CN215135008U - Sharing wearable blood transfusion infusion heating system - Google Patents

Abstract

The utility model relates to a sharing wearable blood transfusion infusion heating system, include: the intelligent heating system comprises a combined control unit, an intelligent terminal and a plurality of heating modules; the combination control unit includes: the combined control unit comprises a shell, a charging communication interface and a bar code module, wherein the charging communication interface is arranged on the shell and used for charging communication between the plurality of heating modules and the combined control unit; the bar code module is used for scanning a code by the intelligent terminal so as to obtain the use permission of the heating module; the combination control unit is used for receiving the code scanning operation information of the intelligent terminal, selecting the usable heating modules according to the code scanning operation information of the intelligent terminal so that a user can take the usable heating modules and record the heating information of the usable heating modules, and charging the plurality of heating modules. The utility model discloses can provide and use along with the module of heating of usefulness for the user, do not need specific support, net power etc. do not have the requirement to installation and service environment, can satisfy clinical a large amount of demands.

Description

Sharing wearable blood transfusion infusion heating system

Technical Field

The utility model relates to a medical device equipment field, more specifically say, relate to a sharing wearable blood transfusion infusion system of heating.

Background

Blood transfusion and fluid infusion (hereinafter, collectively referred to as fluid infusion) are widely applied to clinical rehabilitation and treatment, during the fluid infusion, a large amount of fluid enters the body of a patient from the outside (a fluid bottle or a fluid bag) through a fluid infusion pipeline, the temperature of the fluid is usually low (especially through refrigerated blood liquid medicine), and cold, tingling and distending pain of limbs of the patient often occur, and symptoms such as cold tremor, vasospasm and the like occur in serious cases. This is especially true in colder seasons and regions. Therefore, the liquid medicine needs to be heated in the infusion process, so that the body temperature of the patient can be effectively prevented from being reduced, the mental state of the patient can be improved, various complications can be eliminated, the pain of the patient can be relieved, and the recovery of the patient can be promoted.

At present, a plurality of blood transfusion and infusion warmers are also available in the market for solving the problems, the required temperature can be automatically adjusted, and the purpose of infusion warming and heat preservation is achieved. In a word, the used blood transfusion and infusion warmer is difficult to meet the clinical extensive requirements, and the user experience is to be improved.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model lies in, to prior art's above-mentioned defect, a sharing wearable blood transfusion heating system is provided.

The utility model provides a technical scheme that its technical problem adopted is: constructing a shared wearable transfusion infusion warming system comprising: the intelligent heating system comprises a combined control unit, an intelligent terminal and a plurality of heating modules;

the combination control unit includes: the heating module comprises a shell, a charging communication interface and a bar code module, wherein the charging communication interface is arranged on the shell and used for charging and communicating the plurality of heating modules and the combined control unit;

the bar code module is used for scanning a code by the intelligent terminal so as to obtain the use permission of the heating module; the combination control unit is used for receiving the code scanning operation information of the intelligent terminal, selecting an available heating module according to the code scanning operation information of the intelligent terminal, enabling a user to take the available heating module, recording the heating information of the available heating module, and conducting charging and charging management on the multiple heating modules.

Wherein, still include: a cloud server in communication connection with the combination control unit;

and the cloud server receives the charging information and the heating information uploaded by the combined control unit and stores or displays the charging information and the heating information.

Wherein the combination control unit includes:

the main control unit is connected with the charging communication interface and used for selecting an available heating module according to code scanning operation information of the intelligent terminal and according to the code scanning operation information and recording heating information of the available heating module;

and the switching power supply is connected with the main control unit and the charging communication interface and is used for providing electric energy for the heating module through the charging communication interface according to the control of the main control unit.

Wherein the combination control unit further comprises:

and the reminding module is connected with the main control unit and used for outputting a reminding signal.

Wherein the combination control unit further comprises:

and the communication module is connected with the main control unit and is used for communicating the combined control unit and the cloud server.

Wherein the combination control unit further comprises:

and the display unit is connected with the main control unit and is used for displaying information.

Wherein each of the warming modules comprises: the heating unit, with the heating unit is connected and is used for detecting the temperature of heating unit and output temperature detection signal's temperature detection module, with temperature detection module with the control unit that the heating unit is connected, and with the interface module that the control unit is connected.

Wherein each of the warming modules further comprises: and the display module is connected with the control unit and used for displaying the heating information of the heating unit.

Wherein each of the warming modules further comprises:

the storage module is connected with the control unit and used for storing the information of the warming module;

the alarm module is connected with the control unit and used for outputting alarm information;

and the energy storage module is connected with the interface module and the control unit and is used for outputting electric energy.

Wherein the heating unit includes: the liquid inlet joint and the liquid outlet joint are connected with the heating module and are separately arranged.

Wherein, the heating module includes: the heating device comprises a heating module, a liquid warming film arranged in the heating module and a liquid pipeline arranged in the liquid warming film;

one end of the liquid pipeline is connected with the liquid inlet joint, and the other end of the liquid pipeline is connected with the liquid outlet joint, so that liquid in the liquid pipeline flows into the liquid pipeline from the liquid inlet joint and flows out from the liquid outlet joint.

Implement the utility model discloses a sharing wearable blood transfusion heating system has following beneficial effect: the method comprises the following steps: the intelligent heating system comprises a combined control unit, an intelligent terminal and a plurality of heating modules; the combination control unit includes: the combined control unit comprises a shell, a charging communication interface and a bar code module, wherein the charging communication interface is arranged on the shell and used for charging communication between the plurality of heating modules and the combined control unit; the bar code module is used for scanning a code by the intelligent terminal so as to obtain the use permission of the heating module; the combination control unit is used for receiving the code scanning operation information of the intelligent terminal, selecting the usable heating modules according to the code scanning operation information of the intelligent terminal so that a user can take the usable heating modules and record the heating information of the usable heating modules, and charging the plurality of heating modules. The utility model discloses can provide and use along with the module of heating of usefulness for the user, do not need specific support, net power etc. do not have the requirement to installation and service environment, can satisfy clinical a large amount of demands.

Drawings

The invention will be further explained with reference to the drawings and examples, wherein:

fig. 1 is a schematic block diagram of a shared wearable transfusion warming system provided by an embodiment of the present invention;

fig. 2 is a schematic block diagram of a warming module provided in an embodiment of the present invention;

fig. 3 to fig. 6 are schematic structural diagrams of a first heating module according to an embodiment of the present invention;

fig. 7 is a schematic structural diagram of a second heating module according to an embodiment of the present invention;

Detailed Description

In order to clearly understand the technical features, objects, and effects of the present invention, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

Referring to fig. 1, fig. 1 is a schematic block diagram of a shared wearable transfusion warming system provided by the present invention.

As shown in fig. 1, the shared wearable transfusion warming system includes: a combination control unit 220, a smart terminal 180, and a plurality of warming modules 110.

The combination control unit 220 includes: the system comprises a shell, a charging communication interface 120 which is arranged on the shell and is used for charging and communicating a plurality of warming modules 110 and a combined control unit 220, and a bar code module arranged on the shell; the barcode module is used for scanning a barcode by the intelligent terminal 180 to obtain the use authority of the heating module 110; the combination control unit 220 is configured to receive the code scanning operation information of the smart terminal 180, select the available warming module 110 according to the code scanning operation information of the smart terminal 180, allow a user to take the available warming module 110, record warming information of the available warming module 110, and perform charging and charging management on the plurality of warming modules 110.

The shared wearable transfusion infusion warming system may provide multiple warming modules 110. Wherein, a plurality of warming modules 110 can be taken by the user. A plurality of card slots are provided on the housing for the plurality of warming modules 110 to be inserted and connected with the charging communication interface 120.

In some embodiments, the barcode module includes, but is not limited to, one-dimensional codes, two-dimensional codes.

Specifically, when a user (which may be a medical worker or a non-medical worker) has a use requirement, the user scans the barcode module through the intelligent terminal 180 carried by the user, and inputs a use request (i.e., code scanning operation information) after scanning, and sends the input code scanning operation information to the combination control unit 220, after the combination control unit 220 receives the code scanning operation information, whether an available warming module 110 exists in the plurality of warming modules 110 is detected, and if so, the corresponding available warming module 110 is controlled to perform available display to inform the user, and meanwhile, the use permission of the available warming module 110 is sent to the intelligent terminal 180, so that the user can take the available warming module 110 according to the use permission. Meanwhile, the combination control unit 220 starts to record the warming information of the usable warming module 110 after the usable warming module 110 is taken away by the user.

In some embodiments, the charging communication interface 120 is connected to the warming modules 110 for providing charging power and communication to the warming modules 110, that is, the charging communication interface 120 can provide charging power to the warming modules 110, and meanwhile, signal transmission can be completed. Further, the charging communication interface 120 may also identify each warming module 110 of the plurality of warming modules 110, for example, identify whether each warming module 110 is taken away for use by a user, or whether it is returned to the home position, etc.

In some embodiments, the shared wearable transfusion warming system further comprises: a cloud server 170 communicatively connected to the combination control unit 220; the cloud server 170 receives the charging information and the warming information uploaded by the combination control unit 220 and stores or displays the charging information and the warming information. The cloud server 170 can realize information interconnection and sharing of the plurality of warming modules 110.

In some embodiments, the combination control unit 220 further comprises: the main control unit 130 is connected with the charging communication interface 120 and is used for selecting the usable warming module 110 according to the code scanning operation information of the intelligent terminal 180 and the code scanning operation information and recording the usable warming information of the usable warming module 110; and a switching power supply 190 connected to the main control unit 130 and the charging communication interface 120, for supplying power to the warming module 110 through the charging communication interface 120 according to the control of the main control unit 130.

In some embodiments, the combination control unit 220 further comprises: and the reminding module 140 is connected with the main control unit 130 and used for outputting reminding signals. Optionally, the reminder module 140 includes, but is not limited to, a voice module, a sound and light module, a vibration module, and the like. The reminder module 140 can be used to implement a fault reminder, an overtime reminder, and the like.

Further, in some embodiments, the voice module may be an existing conventional voice module, and the present invention is not limited in particular. The acousto-optic module includes but is not limited to an LED lamp, an audible and visual alarm and the like. The vibration module may employ an existing conventional vibration module. The utility model is not limited in detail.

In some embodiments, the combination control unit 220 further comprises: and a communication module 160 connected to the main control unit 130 for the combination control unit 220 to communicate with the cloud server 170. Optionally, the communication module 160 includes, but is not limited to, 4G/5G, WIFI, ZigBee, LoRa, NB-IoT, bluetooth, etc.; the interconnection and sharing are realized by connecting the cloud server 170 through a wire or a wireless connection. Further, the medical care center can be connected through the communication module 160.

In some embodiments, the combination control unit 220 further comprises: and a display unit 150 connected to the main control unit 130 for displaying information. Specifically, the display unit 150 is used for displaying information such as electric quantity information, usage time, charging status, and warming information of the plurality of warming modules 110. Optionally, the display unit 150 includes, but is not limited to, an LCD display screen, an LED display screen, an OLED display screen, a flexible display screen, a digital tube, and the like.

In some embodiments, the main control unit 130 includes a central processing unit, which may be implemented by a single chip or an ARM processor. The main control unit 130 is configured to control operations of the modules, and is capable of controlling the switching power supply 190 to charge the heating module 110 that needs to be charged, and also performing charging management on the heating module 110 that is being charged and implementing charging protection, such as overheat protection, overcurrent protection, and overvoltage protection (when the phenomena of overheat, overcurrent, overvoltage and the like occur, the switching power supply 190 is controlled to stop outputting, the heating module 110 is stopped being charged, and the purpose of charging protection is achieved). Further, the main control unit 130 can also interface with the HIS system or the CIS system of the hospital through the communication module 160, complete the fee record of the use of the warming module 110, and upload the fee record to the HIS system or the CIS system.

The combined control unit 220 can be placed on a desktop, a corner and the like, can be directly placed for use, and does not need to be installed; alternatively, in some other embodiments, the combination control unit 220 may be mounted by a bracket or attached to other medical equipment, and the present invention is not limited in particular, and may be selected and determined according to the actual application requirements.

As shown in fig. 2, in some embodiments, each warming module 110 includes: the heating apparatus includes a heating unit 210, a temperature detection module 260 connected to the heating unit 210 for detecting a temperature of the heating unit 210 and outputting a temperature detection signal, a control unit 220 connected to the temperature detection module 260 and the heating unit 210, and an interface module 280 connected to the control unit 220.

In some embodiments, each warming module 110 further comprises: and a display module 240 connected to the control unit 220 for displaying heating information of the heating unit 210.

Optionally, the temperature detecting module 260 may employ a temperature sensor, or an existing conventional temperature detecting circuit, and the temperature of the warming module 110 may be detected in real time by the temperature detecting module 260.

Optionally, the display module 240 is configured to display heating information of the heating unit 210 in real time, such as displaying a heating temperature in real time. The display module 240 includes, but is not limited to, an LCD display module 240, an LED display module 240, an OLED display module 240, and a flexible display module 240.

Optionally, the control unit 220 comprises a Microprocessor (MCU).

In some embodiments, each warming module 110 further comprises: and a storage module 250 connected to the control unit 220 for storing information of the warming module 110. The storage module 250 is further configured to store the preset address of the heating module 110, so as to identify the identity of the heating module 110 and perform fee settlement.

In some embodiments, each warming module 110 further comprises: and an alarm module 230 connected to the control unit 220 for outputting alarm information. The alarm module 230 may be used to output alarm information when the warming module 110 fails. Optionally, the alarm module 230 includes, but is not limited to, a buzzer, a speaker, etc.

In some embodiments, each warming module 110 further comprises: and the energy storage module 270 is connected with the interface module 280 and the control unit 220 and used for outputting electric energy. Specifically, when the warming module 110 is taken away by a user and used to charge the smart device of the user, the energy storage module 270 provides corresponding power. Optionally, the energy storage module 270 includes, but is not limited to, a rechargeable battery.

In some embodiments, the interface module 280 includes a charging interface and an external interface. The charging interface is used for connecting the warming module 110 and the charging communication interface 120, so as to complete charging and communication between the warming module 110 and the combination control unit 220. The external interface is used for the warming module 110 to provide power to the smart device. Optionally, the external interface may be a USB interface.

Referring to fig. 3 to fig. 7, the structure of the heating module 110 according to various embodiments of the present invention is schematically illustrated.

Fig. 3 to 6 are schematic structural diagrams of the first embodiment, and fig. 7 is a schematic structural diagram of the second embodiment.

As shown in fig. 3 to 7, the heating unit 210 includes: the heating device comprises a heating module 2101 for generating heat, a liquid inlet joint 2102 and a liquid outlet joint 2103 which are connected with the heating module 2101 and are arranged separately.

Wherein, heating module 2101 includes: a heating module 21011, a liquid warming film 21012 provided in the heating module 21011, and a liquid pipe 21013 built in the liquid warming film 21012.

Alternatively, the liquid warming membrane 21012 may be horizontal or vertical. Further, the liquid warming film 21012 is an integral structure with the liquid pipe 21013. In the first embodiment, the liquid pipe 21013 is S-shaped, and in the second embodiment, the liquid pipe 21013 is U-shaped.

As shown in fig. 3, 6 and 7, one end of the liquid pipeline 21013 is connected to the liquid inlet joint 2102, and the other end is connected to the liquid outlet joint 2103, so that the liquid in the liquid pipeline flows into the liquid pipeline 21013 from the liquid inlet joint 2102 and flows out through the liquid outlet joint 2103.

Fig. 5 is a schematic structural diagram of a first embodiment of the heating module 21011.

As shown in fig. 6, in order to thin the liquid, a special-shaped structure (such as an S-shape, but it is also possible to use a net shape, a more dense stripe, etc.) may be adopted, so that the liquid is in contact with the heating module 21011 as large as possible, thereby improving the heating efficiency. Of course, it is understood that a heating element structure (i.e. the liquid warming film 21012) with a large heat conduction area may be adopted, for example, a wide and flat heating element may be adopted to increase the thermal contact area and improve the heating efficiency.

Alternatively, the heating module 21011 may employ a heat-generating metal block, including but not limited to an aluminum block, a carbon fiber heating wire, a heating net, or other lightweight carbon wires/rods, etc.

As shown in fig. 7, the heating module 21011 may be made as a cuff type, such as being worn on an arm; or the head-wearing type is convenient for head transfusion heating; or the finger sleeve is sleeved on the finger of a patient, for example, so as to facilitate the hand back transfusion heating.

As can be appreciated, the combination control unit 220 gives a cost of use after the warming infusion is completed and the user replaces the warming module 110 in the card slot. The user can complete payment in a code scanning mode, and can also complete payment in a medical insurance card, a bank card and other modes.

The above embodiments are only for illustrating the technical concept and features of the present invention, and the purpose of the embodiments is to enable people skilled in the art to understand the contents of the present invention and implement the present invention accordingly, which can not limit the protection scope of the present invention. All equivalent changes and modifications made within the scope of the claims of the present invention shall fall within the scope of the claims of the present invention.

Claims (11)

1. A shared wearable transfusion infusion warming system, comprising: the intelligent heating system comprises a combined control unit, an intelligent terminal and a plurality of heating modules;

the combination control unit includes: the heating module comprises a shell, a charging communication interface and a bar code module, wherein the charging communication interface is arranged on the shell and used for charging and communicating the plurality of heating modules and the combined control unit;

the bar code module is used for scanning a code by the intelligent terminal so as to obtain the use permission of the heating module; the combination control unit is used for receiving the code scanning operation information of the intelligent terminal, selecting an available heating module according to the code scanning operation information of the intelligent terminal, enabling a user to take the available heating module, recording the heating information of the available heating module, and conducting charging and charging management on the multiple heating modules.

2. The shared wearable transfusion infusion warming system of claim 1, further comprising: a cloud server in communication connection with the combination control unit;

and the cloud server receives the charging information and the heating information uploaded by the combined control unit and stores or displays the charging information and the heating information.

3. The shared wearable transfusion warming system of claim 2, wherein the combined control unit comprises:

the main control unit is connected with the charging communication interface and used for selecting an available heating module according to code scanning operation information of the intelligent terminal and according to the code scanning operation information and recording heating information of the available heating module;

and the switching power supply is connected with the main control unit and the charging communication interface and is used for providing electric energy for the heating module through the charging communication interface according to the control of the main control unit.

4. The shared wearable transfusion warming system of claim 3, wherein the combined control unit further comprises:

and the reminding module is connected with the main control unit and used for outputting a reminding signal.

5. The shared wearable transfusion warming system of claim 3, wherein the combined control unit further comprises:

and the communication module is connected with the main control unit and is used for communicating the combined control unit and the cloud server.

6. The shared wearable transfusion warming system of claim 3, wherein the combined control unit further comprises:

and the display unit is connected with the main control unit and is used for displaying information.

7. The shared wearable transfusion warming system of claim 1, wherein each of the warming modules comprises: the heating unit, with the heating unit is connected and is used for detecting the temperature of heating unit and output temperature detection signal's temperature detection module, with temperature detection module with the control unit that the heating unit is connected, and with the interface module that the control unit is connected.

8. The shared wearable transfusion warming system of claim 7, wherein each of the warming modules further comprises: and the display module is connected with the control unit and used for displaying the heating information of the heating unit.

9. The shared wearable transfusion warming system of claim 7, wherein each of the warming modules further comprises:

the storage module is connected with the control unit and used for storing the information of the warming module;

the alarm module is connected with the control unit and used for outputting alarm information;

and the energy storage module is connected with the interface module and the control unit and is used for outputting electric energy.

10. The shared wearable transfusion infusion heating system of claim 7, wherein the heating unit comprises: the liquid inlet joint and the liquid outlet joint are connected with the heating module and are separately arranged.

11. The shared wearable transfusion infusion heating system of claim 10, wherein the heating module comprises: the heating device comprises a heating module, a liquid warming film arranged in the heating module and a liquid pipeline arranged in the liquid warming film;

one end of the liquid pipeline is connected with the liquid inlet joint, and the other end of the liquid pipeline is connected with the liquid outlet joint, so that liquid in the liquid pipeline flows into the liquid pipeline from the liquid inlet joint and flows out from the liquid outlet joint.

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