotment personnel process intravenous administration to be deployed on horizontal laminar flow clean bench 155, complete allotment work according to prescription requirements.After completing intravenous administration allotment, deployed intravenous administration can be placed on cell therefor (such as by allotment personnel, basketry, pallet, packaging bag or box) in, then via Bidirectional interlocking delivery window 171, allotment is completed intravenous administration and send intravenous administration allotment room 143.Finally, drug pharmacist takes out via the intravenous administration of having allocated spread out of in Bidirectional interlocking delivery window 171, and it is sent out from medicine outlet 179 points, thus completes the overall process of medicine allocation.

In certain embodiments, be provided with translucent construction on the wall of the first and second housings or in housing, this translucent construction is made up of implosion guard, and such as, shown in, translucent construction can be configured to door or window.Preferably, above-mentioned translucent construction can be covered with rupture pressure disc, can reduce the risk of translucent construction explosion in transport, arrangement or use procedure thus, thus improve the safety in utilization of system.

In certain embodiments, the portable intravenous administration mixing system of the application can utilize existing Container Reconstruction to be formed, and also can rebuild with suitable sheet material.Such as, for building the sidewall of the first housing or the second housing, the sheet material of end face or bottom surface can be steel plate, aluminium alloy plate, glass epoxy.Enclosure interior can also comprise the interior lining panel of varying number, to separate different functional areas or functional space.Interior lining panel can be provided with door, window and/or opening, move between difference in functionality region or functional space for operating personnel or material.Herein, for the object simplifying accompanying drawing, the opening in housing wall or housing on interior lining panel, door or window in accompanying drawing, is eliminated.

Can find out, not need to be cured, to build between floors according to the portable intravenous administration mixing system of the application, but can be arranged on such as playground, parking lot or other there is environment or the place of certain floor space.In addition, because the second module is accommodated in the first module movably, the portable intravenous administration mixing system overall volume being in collapsed state is less, and therefore portable intravenous administration mixing system is easier to transport.In addition, the portable intravenous administration mixing system that modularization is arranged can be undertaken transforming, upgrading by additional different module, and this improves the dilatation ability of system, universality and application life further.

In actual applications, according to the internal construction of the portable intravenous administration mixing system of the application and structure can according to practical application need carry out various adaptability revision and change.Namely Fig. 3 shows according to the plan view under portable intravenous administration mixing system 200 deployed condition of the application's embodiment.

As shown in Figure 3, portable intravenous administration mixing system 200 comprises the first housing 205 that the first module 201, first module 201 has space 203 in restriction first.When overlooking above the first housing 205, the first housing 205 can have rectangle or foursquare shape, and this shape is basic identical with the shape of the first housing 205 bottom surface.

Portable intravenous administration mixing system 200 also comprises the second housing 225 that the second module 221, second module 221 has space 223 in restriction second.This second module 221 is prefabricated units.The size of the second housing 225 is less than the size of the first housing 205, makes the second housing 225 can be moved into or shift out the first housing 205.

First housing 205 has the first connector 209 on its first wall 207, and the size of this first connector 209 designed to be able to permission second housing 225 and passes through.When the second housing 225 is moved in the first housing 205 completely and when the second housing 225 is moved out of the first housing 205, this first connector 209 can be closed by the second housing 225.When the second housing 225 is in expanded position, the second wall 233 is roughly mutually concordant with the first wall 207.In the embodiment shown in fig. 3, the width of the second wall 233 is substantially equal with the width of the first connector 209, but the height of the second wall 233 is less than the height of the first wall 209.Expanded position shown in Fig. 3, the second wall 233 and the first wall 207 substantially flush, in the same vertical plane.In the plan view of Fig. 3, the first wall 207 and the second wall 233 are simplified to be shown as and are on same straight line.

Second housing 225 has the opening 235 be positioned on the second wall 233.When the second housing 225 is in expanded position, in first, space 203 is allowed through opening 235 and is communicated with space in second 223.Except opening 235, the sidewall of the second housing 225 can also arrange one or more additional opening, such as, additional opening 237 is set on sidewall 227.Similarly, the sidewall of the first housing 205 also can arrange one or more additional opening.Such as, additional opening 215 is arranged on the sidewall 211 of the first housing 205.

In actual applications, the interior space of the first module 201 and the second module 221 can the equipment of placed mobile intravenous administration mixing system 200, intravenous administration or unclassified stores, be also that operating personnel (such as, pharmacists, intravenous administration allotment personnel, doctor, nurse and support staff etc.) provide working space simultaneously.Wherein, the second module 221 is prefabricated units, and its internal construction and layout are predefined, such as design, produce or assembling mobile intravenous administration mixing system 200 time determine; And the first module 201 is non-Prefabricated blocks, its internal construction and layout can carry out compliance setting and adjustment according to the actual requirements, such as, can also prepare the internal construction and the layout that adjust the first module 201 when being launched after portable intravenous administration mixing system 200 is transported to hospital or other medical services places, comprise and equipment or facility are fixed on desired zone.Pack up when portable intravenous administration mixing system 200 is in, in first, the space at least partially in space 203 is occupied by the second housing 225.And when portable intravenous administration mixing system 200 is in deployed condition, the second housing 225 is moved out of the first housing 205, makes the former space segment occupied by the second housing 225 in space 203 in first be released.Therefore, after portable intravenous administration mixing system 200 launches, internal construction and the layout of the first module 201 can be configured according to the actual requirements.

In the embodiment shown in fig. 3, the second module 221 comprises the first functional compartments 241 and the second functional compartments 243 being positioned at the second housing 225.Wherein, the cleanliness factor of the first functional compartments 241 is equal to or higher than ISO8 level, and the cleanliness factor of the second functional compartments 243 is usually above the cleanliness factor of the first functional compartments 241, such as, be equal to or higher than ISO7 level.First functional compartments 241 is between opening 235 and the second functional compartments 243.

In certain embodiments, the first functional compartments 241 can comprise a dressing room 245 and secondary dressing room 247, and wherein, one time dressing room 245 is adjacent with opening 235, and secondary dressing room 247 is then adjacent with the second functional compartments 243.Second functional compartments 243 comprises the first intravenous administration allotment room 249 and the second intravenous administration allotment room 251, wherein, operating personnel can process non-harmfulness intravenous administration in the first intravenous administration allotment room 249, and process harmfulness intravenous administration in the second intravenous administration allotment room 251.

In the embodiment shown in fig. 3, the first intravenous administration allotment room 249 is adjacent with the first functional compartments 241, and the second intravenous administration allotment room 251 is adjacent with additional opening 237.Preferably, the second functional compartments 243 can also comprise allocates surge chamber 253 between room 251 in the first intravenous administration allotment room 249 and the second intravenous administration, and allotment personnel can change clothing or carry out other warming-up exercises in this surge chamber 253.In certain embodiments, the air pressure in the first intravenous administration allotment room 249 higher than the air pressure of its outside, thus avoids the lower air of outside cleanliness factor to enter the first intravenous administration allotment room 249.In certain embodiments, when the first intravenous administration allotment room 249 and the second intravenous administration allocate room 251 adjacent time, the air pressure that the first intravenous administration allocates room 249 allocates the air pressure of room 251 higher than the second intravenous administration.Like this, the gas (wherein may contain a small amount of harmfulness intravenous administration) in the second intravenous administration allotment room 251 can not be revealed to the first intravenous administration allotment room 249 or spread.Similarly, in some instances, the air pressure of the second intravenous administration allotment inside, room 251, lower than the air pressure of its outside, externally leaks to avoid hazardous substances or spreads.

In order to allocate intravenous administration, the first intravenous administration allotment room 249 can comprise horizontal laminar flow clean bench 255, and horizontal laminar flow clean bench 255 is fixed on the corresponding wall of the second housing 225, such as, and the sidewall of the second housing 225, bottom surface and/or end face.The cleanliness factor of horizontal laminar flow clean bench is equal to or higher than ISO5 level.Similarly, the second intravenous administration allotment room 251 can comprise Biohazard Safety Equipment 257, and Biohazard Safety Equipment 257 is fixed on the wall of the second housing 225, such as, and the sidewall of the second housing 225, bottom surface and/or end face.Such as, the bottom of Biohazard Safety Equipment 257 can be secured by bolts on the nut of the second housing 225 bottom surface.Further, also safety door hook can be set on Biohazard Safety Equipment 257 top, for being fixed in the sidewall of the second housing 225 by rope when transporting portable intravenous administration mixing system 200.Certainly, also by hook, the top of Biohazard Safety Equipment 257 can be fixed on the end face of the second housing 225.

The wall of the first housing 205 and the second housing 225 can also arrange one or more material opening 273.These material openings 273 are configured to allow material to pass through, but its size can not make people pass through or be not easy to people to pass through.Such as, the shape and size of material opening 273 can be configured to allow conveyer belt to pass through, or material opening can be designed to install Bidirectional interlocking delivery window, for transmitting material.Like this, material opening 273 provides independently material and transports passage, is conducive to the efficiency improving material transmission, improves the flexibility functional area of portable intravenous administration mixing system inside being carried out to layout, and be easy to configure corresponding erection equipment and facility.

In the embodiment shown in fig. 3, portable intravenous administration mixing system 200 comprises conveyer 271, for transmitting material between the first module 201 and the second module 221.This conveyer 271 is constructed to conveyer belt form, and it is through the second wall 233 of the second housing 225.Particularly, conveyer belt 271 can via material opening 273 through the second wall 233.Preferably, at material opening 273, place can also arrange wind shower device, for the conveyer belt 271 that purifies material opening 273 place and the material that it transports, thus avoids or reduce in the second module 221, introducing pollutant in material transport process.

Particularly, conveyer belt 271 comprises the input channel from the first module 201 to the second module 221, and from the output channel of the second module 221 to the first module 201.In the embodiment shown in fig. 3, the input channel of conveyer belt 271 is successively by the first module 201, secondary dressing room 247, first intravenous administration allotment room 249, surge chamber 253 and the second intravenous administration allotment room 251.In certain embodiments, input channel can not extend into the second intravenous administration allotment room 251 and end at the first intravenous administration allotment room 249, and only provides harmfulness intravenous administration and non-harmfulness intravenous administration to the first intravenous administration allotment room 249.In this case, can between the first intravenous administration allotment room 249 and surge chamber 253 and surge chamber 253 and the second intravenous administration allocate between room 251 other conveyers be set, such as Bidirectional interlocking delivery window, provides harmfulness intravenous administration or unclassified stores to the second intravenous administration allotment room 251.In the examples below, input channel ends at surge chamber 253, allocate between room 251 at surge chamber 253 and the second intravenous administration and other conveyers are set respectively, such as Bidirectional interlocking delivery window, provide harmfulness intravenous administration or unclassified stores to the second intravenous administration allotment room 251.

Similarly, the starting point of output channel is arranged in the second module 221, such as, in the first intravenous administration allotment room 249 or the second intravenous administration allotment room 251; And its terminal is arranged in the first module 201, this terminal is preferably located in contiguous medicine outlet 279 place.Like this, the allotment that conveyer belt 271 exports can be completed intravenous administration and directly sent out by medicine outlet 279 points by operating personnel.

Preferably, non-harmfulness intravenous administration and the harmfulness intravenous administration of having allocated are loaded into the different container of color, shape, mark or specification (such as respectively, basketry, pallet, packaging bag or box) in, and be sent in the first module 201 via independently conveyer.Conveyer belt described herein can be the tape conveyor belt with traction piece, or does not have the roll conveyor of traction piece, or other structures be applicable to.In addition, conveyer can also comprise Bidirectional interlocking delivery window or other similar structures.Described Bidirectional interlocking delivery window is arranged on the wall that material conveying passage passes, wall such as between the first intravenous administration allotment room 249 and surge chamber 253, and surge chamber 253 and the second intravenous administration allocate the wall between room 251, to reduce the cross pollution between zones of different or module in medicine or the transmittance process of unclassified stores between difference in functionality region or module to greatest extent.

The portable intravenous administration mixing system of the embodiment of the present application can increase add-on module to increase system space, and then improves the intravenous administration allotment ability of system.These advantages of the application will be described further in conjunction with the following examples.

Fig. 4 to Fig. 7 shows the portable intravenous administration mixing system 300 according to the application's embodiment.Wherein, Fig. 4 shows this portable intravenous administration mixing system 300 plan view in the deployed state, Fig. 5 A and Fig. 5 B is two kinds of example arrangement of part flap in the 3rd module of this portable intravenous administration mixing system 300, and Fig. 6 is the view of this portable intravenous administration mixing system 300 along B-B ' direction in Fig. 4; Fig. 7 then shows a kind of ventilating duct of the second module for intravenous administration mixing system 300 portable shown in Fig. 4 and the configuration of air-conditioner set.

As shown in Figure 4, this portable intravenous administration mixing system 300 comprises the first module 301, and it has first housing 305 in space 303 in restriction first.First housing 305 has rectangular shape.Wherein, the shape of the first housing 305 described herein refers to the shape under its plan view, and this shape is basic identical with the shape of the first housing 305 bottom surface.

Portable intravenous administration mixing system 300 also comprises the second module 321, and it has second housing 325 in space 323 in restriction second.This second module 321 is prefabricated units.The size of the second housing 325 is less than the size of the first housing 305, thus can be moved into or shift out the first housing 305.First housing 305 has connector 309 on its first wall 307, and the size of this connector 309 designed to be able to permission second housing 325 and passes through.In certain embodiments, the second housing 325 is connected to the first housing 305 slidably by carriage (not shown), can slide to make the second housing 325 between expanded position (as shown in Figure 4) and stowed position.When the second housing 325 is in expanded position, the second housing 325 is substantially moved out of the first housing 305, second housing 325 and only engages with the first housing 305 at connector 309 place, thus makes the second housing 325 take space 303 in first as few as possible.

Second housing 325 has and is positioned at opening 335 on the second wall 333 and opening 336.When the second housing 325 is in expanded position, connector 309 and the second housing 325 are closed airtightly, enter into space 303 in first to avoid or to reduce from external contaminants.When the second housing 325 is in expanded position, in first, space 303 is allowed through opening 335 and is communicated with space in second 323 with 336.In certain embodiments, the size of opening 335 and opening 336 at least allows people to pass through, and can walk about to make operating personnel in first in space 303 and second between space 323.Preferably, the size of opening 335 and opening 336 can also allow material (intravenous administration such as to be deployed or the intravenous administration etc. of having allocated) to pass through, such as, in first, can transmit material by conveyer in space 303 and second between space 323.

Portable intravenous administration mixing system 300 also comprises the 3rd module 381 formed by flap.These flaps can be made up of metal sheet, glass epoxy, plastic plate, glass plate, composite plate or other materials be applicable to.The flap of the 3rd module 381 is connected to the first housing 305 pivotly, and can be folded in the first housing 305.

In certain embodiments, the 3rd module 381 is formed by 4 blocks of flaps, and these 4 blocks of flaps comprise 1 bifoldable plate and 3 single flaps.As shown in Figure 5 A and 5B, single flap refers to the individual plates that one end is pivotally connected to the first housing 305, and this individual plates can rotate relative to the first housing 305 around a pivot, such as flap 84 or flap 94.Bifoldable plate refers to by the interconnective two boards of pivot, and wherein a free end of one block of plate is pivotally connected to the first housing 305, as flap 81 or flap 91.

In certain embodiments, when each flap of the 3rd module 381 all launches, the part edge of these flaps stretches out from the first module 301, and close to each other or overlap joint.Preferably, securing member (such as shackle can be passed through, pin, bolt etc.) edge that is close to each other for these flaps or overlap joint is fixed up, thus the 3rd housing the 385, three housing 385 making these flaps connect into the 3rd module 381 with being fixed to one another defines space 383 in the 3rd.In 3rd, space 383 can be connected with space in first 303, thus expands the inner space of portable intravenous administration mixing system 300.In certain embodiments, between the 3rd housing 385 and the first housing 305, interior lining panel 391 can be installed, thus in separation first, in space 303 and the 3rd space 383.In addition, interior lining panel 391 can arrange one or more door, window and/or opening, so that operating personnel and/or material move between space 383 in space 303 and the 3rd in first.

Fig. 5 A shows a kind of example arrangement of the part flap in Fig. 4 in the 3rd module 381.Represent the structure of the 3rd module for the sake of simplicity, the internal construction in portable intravenous administration mixing system and equipment are omitted.

As shown in Figure 5A, bifoldable plate 81 comprises two flap 81A and 81B, and wherein one end of flap 81A is connected with the first housing 305 by pivot 82, and the other end of flap 81A is interconnected with flap 81B by pivot 83.This bifoldable plate 81 can be pressed arrow a, b direction successively and rotate, thus turns to end-state III through original state I, intermediateness II.In end-state III position, the basic and plane-parallel of flap 81A, it is as the end face of the 3rd housing; And flap 81B is substantially vertical with flap 81A, it is as the sidewall relative with the first housing 305 of the 3rd housing.Single flap 84 is connected with the first housing 305 by pivot 85, and it can be pressed arrow c direction and rotate, thus turns to end-state V by turning up state I V.In end-state V position, the basic and plane-parallel of single flap 84, it is as the bottom surface of the 3rd housing.Although not shown, but in a similar fashion, another two single flaps of the 3rd module are connected with the first housing 305 respectively, and can turn to on pivot 82 and orthogonal of pivot 85, thus form two other sidewall (the left and right sidewall 387,389 namely in Fig. 4) of the 3rd housing 385.

Fig. 5 B shows the another kind of example arrangement of the part flap in Fig. 4 in the 3rd module 381.Represent the structure of the 3rd module for the sake of simplicity, the internal construction in portable intravenous administration mixing system and equipment are omitted.

As shown in Figure 5 B, bifoldable plate 91 comprises two flap 91A and 91B, and one end of flap 91A is connected with the first housing 305 by pivot 92, and the other end of flap 91A is interconnected with flap 91B by pivot 93.This bifoldable plate 91 can be pressed arrow a, b direction successively and rotate, thus turns to end-state III through original state I, intermediateness II.In end-state III position, the basic and plane-parallel of flap 91A, it is as the bottom surface of the 3rd housing; And flap 91B is substantially vertical with flap 91A, it is as the sidewall relative with the first housing 305 of the 3rd housing.Single flap 94 is connected with the first housing 305 by pivot 95, and it can be pressed arrow c direction and rotate, thus turns to end-state V by turning up state I V.In end-state V position, the basic and plane-parallel of single flap 94, it is as the end face of the 3rd housing.Although not shown, but in a similar fashion, another two single flaps of the 3rd module are connected with the first housing 305 respectively, and can turn to on pivot 92 and orthogonal of pivot 95, thus form two other sidewall (the left and right sidewall 387,389 namely in Fig. 4) of the 3rd housing 385.

It should be noted that, the folded structure shown in Fig. 5 A and 5B is only example, and in actual applications, the 3rd housing 385 can be formed by the flap be applicable to arbitrarily.Such as, bifoldable plate 81,91 can be divided into 2 pieces, 3 pieces or more blocks, jointly to form the end face (or bottom surface) of the 3rd housing 385 and the wall relative with the first housing 305.Or single flap 84,94 is divided into two pieces, three pieces or more polylith to form the bottom surface (or end face) of the 3rd housing 385.These flaps can be folded in the first housing 305, and can fold from the first housing 305 when portable intravenous administration mixing system 300 launches, thus form the 3rd housing 385 be connected with the first housing 305.

Still as shown in Figure 4, in some embodiments, the flap of the 3rd module 381 can be provided with one or more opening 392, be connected with one or more add-on module (not shown) to allow the 3rd module 381.In some embodiments, opening 392 also can as the passage in space 383 in personnel and/or material turnover the 3rd.In addition, the flap of the 3rd module 381 can have translucent construction, or the 3rd housing 385 inside can have translucent construction.Described translucent construction can be made up of implosion guard, such as, be configured to the form of door or window.Preferably, translucent construction can be covered with rupture pressure disc.

Under the deployed condition of the portable intravenous administration mixing system 300 shown in Fig. 4, second module 321 and the 3rd module 381 are stretched out from the first module 301, the inner space of portable intravenous administration mixing system 300 increases greatly, is convenient to arrange each equipment in intravenous administration mixing system 300 and facility.In addition, when the second housing 325 is housed inside in the first housing 305 and each flap of the 3rd module 381 is folded in the first module 301, space occupied by portable intravenous administration mixing system 300 reduces greatly, thus is convenient to the transport of portable intravenous administration mixing system 300.

When the second module 321 and the 3rd module 381 are stretched out from the first module 301, can configure internal construction and the layout of the first module 301 and the 3rd module 381 according to actual needs, corresponding equipment and facility are also installed in such as partition functionality region.

In certain embodiments, the first module 301 is mainly used as intravenous administration and prepares and distribution area, and the first module 301 both sides connect the 3rd module 381 and the second module 321 respectively.First module 301 first in space 303 and the 3rd module 381 the 3rd in the cleanliness factor in space 393 be usually less than the second module 321 second in the cleanliness factor in space 323.First module 301 can comprise the 3rd functional area 361 being positioned at the first housing 305, in the 3rd functional area 361, pharmacists or doctor can check prescription and/or distribute intravenous administration (comprise and prepare intravenous administration to be deployed and/or distribute allotment to complete intravenous administration).Correspondingly, tables and chairs, computer, printer or other office equipment can be provided with in the 3rd functional area 361.In these equipment at least partially, such as tables and chairs etc., can be fixed on the first housing 305.

In the embodiment shown in fig. 4, the second module 321 comprises the first functional compartments 341 and 342, and the second functional compartments 343 and 344.Wherein, the first functional compartments 341 is between opening 335 and the second functional compartments 343; And the first functional compartments 342 is between opening 336 and the second functional compartments 344.Two the second functional compartments 343 and 344 are separated mutually by interior lining panel, form relatively independent space.In certain embodiments, the first functional compartments 341 and 342 can comprise dressing room.Preferably, the first functional compartments 341 comprises a dressing room 345 and secondary dressing room 347, and the first functional compartments 342 comprises a dressing room 346 and secondary dressing room 348.Preferably, can also be provided with in the first functional compartments 341 and 342 and independently do washing between sanitary equipment, for putting the cleaning appliance be exclusively used in the second module 321.In some embodiments, the second functional compartments 344, as the first intravenous administration allotment room, wherein can be provided with horizontal laminar flow clean bench 355, may be used for processing non-harmfulness intravenous administration.Second functional compartments 343, as the second intravenous administration allotment room, wherein can be provided with Biohazard Safety Equipment 357, may be used for process harmfulness intravenous administration.

In some embodiments, the 3rd module 381 is as the storage area of intravenous administration and unclassified stores.3rd module 381 comprises the 4th functional area 393 being positioned at the 3rd housing 385.The facilities such as such as medicine frame, medicine cabinet or storing compartment can be provided with to deposit medicine and other consumptive materials in 4th functional area 393.In the embodiment shown in fig. 4, the 3rd module 381 also comprises dressing room 395, changes clothing with the operating personnel for the portable intravenous administration mixing system 300 of turnover.In addition, the 3rd module 381 also comprises drug district 397, in order to the intravenous administration of having allocated is sent portable intravenous administration mixing system 300 for drug personnel.Correspondingly, the sidewall 389,390 of the 3rd module 381 is provided with the additional opening 392 corresponding with dressing room 395 and drug district 397.

Second wall 327 (and/or first wall 307 of the first housing 305) of the second housing 325 to be separated by first space 323 in space 303 and second.Fig. 6 shows a kind of example arrangement of the second wall 327.Wherein, the opening 335 on the second wall 327 and opening 336 to make in second space 303 in space 323 and first be interconnected.In addition, observation port 351 and 352 and Bidirectional interlocking delivery window 353 and 354 is provided with also at the second wall 327 respectively with the correspondence position of the second functional compartments 343 and 344.Wherein, the intravenous administration of having allocated for intravenous administration to be deployed being delivered in the second functional compartments 343 and 344, and is delivered in the first module 301 by Bidirectional interlocking delivery window 353 and 354.

In order to ensure the cleanliness factor in space 323 in second, needing the temperature, the humidity that arrange air handling system to regulate air in space 323 in second, and air is filtered.Fig. 7 shows a kind of ventilating duct of the second module for intravenous administration mixing system 300 portable shown in Fig. 4 and the configuration of air conditioning unit.

As shown in Figure 7, ventilation system 370 comprises intake stack 371,372 and exhaust duct 373, wherein intake stack 371 is connected to air-conditioner set 374A and 374B, and intake stack 372 is connected to air-conditioner set 375A and 375B, and exhaust duct 373 is connected to air draft unit 376.The fresh wind port 377 of intake stack 371 and the fresh wind port 378 of intake stack 372 are arranged on the second hull outside, as the entrance of new wind.Fresh wind port 377 and 378 answers the place that air ratio disposed in the outdoor is cleaner.In order to avoid the dust concentration in air affects by land operations, fresh wind port 377 and 378 is liftoff should at least 1 meter, preferably at least 3 meters.When needed, the height of fresh wind port 377 and 378 can be improved by the ventilating structure of similar chimney.Intake stack 371 and intake stack 372 have multiple air outlet being positioned at the second housing respectively, to be communicated with space in second and to be sent into wherein by new wind.Exhaust duct 373 has multiple air intake vent being arranged in the second space, and is positioned at the air outlet 379 outside the second housing.Air draft unit 376 runs and air is discharged to the outside via space in air outlet 379 from second.

In the embodiment shown in fig. 7, in second, space comprises the first intravenous administration allotment room and the second intravenous administration and allocates room, and the inner space that these two intravenous administration allocate rooms isolates relatively.The air outlet of intake stack 371 is arranged in the first intravenous administration allotment room, and the air outlet of intake stack 372 is arranged in the second intravenous administration allotment room, and the air intake vent of exhaust duct 373 is arranged in the second intravenous administration allotment room.Preferably, the unit interval exhaust air rate of air draft unit 376 is substantially equal with the unit interval intake of air-conditioner set 375A and/or 375B, to make the air entering into the second intravenous administration allotment room substantially discharge completely, volatilization or the hazardous drugs leaked or other materials is avoided to remain in the second intravenous administration allotment room.In certain embodiments, ventilation system 370 also can comprise another exhaust duct (not shown) and supporting air draft unit (not shown), its air intake vent is arranged in the first intravenous administration allotment room, discharges for by the air in the first intravenous administration allotment room.

Air-conditioner set 374A, 374B and air-conditioner set 375A, 375B regulate and control the air regime in space in second respectively by intake stack 371 and 372.Wherein, air regime comprises air purity, temperature, humidity and/or pressure.Such as, air-conditioner set 374A, 374B and air-conditioner set 375A, 375B can regulate the cleanliness factor of air in space in second.Preferably, air-conditioner set 374A, 374B and air-conditioner set 375A, 375B can be integral air conditioner units, also namely except regulating air cleaning to be outside one's consideration, air-conditioner set 374A, 374B and air-conditioner set 375A, 375B are also for regulating temperature, humidity and/or the pressure in second in space.In some instances, the temperature in second in space is maintained at 18 to 26 degrees Celsius, and relative humidity is maintained at 40% to 65%.Above-mentioned air-conditioner set 374A, 374B and air-conditioner set 375A, 375B can adopt principal and subordinate's configuration mode.Such as, air-conditioner set 374A and air-conditioner set 375A is as host groups, and air-conditioner set 374B and air-conditioner set 375B is as unit for subsequent use.Normally, first main air-conditioner set 374A and 375A start, and for regulating and controlling the air regime in space 323 in second.Air-conditioner set 374B and 375B for subsequent use is configured to start when the air regime in the second housing can not be maintained predetermined extent by main air-conditioner set 374A and 375A.Such as, when one or more in the cleanliness factor in the second housing, temperature, humidity or pressure can not be maintained preset range by main air-conditioner set 374A and 375A, air-conditioner set 374B and 375B for subsequent use can be started.Such principal and subordinate's configuration drastically increases the reliability of air handling system, thus can ensure that the air regime in second in space meets normal operating requirement.

In certain embodiments, the second module 321 is also provided with filter (not shown).Filter in second module 321 is such as arranged in intake stack 371 and 372, to filter the air of inflow second module 321; Or filter also can be arranged in exhaust duct 373, to filter the air of outflow second module 321.This both the air pollutants of being avoided or reducing in external environment condition can enter the second module 321 inside, also can avoid being leaked in external environment condition by the intravenous administration volatile matter allocated in the second module 321.In certain embodiments, filter can comprise the one or more strainers set gradually along airflow direction.The filter effect of these strainers can be identical or different.In one embodiment, strainer can comprise the roughing efficiency air filter, medium effeciency filter and the high efficiency particulate air filter that arrange along airflow direction successively.

Portable intravenous administration mixing system according to the application can also adopt different layouts and internal construction.Fig. 8 shows the plan view of the portable intravenous administration mixing system 400 according to the application's embodiment.Wherein, this plan view is portable intravenous administration mixing system 400 structural representation in the deployed state.

As shown in Figure 8, this portable intravenous administration mixing system 400 comprises: the first module 401, second module 421 and the 3rd module 471.The first housing 405, first housing 405 that first module 401 has space in restriction first has the connector 409 being positioned at the first wall 407.Second module 421 has second housing 425 in space 423 in restriction second.Wherein, the second module 421 is prefabricated units, and wherein the size of the second housing 425 is less than the size of the first housing 405, thus makes the second housing 425 can move into or shift out the first housing 405 by connector 409; And the 3rd module 471 formed by polylith flap, these flaps fold in the first housing 405 of the first module 401 pivotly, wherein the concrete structure of flap can be identical with the portable intravenous administration mixing system 300 shown in Fig. 4 to Fig. 7, do not repeat them here.

In the embodiment shown in fig. 8, first module 401 is mainly used in checking prescription for doctor or pharmacists, second module 421 is mainly used in for allotment personnel assignment intravenous administration, and the 3rd module 471 is mainly used in depositing medicine or unclassified stores, and distributes the intravenous administration of having allocated.Next, shown in composition graphs 8, the internal construction of portable intravenous administration mixing system 400 and layout are described further.

The flap of the 3rd module 471 can be folded, to form the 3rd housing 475 in space 473 in restriction the 3rd, as shown in Figure 8.3rd housing 475 can be provided with opening 476, for being connected with add-on module 491.This add-on module 491 as material buffer passage, can pass in and out space 473 in the 3rd for supplying material.3rd module 471 comprises material holding area 477, change one's clothes district 478 and drug district 479.Wherein, material holding area 477 is adjacent with opening 476, and occupies an end of the 3rd housing 475.Entered the material of material holding area 477 by add-on module 491 through opening 476, its external packing can be removed in material holding area 477, and be stored in medicine frame or medicine-chest 492.District 478 of changing one's clothes is adjacent with material holding area 477, and district 478 of changing one's clothes has the opening 480 leading to portable intravenous administration mixing system 400 outside, and leads to the opening 481 in space 403 in first.District 478 of changing one's clothes can pass in and out the passage of portable intravenous administration mixing system 400 as operating personnel.Drug district 479 is adjacent with district 478 of changing one's clothes, and occupies the other end of the 3rd housing 475.The side in drug district 479 is connected with space in second, and opposite side then by opening 482 and ft connection, thus makes the medicine allocated can be delivered out portable intravenous administration mixing system 400.

First module 401 is separated mutually by liner plate 411 and the 3rd module 471.The position of the close material holding area 477 of liner plate 411 is provided with sliding sash 413.Being stored in material in material holding area 477 can be transported in first in space 403 via this sliding sash 413.First module 401 also comprises conveyer belt 415, and conveyer belt 415 is arranged along the sidewall relative with sliding sash 413 427 sidewall 427 of space 423 (i.e. in the separation first of the second housing 405 in space 403 and second).Sidewall 427 is also provided with the Bidirectional interlocking delivery window 428 in space 423 in space in connection first 403 and second.Bidirectional interlocking delivery window 428 for intravenous administration to be deployed is transmitted into space 423 in second, and for the intravenous administration of having allocated is passed out space 423 in second.Like this, the intravenous administration that the allotment spread out of through Bidirectional interlocking delivery window 428 completes can be sent to the position being close to drug district 479 in first in space, so that drug by conveyer belt 415.Alternatively, conveyer belt 415 can also extend to the 3rd module 471 the 3rd in space 473, such as extend to (not shown) in drug district 479.

Second module 421 comprises two twice dressing rooms 441,442 (each twice dressing room comprises a dressing room and a secondary dressing room respectively) and two intravenous administration allotment rooms 443,444.Wherein, twice dressing room 441,442 is communicated with space in first 403 with 430 respectively by the opening 429 on sidewall 427, thus allow allotment personnel can enter into twice dressing room 441 and 442 from space 403 in first, and then enter into intravenous administration allotment room 443 and 444.Allotment personnel can allocate harmfulness intravenous pharmacy and non-harmfulness intravenous pharmacy respectively in intravenous administration allotment room 443 and 444, and the intravenous administration of having allocated are spread out of respectively by Bidirectional interlocking delivery window 428.

Can find out, the compact in design of the portable intravenous administration mixing system 400 shown in Fig. 8, takes full advantage of the space of modules inside.In addition, the circulation route of intravenous administration allotment is also simplified, and it substantially increases drug delivery and allotment efficiency.

Below each embodiment of the application is exemplarily described by reference to the accompanying drawings.Those skilled in the art's content disclosed in this manual can be expected easily, docking mode disclosed in each embodiment between each module and combination can suitably adjust according to actual needs, and suitably can adjust the kind of equipment in each module, quantity and layout, and the spirit of the application can not be departed from.

The those skilled in the art of the art can by this manual of research and accompanying drawing and appending claims, understands and implements to change other of the embodiment disclosed.In the claims, word " comprises " element and step of not getting rid of other, and wording " one ", " one " do not get rid of plural number.In practical application of the present invention, the function of the multiple technical characteristics quoted during a parts possibility enforcement of rights requires.Any Reference numeral in claim should not be construed as restriction on its scope.

Claims (53)

1. a portable intravenous administration mixing system, is characterized in that, comprising:

First module, described first module has first housing in space in restriction first, and described first housing has the first connector being positioned at the first wall; And

Second module, described second module has second housing in space in restriction second, wherein, described second module is prefabricated unit, and the size of wherein said second housing is less than the size of described first housing, thus described second housing is made to move into by described first connector or to shift out described first housing.

2. portable intravenous administration mixing system according to claim 1, is characterized in that, described portable intravenous administration mixing system also comprises the 3rd module formed by flap, and wherein said flap folds in described first housing pivotly.

3. portable intravenous administration mixing system according to claim 1, it is characterized in that, described portable intravenous administration mixing system also comprises: carriage, for connecting described first housing and described second housing slidably, move between stowed position and expanded position to make described second housing; In described stowed position, described second housing is incorporated in described first housing; And at described expanded position, described second housing is moved out of described first housing.

4. portable intravenous administration mixing system according to claim 3, it is characterized in that, the wall adjacent with described first wall of described first housing is provided with the second connector, described carriage is configured to two way sliding apparatus, and described two way sliding apparatus is moved into for guiding described second housing by described first connector or the second connector or shifted out described first housing.

5. portable intravenous administration mixing system according to claim 3, it is characterized in that, described second housing has the second wall in the face of described first housing, described second wall is provided with opening, wherein when described second housing is in described expanded position, the opening that in described first, space is allowed through on described second wall is communicated with space in described second.

6. portable intravenous administration mixing system according to claim 5, is characterized in that, when described second housing is in described expanded position, described first connector and described second housing are closed airtightly and coupled together.

7. portable intravenous administration mixing system according to claim 1, it is characterized in that, described first housing has rectangular shape, described first connector is arranged on length side or the width side of described first housing, thus makes described second housing to enter from the length side of described first housing or width sidesway or to shift out.

8. portable intravenous administration mixing system according to claim 1, it is characterized in that, described first housing and described second housing all have rectangular shape, described first connector is arranged on end or the middle part of described first housing, thus make described second housing can be formed by shifting out from described first housing L shape arrange or landing tee put.

9. portable intravenous administration mixing system according to claim 1, it is characterized in that, one in described first housing and described second housing has rectangular shape and another has square shape, described first connector is arranged on end or the middle part of described first housing, thus make described second housing can be formed by shifting out from described first housing L shape arrange or landing tee put.

10. portable intravenous administration mixing system according to claim 1, it is characterized in that, the wall of described first housing is also provided with one or more additional opening, described first module is connected with one or more add-on module by described additional opening, when described first module does not connect add-on module, described one or more additional opening is closed airtightly.

11. portable intravenous administration mixing systems according to claim 1, it is characterized in that, the wall of described second housing is also provided with one or more additional opening, described second module is connected with one or more add-on module by described additional opening, when described second module does not connect add-on module, described one or more additional opening is closed airtightly.

12. portable intravenous administration mixing systems according to claim 2, it is characterized in that, the flap of described 3rd module also comprises one or more additional opening, described 3rd module is connected with one or more add-on module by described additional opening, when described 3rd module does not connect add-on module, described one or more additional opening is closed airtightly.

13. portable intravenous administration mixing systems according to claim 1, it is characterized in that, described first housing and/or described second housing also comprise one or more material opening, described material opening is constructed to allow material to pass through, and moves into allow material or shifts out in described first that in space and/or second space.

14. portable intravenous administration mixing systems according to claim 1, is characterized in that, in described second, the cleanliness factor in the region at least partially in space is equal to or higher than the ISO 8 grades of ISO 14644-1 standard.

15. portable intravenous administration mixing systems according to claim 1, it is characterized in that, described second housing has the opening be positioned on the second wall, by described in described opening in second space be allowed to be communicated with space in described first, wherein said second module has the first functional compartments and the second functional compartments that are arranged in described second housing, between the opening of described first functional compartments on described second wall and described second functional compartments.

16. portable intravenous administration mixing systems according to claim 15, is characterized in that, described first functional compartments has a dressing room adjacent with the opening on described second wall, and the secondary dressing room adjacent with described second functional compartments.

17. portable intravenous administration mixing systems according to claim 16, is characterized in that, the cleanliness factor of a described dressing room is equal to or higher than the ISO 8 grades of ISO 14644-1 standard.

18. portable intravenous administration mixing systems according to claim 16, is characterized in that, the cleanliness factor of described secondary dressing room is equal to or higher than the ISO 7 grades of ISO 14644-1 standard.

19. portable intravenous administration mixing systems according to claim 15, it is characterized in that, described first functional compartments comprises dressing room.

20. portable intravenous administration mixing systems according to claim 19, it is characterized in that, described first functional compartments comprises wind shower device.

21. portable intravenous administration mixing systems according to claim 15, is characterized in that, described second functional compartments comprises intravenous administration allotment room.

22. portable intravenous administration mixing systems according to claim 15, is characterized in that, the air pressure of described first functional compartments is lower than the air pressure of described second functional compartments.

23. portable intravenous administration mixing systems according to claim 15, is characterized in that, described second functional compartments comprises the first intravenous administration allotment room and the second intravenous administration allotment room.

24. portable intravenous administration mixing systems according to claim 23, it is characterized in that, described first intravenous administration allotment room is disposed for processing non-harmfulness intravenous administration, and described second intravenous administration allotment room is disposed for process harmfulness intravenous administration.

25. portable intravenous administration mixing systems according to claim 24, is characterized in that, described first intravenous administration allotment room is adjacent with described first functional compartments.

26. portable intravenous administration mixing systems according to claim 24, is characterized in that, described second functional compartments comprises allocates surge chamber between room in described first intravenous administration allotment room and described second intravenous administration.

27. portable intravenous administration mixing systems according to claim 24, is characterized in that, described first intravenous administration allotment room comprises horizontal laminar flow clean bench.

28. portable intravenous administration mixing systems according to claim 27, is characterized in that, the cleanliness factor of described horizontal laminar flow clean bench is equal to or higher than the ISO 5 grades of ISO 14644-1 standard.

29. portable intravenous administration mixing systems according to claim 28, it is characterized in that, described horizontal laminar flow clean bench is fixed in described second housing.

30. portable intravenous administration mixing systems according to claim 29, is characterized in that, described horizontal laminar flow clean bench is fixed in sidewall and/or the bottom surface of described second housing.

31. portable intravenous administration mixing systems according to claim 24, is characterized in that, described second intravenous administration allotment room comprises Biohazard Safety Equipment.

32. portable intravenous administration mixing systems according to claim 31, is characterized in that, described Biohazard Safety Equipment is fixed in the sidewall of described second housing, bottom surface and/or end face.

33. portable intravenous administration mixing systems according to claim 24, is characterized in that, described first intravenous administration allocates the air pressure of indoor air pressure higher than its outside.

34. portable intravenous administration mixing systems according to claim 24, is characterized in that, described second intravenous administration allocates the air pressure of indoor air pressure lower than its outside.

35. portable intravenous administration mixing systems according to claim 1, it is characterized in that, described second module has air filter, for filtering the air flowing into or flow out described second housing.

36. portable intravenous administration mixing systems according to claim 1, it is characterized in that, described first module comprises the 3rd functional area being positioned at described first housing, and wherein said 3rd functional area is configured to allow operating personnel check prescription wherein and distribute intravenous administration.

37. portable intravenous administration mixing systems according to claim 36, it is characterized in that, described first module also comprises the 4th functional area, and described 4th functional area is configured to for depositing material.

38. portable intravenous administration mixing systems according to claim 36, it is characterized in that, described first module also comprises the five-function region for training purpose being arranged in described first housing.

39. portable intravenous administration mixing systems according to claim 1, is characterized in that, described portable intravenous administration mixing system also comprises conveyer, and described conveyer is used for transmitting material between described first module and described second module.

40., according to portable intravenous administration mixing system according to claim 39, is characterized in that, described conveyer comprises the Bidirectional interlocking delivery window being communicated with described first module and described second module.

41. according to portable intravenous administration mixing system according to claim 39, it is characterized in that, described portable intravenous administration mixing system also comprises the 3rd module formed by flap, wherein said flap folds in described first housing pivotly, and described conveyer is disposed in described first module, transmits material between described second module and described 3rd module.

42. portable intravenous administration mixing systems according to claim 1, is characterized in that, on the wall of described first housing and the second housing or the inside of described first housing and the second housing is provided with translucent construction, and wherein said translucent construction is made up of implosion guard.

43. portable intravenous administration mixing systems according to claim 2, is characterized in that, the described flap of described 3rd module is provided with translucent construction, and wherein said translucent construction is made up of implosion guard.

44. portable intravenous administration mixing systems according to claim 42 or 43, it is characterized in that, described translucent construction is covered with rupture pressure disc.

45. portable intravenous administration mixing systems according to claim 1, is characterized in that, described portable intravenous administration mixing system also comprises air handling system, and described air handling system is for regulating and controlling the air regime in space in described second.

46. portable intravenous administration mixing systems according to claim 45, is characterized in that, described air handling system comprises primary air and regulates unit and dedicated air to regulate unit.

47. portable intravenous administration mixing systems according to claim 46, is characterized in that, described dedicated air regulate unit be configured to described primary air regulate unit can not by described first in the air regime in space maintain predetermined extent time start.

48. portable intravenous administration mixing systems according to claim 3, it is characterized in that, described second housing has the second wall in the face of described first housing, described second wall is provided with opening, wherein when described second housing is in described expanded position, the opening that in described first, space is allowed through on described second wall is communicated with space in described second.

49. portable intravenous administration mixing systems according to claim 48, it is characterized in that, described second module has the first functional compartments and the second functional compartments that are arranged in described second housing, between the opening of wherein said first functional compartments on described second wall and described second functional compartments.

50. portable intravenous administration mixing systems according to claim 49, is characterized in that, described first functional compartments has a dressing room adjacent with the opening on described second wall, and the secondary dressing room adjacent with described second functional compartments.

51. portable intravenous administration mixing systems according to claim 50, it is characterized in that, described second functional compartments comprises the first intravenous administration allotment room and the second intravenous administration allotment room, wherein, described first intravenous administration allotment room is disposed for processing non-harmfulness intravenous administration, and described second intravenous administration allotment room is disposed for process harmfulness intravenous administration.

52. portable intravenous administration mixing systems according to claim 51, it is characterized in that, described first module comprises the 3rd functional area and the 4th functional area that are positioned at described first housing, wherein said 3rd functional area is configured to allow operating personnel check prescription wherein and distribute intravenous administration, and described 4th functional area is configured to for depositing material.

53. portable intravenous administration mixing systems according to claim 52, it is characterized in that, described first housing and/or described second housing also comprise one or more material opening, described material opening is constructed to allow material to pass through, and moves into allow material or shifts out in described first that in space and/or second space.