CN204147352U - Numeral sick bed infusion monitoring system - Google Patents

Abstract

A kind of digital sick bed infusion monitoring system, comprise transfusion monitoring instrument, ward bedhead terminal, lesion monitor terminal and nursing station, transfusion monitoring instrument comprises main control unit, weighing unit, tube for transfusion grip unit, electric-motor drive unit and communication unit, the actuating station of tube for transfusion grip unit is held on the both sides of tube for transfusion, the operation that tube for transfusion grip unit clamps tube for transfusion or unclamps under the driving of electric-motor drive unit; Weight signal to judge medicinal liquid surplus, and is sent to main control unit by the weight change of weighing unit Real-Time Monitoring transfusion bag or infusion bottle; Main control unit is connected with ward bedhead terminal by communication unit, ward bedhead terminal is connected with lesion monitor terminal and/or nursing station through network, by its sending controling instruction through ward bedhead terminal to main control unit, by main control unit, electric-motor drive unit is controlled.This utility model have structure simple, be convenient to management and operation, can the advantages such as quantitative transfusion be realized.

Description

Numeral sick bed infusion monitoring system

Technical field

This utility model is mainly concerned with automatic control type medical equipment field, refers in particular to a kind of digital sick bed infusion monitoring system.

Background technology

At present, known most of hospital is when carrying out infusion treatment to sufferer, and the general mode adopting personal monitoring, namely sufferer or medical personnel are by artificial medicinal liquid surplus of observing in transfusion bag or infusion bottle, complete and change dressings or terminate transfusion.The shortcoming of this mode is just, sufferer or medical personnel often can cause because of human error the situation changing dressings or terminate to infuse not in time, and then have influence on the treatment of sufferer.

For this reason, have practitioner to propose a kind of infusion alarm, its principle is when transfusion is near completion, and sends warning reminding sufferer or medical personnel.This infusion alarm only has the function that infusion-completed carries out reporting to the police, and function is very single, and it does not possess the function of control, and therefore it still has the following disadvantages: 1, can not stop to occur above-mentionedly change dressings or terminate the situation of infusing not in time from root; 2, can not carry out centralized Control, nursing staff can not arrange the break tour time on one's own initiative, may cause that transfusion work is unordered to be carried out like this, can not alleviate the operating pressure of nursing staff, such as point at one time, and multiple client need is changed dressings; 3, owing to not possessing network function, therefore nursing staff just can only see for current transfusion speed and transfusion remaining time to the transfusion monitoring instrument of this locality, infusion information can not be understood in time, add nursing staff's idle work, make nursing staff's work efficiency drop; 4, do not possess database function, namely for different patients, different situations, transfusion speed and amount of infusion are all operate with the experience of nursing staff, do not have unified data.5, quantitative transfusion can not be realized.

Utility model content

The technical problems to be solved in the utility model is just: the technical problem existed for prior art, and this utility model provides the digital sick bed infusion monitoring system that a kind of structure is simple, be convenient to manage and operate, can realize quantitative transfusion.

For solving the problems of the technologies described above, this utility model by the following technical solutions:

A kind of digital sick bed infusion monitoring system, comprise transfusion monitoring instrument, ward bedhead terminal, lesion monitor terminal and nursing station, described transfusion monitoring instrument comprises main control unit, weighing unit, tube for transfusion grip unit, electric-motor drive unit and communication unit, the actuating station of described tube for transfusion grip unit is held on the both sides of tube for transfusion, the operation that described tube for transfusion grip unit clamps tube for transfusion or unclamps under the driving of electric-motor drive unit; Weight signal to judge medicinal liquid surplus, and is sent to main control unit by the weight change of described weighing unit Real-Time Monitoring transfusion bag or infusion bottle; Described main control unit is connected with ward bedhead terminal by communication unit, described ward bedhead terminal is carried out communication through network with lesion monitor terminal and/or nursing station and is connected, described lesion monitor terminal and/or nursing station sending controling instruction, are controlled electric-motor drive unit to main control unit by described main control unit through ward bedhead terminal.

As further improvement of the utility model: described transfusion monitoring instrument also comprises LCD display unit, be used for knowing the transfusion remaining time of display in real time and transfusion speed confession sufferer or medical personnel.

As further improvement of the utility model: described transfusion monitoring instrument also comprises push-button unit, be used for the setting of parameter preset in transfusion monitoring instrument.

As further improvement of the utility model: described transfusion monitoring instrument also comprises local upgrade unit and Energy control and detecting unit.

As further improvement of the utility model: also comprise server, described server is connected with ward bedhead terminal, nursing station by gateway and network.

As further improvement of the utility model: described transfusion monitoring instrument and ward bedhead terminal carry out communication by bluetooth, between described ward bedhead terminal and lesion monitor terminal, adopt ethernet communication.

As further improvement of the utility model: described transfusion monitoring instrument is directly fixed near sick bed by infusion support.

Compared with prior art, the utility model has the advantage of:

1, digital sick bed infusion monitoring system of the present utility model has lesion monitor terminal, present infusion progress can be regulated on lesion monitor terminal, thus the break tour time can be arranged on one's own initiative, transfusion work can be made like this to carry out in order, thus alleviate nursing staff's operating pressure, promote nursing staff's work efficiency, remove the digital sick bed infusion monitoring system because of the conflict between doctors and patients that nursing staff is few and the unordered concentrated outburst of transfusion work brings.

2, digital sick bed infusion monitoring system of the present utility model has lesion monitor terminal, can centralized displaying lesion present infusion state, and avoiding nursing staff needs to come patient and just can know transfusion state by the side of.

3, transfusion monitoring instrument and ward bedhead terminal carry out communication by bluetooth, and what adopt between ward bedhead terminal and lesion monitor terminal is ethernet communication, can improve the stability of communication like this.

4, transfusion monitoring instrument and ward bedhead terminal carry out communication by bluetooth, and make installation, easy construction on the one hand, on the other hand, improve the extensibility of product, namely sick bed bedside terminal can carry out communication with other bluetooth equipments of subsequent development.

5, digital sick bed infusion monitoring system of the present utility model uses server as large database concept, store a large amount of data volumes, namely play the advantage of virtual instrument, to different patients, the transfusion speed of different situations carries out storing and analyzing, for transfusion next time provides rational reference data.

6, digital sick bed infusion monitoring system of the present utility model adopts high-precision LOAD CELLS to carry out weight measurement, in conjunction with electrode drive unit and programme-control, can realize quantitative transfusion.

Accompanying drawing explanation

Fig. 1 is structural framing principle schematic of the present utility model.

Fig. 2 is the structural framing principle schematic of transfusion monitoring instrument in this utility model.

Marginal data:

1, transfusion monitoring instrument; 101, main control unit; 102, weighing unit; 103, electric-motor drive unit; 104, communication unit; 105, LCD display unit; 106, push-button unit; 107, local upgrade unit; 108, Energy control and detecting unit; 2, ward bedhead terminal; 3, lesion monitor terminal; 4, nursing station; 5, server; 6, gateway; 7, infusion support.

Detailed description of the invention

Below with reference to Figure of description and specific embodiment, this utility model is described in further details.

As depicted in figs. 1 and 2, digital sick bed infusion monitoring system of the present utility model, comprise transfusion monitoring instrument 1, ward bedhead terminal 2, lesion monitor terminal 3 and nursing station 4, this transfusion monitoring instrument 1 comprises main control unit 101(MCU main control unit), weighing unit 102, tube for transfusion grip unit (not shown), electric-motor drive unit 103 and communication unit 104(are as bluetooth communication unit), the actuating station of tube for transfusion grip unit is held on the both sides of tube for transfusion, tube for transfusion grip unit under the driving of electric-motor drive unit 103 to the operation that tube for transfusion clamps or unclamps, the weight change of weighing unit 102 Real-Time Monitoring transfusion bag or infusion bottle is to judge medicinal liquid surplus, and weight signal is sent to main control unit 101, main control unit 101 is connected with ward bedhead terminal 2 by communication unit 104, ward bedhead terminal 2 through network (such as, Ethernet) carry out communication with lesion monitor terminal 3 and/or nursing station 4 and be connected, lesion monitor terminal 3 and/or nursing station 4 sending controling instruction, through ward bedhead terminal 2 to main control unit 101, are controlled by main control unit 101 pairs of electric-motor drive units 103.

After adopting said structure, lesion monitor terminal 3 and nursing station 4 all can regulate present infusion progress in real time, thus can arrange the break tour time on one's own initiative, transfusion work can be made like this to carry out in order, thus alleviate nursing staff's operating pressure.Lesion monitor terminal 3 and nursing station 4 all can centralized displaying lesion present infusion states, and avoiding nursing staff needs to come patient and just can know transfusion state by the side of.This just changes in the past all infusion management patterns, makes all transfusions control to include on entirety, orderly control sequence.

In the present embodiment, transfusion monitoring instrument 1 can further include LCD display unit 105, push-button unit 106, local upgrade unit 107 and Energy control and detecting unit 108, LCD display unit 105 can be used in real time display transfusion remaining time and transfusion speed and know for sufferer or medical personnel, and push-button unit 106 has been used for the setting of parameter preset in transfusion monitoring instrument 1.Local upgrade unit 107 has been used for the optimization and upgrading of transfusion monitoring instrument 1, and Energy control and detecting unit 108 are used for ensureing the normal work of transfusion monitoring instrument 1.

In the present embodiment, server 5 is set further, server 5 is connected with ward bedhead terminal 2, nursing station 4 by gateway 6 and network, server 5 can also be used as large database concept simultaneously, store a large amount of data volumes, namely play the advantage of virtual instrument: to different patients, the transfusion speed of different situation carries out storing and analyzing, for transfusion next time provides rational reference data.

In the present embodiment, transfusion monitoring instrument 1 and ward bedhead terminal 2 carry out communication by bluetooth, and what adopt between ward bedhead terminal 2 and lesion monitor terminal 3 is ethernet communication, can improve the stability of communication like this.

In the present embodiment, transfusion monitoring instrument 1 is directly fixed near sick bed by infusion support 7, transfusion monitoring instrument 1 and ward bedhead terminal 2 carry out communication by bluetooth, make installation, easy construction on the one hand, on the other hand, because Bluetooth protocol support primary module can carry out communication with multiple from module, therefore improve the extensibility of product, namely ward bedhead terminal 2 can carry out communication with other bluetooth equipments of subsequent development.Infusion support 7 both can vertically be installed, and also can use with the support equipped that hangs on sky, ward rail.

In the present embodiment, weighing unit 102 can adopt high-precision LOAD CELLS to carry out weight measurement, in conjunction with electric-motor drive unit 103 and programme-control, namely when measured value is consistent with preset value, by the driving of electric-motor drive unit 103, tube for transfusion grip unit pinch off tube for transfusion stopping infusion, thus realize quantitative transfusion.In the particular embodiment, transfusion speed can also be calculated and infuse remaining time, lesion monitor terminal 3 completes.

Below be only preferred implementation of the present utility model, protection domain of the present utility model be not only confined to above-described embodiment, all technical schemes belonged under this utility model thinking all belong to protection domain of the present utility model.It should be pointed out that for those skilled in the art, not departing from the some improvements and modifications under this utility model principle prerequisite, protection domain of the present utility model should be considered as.

Claims (7)

1. a digital sick bed infusion monitoring system, it is characterized in that, comprise transfusion monitoring instrument (1), ward bedhead terminal (2), lesion monitor terminal (3) and nursing station (4), described transfusion monitoring instrument (1) comprises main control unit (101), weighing unit (102), tube for transfusion grip unit, electric-motor drive unit (103) and communication unit (104), the actuating station of described tube for transfusion grip unit is held on the both sides of tube for transfusion, described tube for transfusion grip unit under the driving of electric-motor drive unit (103) to the operation that tube for transfusion clamps or unclamps, weight signal to judge medicinal liquid surplus, and is sent to main control unit (101) by the weight change of described weighing unit (102) Real-Time Monitoring transfusion bag or infusion bottle, described main control unit (101) is connected with ward bedhead terminal (2) by communication unit (104), described ward bedhead terminal (2) is carried out communication through network with lesion monitor terminal (3) and/or nursing station (4) and is connected, described lesion monitor terminal (3) and/or nursing station (4) sending controling instruction, are controlled electric-motor drive unit (103) to main control unit (101) by described main control unit (101) through ward bedhead terminal (2).

2. digital sick bed infusion monitoring system according to claim 1, is characterized in that, described transfusion monitoring instrument (1) also comprises LCD display unit (105), is used for knowing the transfusion remaining time of display in real time and transfusion speed confession sufferer or medical personnel.

3. digital sick bed infusion monitoring system according to claim 1, is characterized in that, described transfusion monitoring instrument (1) also comprises push-button unit (106), has been used for the setting of parameter preset in transfusion monitoring instrument (1).

4. digital sick bed infusion monitoring system according to claim 1, is characterized in that, described transfusion monitoring instrument (1) also comprises local upgrade unit (107) and Energy control and detecting unit (108).

5. according to the digital sick bed infusion monitoring system in Claims 1 to 4 described in any one, it is characterized in that, also comprise server (5), described server (5) is connected with ward bedhead terminal (2), nursing station (4) by gateway (6) and network.

6. according to the digital sick bed infusion monitoring system in Claims 1 to 4 described in any one, it is characterized in that, described transfusion monitoring instrument (1) and ward bedhead terminal (2) carry out communication by bluetooth, adopt ethernet communication between described ward bedhead terminal (2) and lesion monitor terminal (3).

7. according to the digital sick bed infusion monitoring system in Claims 1 to 4 described in any one, it is characterized in that, described transfusion monitoring instrument (1) is directly fixed near sick bed by infusion support (7).