CN110784387A - Method for realizing distributed intelligent physiotherapy system - Google Patents

Abstract

The invention discloses a method for realizing a distributed intelligent physical therapy system, which comprises a central console, a distributed expandable bus system, a distributed node control unit and a user access regulator, wherein the central console receives a user control instruction monitoring signal output through a user interface and generates a distributed node control unit control signal according to system customization parameters; the distributed extensible bus can be connected in series and extended in parallel to form a regional extensible link to achieve regional user access and is connected with all the distributed node control units; the distributed node control unit completes the driving, buffering, transmission, distribution and regeneration of serial bus signals; after each distributed node control unit receives the distributed extensible bus signals, various control instructions and service signals are analyzed according to the regenerated bus signals, the distributed node control units are controlled to complete service signal output and fault isolation functions, and the user access regulator provides an access service port and an independent and autonomous regulation function for users.

Description

Method for realizing distributed intelligent physiotherapy system

Technical Field

The invention relates to a novel distributed intelligent physiotherapy system, in particular to a realization method of a novel distributed intelligent physiotherapy system platform.

Background

In the similar products used by people at present, because the operation mode of the products is mainly individual use or fixed channel centralized use, the scale of users cannot be dynamically expanded, and low-cost, self-adaptive, standardized, centralized management and high-quality service with high cost performance cannot be simultaneously and synchronously provided for space users in networked distribution.

With the arrival of social development and aging, a high-quality service system platform with large-area coverage, networking, low cost, self-adaption, standardization, centralized management and high cost performance is put forward around two core requirements of disease prevention and health promotion, and is a problem which needs to be solved urgently by the basic health guarantee business of the current socialized group.

Disclosure of Invention

In order to achieve the purpose, the invention provides the following technical scheme: a distributed intelligent physiotherapy system implementation method comprises a central console, a distributed expandable bus system, a distributed node control unit and a user access regulator, wherein the central console receives a user control instruction through a user interface, generates specific parameters according to service requirements, and controls a synthesis generator to generate a service output signal; generating control signals of distributed node control units according to specific parameters, wherein the distributed node control units are connected in series through bus signals to form a regional extensible link to realize regional user access and complete driving, buffering, transmission, distribution and regeneration of the serial bus signals; the regional expandable link is distributed and expanded in parallel through the combination of the distributed expandable bus system, after each distributed node control unit receives the distributed expandable bus signal, various control instructions and service signals are analyzed according to the regenerated bus signal, the distributed node control units are controlled to complete service signal output and fault isolation functions, and the user access regulator provides an access service port and an independent and autonomous regulation function for a user.

As a preferred technical scheme of the invention, the central console adopts a control cabinet, a control cabinet and a wall-hung cabinet mode.

As a preferred technical scheme of the invention, the central console is provided with a system signal quality real-time monitoring management station.

As a preferred technical scheme of the invention, the distributed intelligent physiotherapy system has the dynamic expansion capability of system scale, capacity and distribution, and has the distributed access, centralized control and user independent regulation capability.

As a preferred technical scheme of the invention, the distributed intelligent physiotherapy system is expanded in parallel through a serial bus, and the distributed intelligent physiotherapy system can flexibly cut the scale of the system and customize the distribution of the access array according to the number and the spatial distribution of users.

As a preferred technical scheme of the invention, the expandable modules used by the distributed intelligent physical therapy system are dynamically configured, are fixedly installed in the form of equipment belts, wire grooves and the like, and customize the distributed expandable bus system according to the number of users and the spatial distribution, and the number and the connection relation of distributed node control units.

As a preferred technical scheme of the invention, the expandable module of the distributed intelligent physical therapy system is laid by using equipment belts and wire grooves, and the laying modes comprise trench laying, wall laying, ground laying, overhead laying, concealed wire groove laying, ground wire groove laying or exposed wire groove laying.

As a preferred technical scheme of the invention, the distributed intelligent physical therapy system is customized by combining different wiring modes through comprehensive design.

As a preferred technical scheme of the invention, the user access regulator is connected with the system in the form of a cable through a wire duct, an overhead wire and a ground ditch wire; the cable laying mode of the user access regulator access cable comprises a wire groove, an open wire, an overhead hanger rod, a sliding rail hanger rod, a sliding rod, a telescopic rod, a folding frame, a hand cradle, a lifting frame, a landing gear and a ground frame; the wiring groove laying mode of the user access regulator access cable comprises a trench laying mode, a wall laying mode, a ground laying mode, an overhead laying mode, a concealed wiring groove laying mode, a ground wiring groove laying mode or an exposed wiring groove laying mode; the user access interface mode of the user access regulator comprises equipment belt access, slot access, wall insertion access, ground insertion access, standard 86 panel access and customized control box access.

Compared with the prior art, the invention provides a method for realizing a distributed intelligent physiotherapy system, which has the following beneficial effects:

1. the invention can flexibly cut and customize the quantity of the distributed node control units according to the scale of the system, when the scale of the user group changes, the system synchronously implements dynamic customization conveniently and flexibly, and the implementation cost of the system is effectively controlled;

2. the invention solves the problem of signal quality standardization in long-distance transmission, fully ensures the consistency of the dosage and effect of each node, and ensures that large-scale system service is more effective and more stable;

3. the invention is provided with the networking access and the self-adaptive configuration service of the user group with the complex space structure;

4. the distributed expandable bus system can be connected in series and in parallel, is flexible in networking, and is suitable for the condition of large-space distribution of users when a large-scale system is applied;

5. in the invention, the distributed node control units are better isolated, and the units are independently and independently regulated without mutual interference;

6. the invention has complete centralized management, real-time inspection and exception handling functions, and the system platform is safer.

Drawings

FIG. 1 is a schematic structural view of the present invention;

in the figure: 1. a central console; 2. a distributed extensible bus system; 3. a distributed node control unit; 4. the subscriber accesses the regulator.

Detailed Description

Referring to fig. 1, the present invention provides a technical solution: a distributed intelligent physiotherapy system implementation method comprises a central console 1, a distributed expandable bus system 2, a distributed node control unit 3 and a user access regulator 4, wherein the central console 1 receives a user control instruction monitoring signal output through a user interface, and generates a distributed node control unit 3 control signal according to system customization parameters; the distributed extensible bus system 2 is connected in series and extended in parallel through a bus to form a regional extensible link to realize regional user networked layout and access, and is connected with all the distributed node control units 3; the distributed node control unit 3 completes the driving, buffering, transmission, distribution and regeneration of serial bus signals; regional scalable link is through the parallel extension of distributed scalable bus system 2 combination distribution, realizes user's crowd's networked layout and access, every distributed node control unit 3 receives behind the scalable bus signal of distributed, analyzes out various control command and service signal according to the bus signal after the regeneration, controls distributed node control unit 3 and accomplishes service signal output and fault isolation function, user access regulator 4 provides access service port and independent autonomic regulatory function for the user, can effectively deal with various service environment tests.

In this embodiment, the central console 1 adopts a control cabinet, a control cabinet and a wall-hung cabinet, so that networking is convenient.

In this embodiment, the central console 1 has a system signal quality real-time monitoring management station.

In this embodiment, the distributed intelligent physiotherapy system has dynamic expansion capability of system scale, capacity and distribution, and the distributed intelligent physiotherapy system has distributed access, centralized control and user independent adjustment capability, and can provide distributed, standardized, synchronous and independent services for each user of the user group.

In this embodiment, the distributed intelligent physiotherapy system realizes networked access by parallel expansion through a serial bus, and the distributed intelligent physiotherapy system can flexibly tailor the system scale and customize access array distribution according to the number and spatial distribution of users, so as to realize networked access of spatially distributed user groups.

In this embodiment, the scalable modules used by the distributed intelligent physiotherapy system are dynamically configured, and are installed and fixed in the form of equipment belts, wire slots, and the like, and the number and connection relationship of the distributed scalable bus system 2 and the distributed node control units 3 are customized according to the number and spatial distribution of users.

In this embodiment, the expandable modules of the distributed intelligent physiotherapy system are laid using the equipment belts and the trunking, and the laying modes include trench laying, wall laying, ground laying, overhead laying, concealed trunking laying, ground trunking laying or exposed trunking laying, so as to realize distributed networking.

In this embodiment, the distributed intelligent physiotherapy system is customized by combining different wiring modes through comprehensive design, and the purpose of fast networking of the user access modules in complex spatial distribution is achieved.

In this embodiment, the subscriber access regulator 4 is connected to the system in the form of a cable through a wire duct, an overhead wire, and a trench wire; the cable laying mode of the user access regulator 4 is a wire groove, an open wire, an overhead suspender, a sliding rail suspender, a sliding rod, a telescopic rod, a folding frame, a hand cradle, a lifting frame, a landing gear and a ground frame; the wiring groove laying mode of the user access regulator 4 for accessing the cable comprises a trench laying mode, a wall laying mode, a ground laying mode, an overhead laying mode, a concealed wiring groove laying mode, a ground wiring groove laying mode or an exposed wiring groove laying mode; the user access regulator 4 has the user access interface modes of equipment belt access, slot access, wall insertion access, ground insertion access, standard 86 panel access and customized control box access, so that the effects of nearby access and distributed networking are achieved.

The invention provides a novel distributed intelligent physical therapy system platform implementation method which flexibly cuts the scale of a system, dynamically customizes networked access array distribution and is implemented by rapid comprehensive wiring according to the number and spatial distribution of users.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art can substitute or change the technical solution of the present invention and the inventive concept within the technical scope of the present invention, and the technical solution and the inventive concept thereof should be covered by the scope of the present invention.

Claims (9)

1. A distributed intelligent physiotherapy system implementation method comprises a central console (1), a distributed extensible bus system (2), a distributed node control unit (3) and a user access regulator (4), and is characterized in that the central console (1) receives a user control instruction through a user interface, generates specific parameters according to service requirements, and controls and monitors a synthesis generator to generate a service output signal; generating control signals of a distributed node control unit (3) according to specific parameters, wherein the distributed node control unit (3) is connected in series through bus signals to form a regional extensible link to realize regional user access and complete driving, buffering, transmission, distribution and regeneration of the serial bus signals; the regional extensible link is combined, distributed and parallelly extended through a distributed extensible bus system (2), after each distributed node control unit (3) receives a distributed extensible bus signal, various control instructions and service signals are analyzed according to the regenerated bus signal, the distributed node control units (3) are controlled to complete service signal output and fault isolation functions, and the user access regulator (4) provides an access service port and an independent and autonomous regulating function for a user.

2. The method for implementing the distributed intelligent physical therapy system according to claim 1, wherein the central console (1) adopts a control cabinet, a control cabinet and a wall-hung cabinet.

3. The method for implementing the distributed intelligent physiotherapy system according to claim 1, wherein the central console (1) is provided with a system signal quality real-time monitoring management station.

4. The method of claim 1, wherein the distributed intelligent physiotherapy system has dynamic expansion capability of system scale, capacity and distribution, and distributed access, centralized control and user independent adjustment capability.

5. The method of claim 1, wherein the distributed intelligent physiotherapy system is extended in parallel via a serial bus, and the distributed intelligent physiotherapy system can flexibly scale the system and customize the access array distribution according to the number of users and the spatial distribution.

6. The method for implementing the distributed intelligent physiotherapy system according to claim 1, wherein the expandable modules used by the distributed intelligent physiotherapy system are dynamically configured, installed and fixed in the form of equipment belts, trunking and the like, and the number and connection relationship of the distributed node control units (3) and the distributed expandable bus system (2) are customized according to the number and spatial distribution of users.

7. The method of claim 1, wherein the expandable modules are installed with equipment strips and trunking, and the installation is trench installation, wall installation, ground installation, overhead installation, hidden trunking installation, ground trunking installation, or open trunking installation.

8. The method of claim 1, wherein the distributed intelligent physiotherapy system is customized by combining different wiring methods through comprehensive design.

9. A distributed intelligent physiotherapy system realization method according to claim 1, characterized by that, the user access regulator (4) is connected with the system by cable through the form of wire channel, overhead wire, ground ditch wire; the cable laying mode of the user access regulator (4) access is a wire groove, an open wire, an overhead suspender, a slide rail suspender, a slide rod, a telescopic rod, a folding frame, a hand cradle, a lifting frame, a landing gear and a ground frame; the wiring groove laying mode of the user access regulator (4) for accessing the cable comprises a trench laying mode, a wall laying mode, a ground laying mode, an overhead laying mode, a concealed wiring groove laying mode, a ground wiring groove laying mode or an exposed wiring groove laying mode; the user access regulator (4) has the user access interface modes of equipment belt access, slot access, wall insertion access, ground insertion access, standard 86 panel access and customized control box access.