CN111312380A - Hospital bed configuration monitoring system and monitoring method - Google Patents
Hospital bed configuration monitoring system and monitoring method Download PDFInfo
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- CN111312380A CN111312380A CN202010110159.4A CN202010110159A CN111312380A CN 111312380 A CN111312380 A CN 111312380A CN 202010110159 A CN202010110159 A CN 202010110159A CN 111312380 A CN111312380 A CN 111312380A
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- G16H40/00—ICT specially adapted for the management or administration of healthcare resources or facilities; ICT specially adapted for the management or operation of medical equipment or devices
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- G16—INFORMATION AND COMMUNICATION TECHNOLOGY [ICT] SPECIALLY ADAPTED FOR SPECIFIC APPLICATION FIELDS
- G16H—HEALTHCARE INFORMATICS, i.e. INFORMATION AND COMMUNICATION TECHNOLOGY [ICT] SPECIALLY ADAPTED FOR THE HANDLING OR PROCESSING OF MEDICAL OR HEALTHCARE DATA
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Abstract
The invention discloses a hospital bed configuration monitoring system and a monitoring method. The hospital bed configuration monitoring system is provided with a bed configuration server, a data concentrator and a hospital terminal; the hospital terminal comprises a medical staff operating module, a management setting module and a bed information acquisition module; the medical staff operation module, the management setting module and the bed information acquisition module respectively send data to the data concentrator, and the data concentrator forwards the data to the bed configuration server; and the bed configuration server gives a bed allocation suggestion to the bed according to the acquired data. The invention ensures that the bed management and distribution are more scientific and the efficiency is higher.
Description
Technical Field
The invention belongs to the field of medical control systems and control methods, and particularly relates to a hospital bed configuration monitoring system and a monitoring method.
Background
With the increasing economic level, the demand of people for medical conditions is continuously rising, and people hope to enjoy superior medical conditions after suffering from diseases. Many hospitals, especially hospitals in large cities, face a situation that patients are seen and the hospitals are difficult to see.
Through the knowledge of the hospitalization condition of the hospital patients, the following problems exist in the current hospitals: firstly, bed management is disordered, limited beds are not allocated to patients who need beds more, and the current medical system cannot automatically and comprehensively judge who the patients who need beds more; secondly, for part of the patients distributed to the bed, the body recovery condition of the patients can be improved, the change of the disease condition reduces the requirement degree of the patients on hospitalization, and the medical system does not know the condition in time; thirdly, different seasons have different external conditions such as weather conditions, the number of patients in different departments is constantly changed, and the system is required to reasonably allocate the beds in different departments according to different seasons.
Disclosure of Invention
Aiming at the defects in the prior art, the invention provides a hospital bed configuration monitoring system and a monitoring method.
The invention provides a hospital bed configuration monitoring system, which is provided with a bed configuration server, a data concentrator and a hospital terminal; the hospital terminal comprises a medical staff operating module, a management setting module and a bed information acquisition module;
the medical staff operation module is connected with a doctor operation end and a nurse operation end; a doctor gives out a hospitalization suggestion value according to the state of illness of a patient, and the doctor inputs the hospitalization suggestion value through the doctor operation terminal; a nurse checks whether the patient is in a bed every day, records the in-place condition of the patient, and inputs the in-place condition into the system through a nurse operating end;
the management setting module is used for inputting a seasonal variation constant, wherein the seasonal variation constant is set according to seasonal variation and is set according to different seasons and different numbers of patients in departments;
the bed information acquisition module is connected with an on-position condition acquisition module and a patient request information module, the on-position condition acquisition module is respectively connected to each bed, and the on-position condition acquisition module automatically acquires the on-position condition of a patient at the bed; acquiring information of a patient requesting to be hospitalized and distributing beds through the patient request information module;
the medical staff operation module, the management setting module and the bed information acquisition module respectively send data to the data concentrator, and the data concentrator forwards the data to the bed configuration server;
and the bed configuration server gives a bed allocation suggestion to the bed according to the acquired data.
Preferably, the bed configuration server, the data concentrator and the hospital terminal communicate with each other in a wireless manner.
Preferably, the bed configuration server is connected with a database for storing the bed data.
Meanwhile, the invention also provides a hospital bed configuration monitoring method, which is applied to the hospital bed configuration monitoring system and comprises the following steps:
step 1: acquiring information of a patient requesting to be hospitalized and allocating beds through a patient request information module, selecting requirements of different degrees by the patient, and generating a patient request parameter R by a system according to the requirements of the patient;
step 2: the in-place situation of a patient on a bed is automatically acquired through an in-place situation acquisition module, and a patient in-place parameter T is generated according to the in-place situation of the patient; setting the in-situ parameter T of a patient who is not hospitalized to be the highest value;
and step 3: setting a seasonal parameter S through the management setting module;
and 4, step 4: a doctor gives out a hospitalization suggestion value H according to the state of illness of a patient, and the doctor inputs the hospitalization suggestion value through the doctor operation terminal;
and 5: a nurse checks whether the patient is in a bed every day, records the in-place condition of the patient, inputs the in-place condition into the system through a nurse operation end, and verifies the data of the in-place condition acquisition module through the nurse operation end;
step 6: sending the patient request parameter R, the patient in-place parameter T, the seasonal parameter S and the hospitalization recommendation value H to a bed configuration server through a data concentrator;
and 7: the bed configuration server evaluates the current bed information and obtains a congestion parameter Y according to the current number of beds;
and 8: the bed configuration server calculates a hospitalization value M of the patient according to the parameters, wherein M is (H + S + T R)/Y;
and step 9: ranking the sizes of the patient hospitalizations M such that patients with a greater value of M are prioritized in bed assignment.
Preferably, the patient selects requirements of different degrees, and the system generates a patient request parameter R according to the patient requirements, specifically: the higher the patient's hospitalization needs, the larger the patient request parameter R value generated.
Preferably, the generating of the patient in-position parameter T according to the patient in-position condition specifically includes: detecting the in-place state of the patient, counting the ratio of the time of the patient in the bed to the time of the patient in the whole day, and generating the in-place parameter T of the patient according to the ratio.
Preferably, when the time length that the patient is not in the bed continuously is longer than the first time length, the patient is judged to leave the bed.
Preferably, the seasonal parameter S is set by the management setting module, and the setting frequency is updated at least once per month.
Preferably, after the step 9, the generated patient hospitalization value M data is sent to the nurse operation terminal, so that the nurse operation terminal confirms the patient hospitalization value M data.
Preferably, the method further comprises storing the generated patient hospitalization value M data in a database.
Compared with the prior art, the invention can make the bed management and distribution more scientific, has higher efficiency and realizes the automatic identification of patients needing beds; the invention can also monitor the state of the patient and adjust the bed allocation according to the body recovery condition and the change of the state of the patient; meanwhile, aiming at external conditions such as different weather conditions and the like in different seasons and the continuous change of the number of patients in different departments, the distribution of beds in different departments is reasonably allocated.
Drawings
Fig. 1 is a schematic structural view of a hospital bed configuration monitoring system.
Detailed Description
The invention is further illustrated by the following figures and examples.
The first embodiment is as follows:
as shown in fig. 1, a hospital bed configuration monitoring system has a bed configuration server, a data concentrator and a hospital terminal; the hospital terminal comprises a medical staff operating module, a management setting module and a bed information acquisition module;
the medical staff operation module is connected with a doctor operation end and a nurse operation end; a doctor gives out a hospitalization suggestion value according to the state of illness of a patient, and the doctor inputs the hospitalization suggestion value through the doctor operation terminal; a nurse checks whether the patient is in a bed every day, records the in-place condition of the patient, and inputs the in-place condition into the system through a nurse operating end; the doctor operating end and the nurse operating end are respectively provided with a display screen and operating keys.
The management setting module is used for inputting a seasonal variation constant, wherein the seasonal variation constant is set according to seasonal variation and is set according to different seasons and different numbers of patients in departments; external conditions affecting patient data may be set as a reference to a seasonal variation constant, for example, a time schedule in which a change in weather due to seasonal variation may cause a high incidence of certain diseases, a holiday, etc. may also be a factor affecting the number of patients.
The bed information acquisition module is connected with an on-position condition acquisition module and a patient request information module, the on-position condition acquisition module is respectively connected to each bed, and the on-position condition acquisition module automatically acquires the on-position condition of a patient at the bed; acquiring information of a patient requesting to be hospitalized and distributing beds through the patient request information module;
the medical staff operation module, the management setting module and the bed information acquisition module respectively send data to the data concentrator, and the data concentrator forwards the data to the bed configuration server;
and the bed configuration server gives a bed allocation suggestion to the bed according to the acquired data. Further adjustments may be made in conjunction with manual means to achieve optimal bed allocation with respect to the above recommendations.
The bed configuration server, the data concentrator and the hospital terminal are communicated in a wireless mode.
The bed configuration server is connected with a database and used for storing the bed data.
Example two:
the invention also provides a hospital bed configuration monitoring method, which is applied to the hospital bed configuration monitoring system and comprises the following steps:
acquiring information of a patient requesting to be hospitalized and allocating beds through a patient request information module, selecting requirements of different degrees by the patient, and generating a patient request parameter R by a system according to the requirements of the patient;
the in-place situation of a patient on a bed is automatically acquired through an in-place situation acquisition module, and a patient in-place parameter T is generated according to the in-place situation of the patient; setting the in-situ parameter T of a patient who is not hospitalized to be the highest value;
setting a seasonal parameter S through the management setting module;
a doctor gives out a hospitalization suggestion value H according to the state of illness of a patient, and the doctor inputs the hospitalization suggestion value through the doctor operation terminal;
a nurse checks whether the patient is in a bed every day, records the in-place condition of the patient, inputs the in-place condition into the system through a nurse operation end, and verifies the data of the in-place condition acquisition module through the nurse operation end;
sending the patient request parameter R, the patient in-place parameter T, the seasonal parameter S and the hospitalization recommendation value H to a bed configuration server through a data concentrator;
the bed configuration server evaluates the current bed information and obtains a congestion parameter Y according to the current number of beds;
the bed configuration server calculates a hospitalization value M of the patient according to the parameters, wherein M is (H + S + T R)/Y;
ranking the sizes of the patient hospitalizations M such that patients with a greater value of M are prioritized in bed assignment.
The patient selects requirements of different degrees, and the system generates a patient request parameter R according to the patient requirements, which specifically comprises the following steps: the higher the patient's hospitalization needs, the larger the patient request parameter R value generated.
The generating of the patient in-position parameter T according to the patient in-position condition specifically comprises the following steps: detecting the in-place state of the patient, counting the ratio of the time of the patient in the bed to the time of the patient in the whole day, and generating the in-place parameter T of the patient according to the ratio.
And when the time length that the patient is not in the bed continuously is longer than the first time length, judging that the patient leaves the bed.
The seasonal parameters S are set through the management setting module, and the set frequency is updated at least once per month.
After the step, the generated patient hospitalization value M data is sent to the nurse operation terminal, so that the nurse operation terminal confirms the patient hospitalization value M data.
The method also includes storing the generated patient hospitalization value M data in a database.
The above description is only exemplary of the present invention and should not be taken as limiting, and any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.
Claims (10)
1. A hospital bed configuration monitoring system is characterized by comprising a bed configuration server, a data concentrator and a hospital terminal; the medical terminal comprises a medical staff operating module, a management setting module and a bed information acquisition module;
the medical staff operation module is connected with a doctor operation end and a nurse operation end; a doctor gives out a hospitalization suggestion value according to the state of illness of a patient, and the doctor inputs the hospitalization suggestion value through the doctor operation terminal; a nurse checks whether the patient is in a bed every day, records the in-place condition of the patient, and inputs the in-place condition into the system through a nurse operating end;
the management setting module is used for inputting a seasonal variation constant, wherein the seasonal variation constant is set according to seasonal variation and is set according to different seasons and different numbers of patients in departments;
the bed information acquisition module is connected with an on-position condition acquisition module and a patient request information module, the on-position condition acquisition module is respectively connected to each bed, and the on-position condition acquisition module automatically acquires the on-position condition of a patient at the bed; acquiring information of a patient requesting to be hospitalized and distributing beds through the patient request information module;
the medical staff operation module, the management setting module and the bed information acquisition module respectively send data to the data concentrator, and the data concentrator forwards the data to the bed configuration server;
and the bed configuration server gives a bed allocation suggestion to the bed according to the acquired data.
2. The hospital bed configuration monitoring system according to claim 1, wherein the bed configuration server, the data concentrator and the hospital terminal communicate wirelessly.
3. The hospital bed configuration monitoring system according to claim 1, wherein the bed configuration server is connected with a database for storing bed data.
4. A hospital bed configuration monitoring method applied to the hospital bed configuration monitoring system described in any one of claims 1 to 3, comprising the steps of:
step 1: acquiring information of a patient requesting to be hospitalized and allocating beds through a patient request information module, selecting requirements of different degrees by the patient, and generating a patient request parameter R by a system according to the requirements of the patient;
step 2: the in-place situation of a patient on a bed is automatically acquired through an in-place situation acquisition module, and a patient in-place parameter T is generated according to the in-place situation of the patient; setting the in-situ parameter T of a patient who is not hospitalized to be the highest value;
and step 3: setting a seasonal parameter S through the management setting module;
and 4, step 4: a doctor gives out a hospitalization suggestion value H according to the state of illness of a patient, and the doctor inputs the hospitalization suggestion value through the doctor operation terminal;
and 5: a nurse checks whether the patient is in a bed every day, records the in-place condition of the patient, inputs the in-place condition into the system through a nurse operation end, and verifies the data of the in-place condition acquisition module through the nurse operation end;
step 6: sending the patient request parameter R, the patient in-place parameter T, the seasonal parameter S and the hospitalization recommendation value H to a bed configuration server through a data concentrator;
and 7: the bed configuration server evaluates the current bed information and obtains a congestion parameter Y according to the current number of beds;
and 8: the bed configuration server calculates a hospitalization value M of the patient according to the parameters, wherein M is (H + S + T R)/Y;
and step 9: ranking the sizes of the patient hospitalizations M such that patients with a greater value of M are prioritized in bed assignment.
5. The hospital bed configuration monitoring method according to claim 4, wherein the patient selects requirements of different degrees, and the system generates a patient request parameter R according to the patient requirements, specifically: the higher the patient's hospitalization needs, the larger the patient request parameter R value generated.
6. The hospital bed configuration monitoring method according to claim 4, wherein the generating of the patient in-place parameter T according to the patient in-place situation specifically comprises: detecting the in-place state of the patient, counting the ratio of the time of the patient in the bed to the time of the patient in the whole day, and generating the in-place parameter T of the patient according to the ratio.
7. The hospital bed configuration monitoring method according to claim 6, wherein the patient is determined to leave the bed when the length of time that the patient is continuously out of the bed is longer than the first length of time.
8. The hospital bed configuration monitoring method according to claim 4, wherein the seasonal parameter S is set by the management setting module with a setting frequency of updating at least once per month.
9. The hospital bed configuration monitoring method according to claim 4, after the step 9, the generated patient hospitalization value M data is transmitted to the nurse operation terminal, so that the nurse operation terminal confirms the patient hospitalization value M data.
10. The hospital bed configuration monitoring method of claim 4, further comprising storing the generated patient hospitalization value M data in a database.
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CN117196349A (en) * | 2023-11-02 | 2023-12-08 | 中国人民解放军总医院第三医学中心 | Inpatient bed information intelligent management system |
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CN117196349A (en) * | 2023-11-02 | 2023-12-08 | 中国人民解放军总医院第三医学中心 | Inpatient bed information intelligent management system |
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