CN211486269U - Heart postoperative multisource rehabilitation training area - Google Patents

Abstract

The utility model relates to a heart postoperative multisource rehabilitation training area, including elastic connection area, adjust and detain, main training ware, the auxiliary training ware, control the terminal, main training ware, the auxiliary training ware is totally two, main training ware, connect and constitute closed loop configuration through elastic connection area between the auxiliary training ware, and main training ware, coaxial distribution between the auxiliary training ware, control the terminal and pass through elastic connection area and main training ware, elastic connection area interconnect between the auxiliary training ware, and respectively with main training ware through the wire, auxiliary training ware electrical connection, and main training ware, the auxiliary training ware is parallelly connected each other, elastic connection area and main training ware, the auxiliary training ware, control between the terminal and buckle interconnect through adjusting between elastic connection area and the elastic connection area. This novel simple structure, it is nimble convenient to use, and the commonality is good, improvement postoperative wound surrounding tissue and heart blood circulation system's that can be very big biological activity, improvement heart postoperative wound healing and heart function recovery efficiency.

Description

Heart postoperative multisource rehabilitation training area

Technical Field

The utility model relates to a rehabilitation device, in particular to a multi-source rehabilitation training belt used after heart operation.

Background

The heart disease treatment through the operation means is an important treatment means for the current heart disease, but after the operation, when the heart disease treatment is currently used for promoting the heart function recovery and wound recovery operation, on one hand, the heart disease treatment is realized through medicine stimulation, on the other hand, the heart disease treatment is realized through the irradiation of high temperature by an infrared lamp and far infrared light wave stimulation, although the requirements of the heart disease postoperative recovery can be met to a certain extent, the efficiency of medicines reaching the focus part is low, and the medicine component concentration at the wound and the wound part of the focus part is often relatively low due to the human digestion, absorption and filter loss of a circulating system, so the heart disease recovery efficiency is promoted to; meanwhile, when the traditional infrared lamp is used for irradiation operation, the biological activity stimulation and activation capability on the peripheral nervous system, muscle, skin tissue and blood vessel circulation system of a focus part and a wound part of a patient is poor, so that the aim of improving the recovery efficiency of heart diseases cannot be effectively fulfilled.

Therefore, in order to meet the current situation, a brand-new heart disease rehabilitation training device needs to be developed urgently to meet the actual use requirement.

SUMMERY OF THE UTILITY MODEL

To the not enough that exists on the prior art, the utility model provides a heart postoperative multisource rehabilitation training area, this novel simple structure, it is nimble convenient to use, the commonality is good, can effectively satisfy the needs of different size patient heart postoperative rehabilitation operation, and can effectually detect the operation comprehensively to the undulant condition of patient postoperative rhythm of the heart on the one hand, on the other hand can carry out high temperature, the electric current, magnetic field and mechanical vibration are amazing to patient operation wound and heart peripheral blood vessel, musculature and nervous system, thereby very big improvement postoperative wound peripheral tissue and heart blood circulation system's biological activity, improve heart postoperative wound healing and heart function recovery efficiency.

In order to achieve the above purpose, the present invention is realized by the following technical solution:

the utility model provides a heart postoperative multisource rehabilitation training area, including elastic connection area, adjust and detain, main training ware, the auxiliary training ware, control the terminal, main training ware, the auxiliary training ware is totally two, main training ware, connect and constitute closed annular structure through elastic connection area between the auxiliary training ware, and main training ware, coaxial distribution between the auxiliary training ware, control the terminal and pass through elastic connection area and main training ware, elastic connection area interconnect between the auxiliary training ware, and respectively with main training ware through the wire, auxiliary training ware electrical connection, and main training ware, the auxiliary training ware is parallelly connected each other, elastic connection area and main training ware, the auxiliary training ware, control between the terminal and buckle interconnect through adjusting between elastic connection area and the elastic connection area.

Furthermore, the main trainer and the auxiliary trainer comprise a bearing frame, a bearing box, electrode patches, elastic contacts, elastic electrodes, an optical heart rate sensor, a temperature sensor, a galvanic skin response sensor, a wiring terminal, an electromagnetic massager, a far infrared radiation lamp and a detection circuit, wherein the cross section of the bearing frame is in a structure of a reversed-V-shaped groove, the lower end surface of the bearing frame is in sliding connection with a plurality of electrode patches through sliding grooves, the number of the elastic contacts is consistent with that of the electrode patches, the bearing box is embedded in the bottom of the bearing frame, each electrode patch is electrically connected with one elastic contact, the bearing box is in a closed cavity structure and is embedded in the bearing frame and coaxially distributed with the bearing frame, the bearing box is in sliding connection with the side wall of the bearing frame through the sliding grooves, the distance between the lower end surface of the bearing box and the bottom of the bearing frame is 0-3 mm, and the bottom of the bearing box, the elastic contact is abutted against and electrically connected with the elastic electrode, the bottom of the bearing box is provided with a detection table, the bottom of the bearing frame corresponding to the detection table is provided with a through hole, the detection table, the through hole, the bearing frame and the bearing box are coaxially distributed, the lower end surface of the detection table is distributed in parallel with the lower end surface of the bearing frame, the optical heart rate sensor, the temperature sensor and the pyroelectric reaction sensor are all embedded in the lower end surface of the detection table and distributed in parallel with the lower end surface of the detection table, the far infrared lamps are a plurality of and uniformly distributed on the lower end surface around the axis of the detection table, at least two electromagnetic massagers are embedded in the bearing box and symmetrically distributed by the axis of the bearing box, the detection circuit is embedded in the bearing box and is respectively electrically connected with the elastic electrode, the optical heart rate sensor, the temperature sensor, the pyroelectric reaction sensor, the wiring terminal, the wiring terminal is embedded in the side surface of the bearing box and is electrically connected with the control terminal through a wire.

Furthermore, the electrode patches are uniformly distributed around the axis of the detection table, the lower end faces of the electrode patches are 0-5 mm higher than the lower end face of the detection table, and the area of the lower end face of each electrode patch is not more than 10 square millimeters.

Furthermore, the through holes are in any one of a structure of a shape like the Chinese character 'ji' and a structure of a U-shaped groove, and the side surface of the detection platform corresponding to the wall of the through hole is provided with a sliding groove and is in sliding connection with the side surface of the detection platform through the sliding groove.

Further, control the terminal including bearing the weight of the shell, control circuit, storage battery, display, signal indicator, button and binding post, it is airtight cavity structures to bear the weight of the shell, control the circuit and inlay in bearing the weight of the shell to respectively with storage battery, display, signal indicator, button and binding post electrical connection, wherein storage battery is located and bears the weight of the shell, display, signal indicator all inlay in bearing the weight of the shell up end, binding post inlays in bearing the weight of shell side surface and through wire and main training ware, supplementary training ware electrical connection.

Furthermore, the detection circuit and the control circuit are circuit systems based on a single chip microcomputer.

This novel simple structure, it is nimble convenient to use, the commonality is good, can effectively satisfy the needs of different size patient heart postoperative rehabilitation operations, and can be effectual carry out comprehensive detection operation to the undulant condition of patient postoperative rhythm of the heart on the one hand, on the other hand can carry out high temperature, electric current, magnetic field and mechanical vibration stimulation to patient operation wound and peripheral blood vessel of heart, musculature and nervous system to very big improvement postoperative wound peripheral tissue and heart blood circulation system's biological activity improves heart postoperative wound healing and heart function recovery efficiency.

Drawings

The present invention will be described in detail with reference to the accompanying drawings and specific embodiments.

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

FIG. 2 is a schematic view of a partial structure of a main trainer and an auxiliary trainer;

FIG. 3 is a partial structural view of the lower end surface of the carrier frame;

fig. 4 is a schematic structural diagram of the control terminal.

Detailed Description

In order to make the technical means, creation features, achievement purposes and functions of the present invention easy to understand, the present invention is further described below with reference to the following embodiments.

As shown in figures 1-4, a multi-source rehabilitation training belt for heart operation comprises an elastic connecting belt 1, an adjusting buckle 2, a main trainer 3, an auxiliary trainer 4 and a control terminal 5, wherein the number of the main trainer 3 and the auxiliary trainer 4 is two, the main trainer 3 and the auxiliary trainer 4 are connected through the elastic connecting belt 1 to form a closed annular structure, the main trainer 3 and the auxiliary trainer 4 are coaxially distributed, the control terminal 5 is mutually connected with the elastic connecting belt 1 between the main trainer 3 and the auxiliary trainer 4 through the elastic connecting belt 1, and are respectively and electrically connected with the main trainer 3 and the auxiliary trainer 4 through leads 6, the main trainer 3 and the auxiliary trainer 4 are mutually connected in parallel, and the elastic connecting band 1 is mutually connected with the main trainer 3, the auxiliary trainer 4 and the control terminal 5 and the elastic connecting band 1 is mutually connected with the elastic connecting band 1 through the adjusting buckle 2.

It is important to point out that the main trainer 3 and the auxiliary trainer 4 comprise a bearing frame 101, a bearing box 102, electrode patches 103, elastic contacts 104, elastic electrodes 105, an optical heart rate sensor 106, a temperature sensor 107, a galvanic skin response sensor 108, a connecting terminal 109, an electromagnetic massager 100, a far infrared irradiation lamp 1001 and a detection circuit 1002, wherein the bearing frame 101 is in a structure with a cross section in a shape of a Chinese character 'ji' groove, the lower end surface of the bearing frame 101 is in sliding connection with a plurality of electrode patches 103 through a chute 1003, the number of the elastic contacts 104 is the same as that of the electrode patches 103, the bearing box 102 is in a closed cavity structure and is embedded in the bearing frame 101 and coaxially distributed with the bearing frame 101, and the bearing box 102 is in sliding connection with the side wall of the bearing frame 101 through a chute 1003, the distance between the lower end surface of the bearing box 102 and the bottom of the bearing frame 101 is 0-3 mm, the bottom of the bearing box 102 corresponding to the elastic contact 104 is provided with an elastic electrode 105, the elastic contact 104 is abutted against and electrically connected with the elastic electrode 105, the bottom of the bearing box 102 is provided with a detection table 1004, the bottom of the bearing frame 101 corresponding to the detection table 1004 is provided with a through hole 1005, the detection table 1004, the through hole 1005, the bearing frame 101 and the bearing box 102 are coaxially distributed, the lower end surface of the detection table 1004 is distributed in parallel and level with the lower end surface of the bearing frame 101, one optical heart rate sensor 106, one temperature sensor 107 and one electrodermal reaction sensor 108 are embedded in the lower end surface of the detection table 1004 and distributed in parallel and level with the lower end surface of the detection table 1004, a plurality of far infrared lamps 1001 are uniformly distributed on the lower end surface around the axis of the detection table 1004, at least two electromagnetic massagers 100 are embedded in, the detection circuit 1002 is embedded in the carrying box 102, and is electrically connected to the elastic electrode 104, the optical heart rate sensor 106, the temperature sensor 107, the galvanic skin response sensor 108, the connection terminal 109, the electromagnetic massager 100, and the far infrared radiation lamp 1001, respectively, and the connection terminal 109 is embedded on the side surface of the carrying box 102 and is electrically connected to the control terminal 5 through the wire 6.

The electrode patches 103 are uniformly distributed around the axis of the detection table 1004, the lower end faces of the electrode patches 103 are 0-5 mm higher than the lower end face of the detection table 1004, and the area of the lower end face of each electrode patch 103 is not more than 10 square millimeters.

Meanwhile, the through hole 1005 is in any one of a "" shape and a "U" shape groove structure, and a sliding groove 1003 is formed on the side surface of the detection platform 1004 corresponding to the hole wall of the through hole 1005, and is slidably connected with the side surface of the detection platform 1004 through the sliding groove 1003.

Meanwhile, the control terminal 5 includes a bearing shell 51, a control circuit 52, a storage battery 53, a display 54, a signal indicator 55, a key 56 and a connection terminal 109, the bearing shell 51 is a closed cavity structure, the control circuit 52 is embedded in the bearing shell 51 and is electrically connected with the storage battery 52, the display 54, the signal indicator 55, the key 56 and the connection terminal 109, respectively, wherein the storage battery 53 is located in the bearing shell 51, the display 54 and the signal indicator 55 are embedded in the upper end surface of the bearing shell 51, and the connection terminal 109 is embedded in the side surface of the bearing shell 51 and is electrically connected with the main trainer 3 and the auxiliary trainer 4 through wires.

Preferably, the control circuit 52 is further provided with at least one wireless data communication module and at least one serial port communication port.

Preferably, the detection circuit 1002 and the control circuit 52 are a circuit system based on a single chip microcomputer.

In the specific implementation of the utility model, firstly, the elastic connecting belt, the adjusting button, the main trainer, the auxiliary trainer and the control terminal which form the utility model are assembled, then the rear end face of the assembled middle main trainer is abutted against the front chest skin corresponding to the heart and the heart post-operation wound of the patient, so that the rear end face of the auxiliary trainer is abutted against the back skin corresponding to the heart and the heart post-operation wound of the patient, then the length and the tension of the elastic connecting belt are adjusted through the adjusting buckle, the main trainer and the auxiliary trainer are connected and positioned with the human body, finally the control terminal is connected with an external power supply, the novel operation is directly driven by the external power supply, or through external power supply this novel interior storage battery of controlling terminal charges to by this novel operation of storage battery drive after accomplishing to charge, satisfy this novel human activity synchronous operation's of year needs.

When the main trainer and the auxiliary trainer are connected with a human body, on one hand, the electrode patch, the optical heart rate sensor, the temperature sensor and the galvanic skin response sensor on the rear end surfaces of the main trainer and the auxiliary trainer are abutted against the skin of a patient, and the electrode patch and the far infrared irradiation lamp are uniformly distributed around the heart of the patient and a wound after the heart operation.

After the novel assembly is completed, the control terminal is directly controlled by a patient to drive the main trainer and the auxiliary trainer to operate, when the main trainer and the auxiliary trainer operate, on one hand, physiological characteristic parameters such as human heart rate fluctuation, body surface temperature and the like are continuously detected in real time through the optical heart rate sensor, the temperature sensor and the galvanic skin response sensor according to needs, and when the heart rate stability of the patient is ensured, abnormal heart rate is timely monitored and alarm and early warning are carried out through the control terminal; on the other hand, in the operation process: the electrode patch carries out current stimulation on the skin, the muscle and the microcirculation system level nervous system around the postoperative wound of the heart and the heart of the patient so as to improve the biological activity of the skin, the muscle and the microcirculation system level nervous system around the postoperative wound of the heart and the heart of the patient and promote the recovery and healing of the wound and the heart disease;

the far infrared radiation lamp is used for performing infrared light wave stimulation and temperature regulation stimulation on the skin, the muscle and the microcirculation system level nervous system around the heart and the postoperative wound of the heart of the patient, so that the biological activity of the skin, the muscle and the microcirculation system level nervous system around the postoperative wound of the heart of the patient is improved, and the recovery and healing of the wound and heart diseases are promoted;

the electromagnetic massager adjusts local magnetic field environment around the skin, muscle and microcirculation system level nervous system of the postoperative wound of the heart and the heart of the patient and stimulates the magnetic field environment on one hand, and on the other hand, improves the circulation efficiency of the skin, muscle and microcirculation system level nervous system of the postoperative wound of the heart and the heart of the patient through mechanical vibration, improves the biological activity of the skin, muscle and microcirculation system level nervous system around the postoperative wound of the heart and the heart of the patient so as to promote the recovery and healing of the wound and the heart disease.

During rehabilitation training, any one or more of the three devices of the electrode patch, the electromagnetic massager and the far infrared irradiation lamp can be selected to operate simultaneously according to the use requirement, and the operating power parameter is adjusted, so that the aim of promoting the healing of wounds and heart diseases is fulfilled.

This novel simple structure, it is nimble convenient to use, the commonality is good, can effectively satisfy the needs of different size patient heart postoperative rehabilitation operations, and can be effectual carry out comprehensive detection operation to the undulant condition of patient postoperative rhythm of the heart on the one hand, on the other hand can carry out high temperature, electric current, magnetic field and mechanical vibration stimulation to patient operation wound and peripheral blood vessel of heart, musculature and nervous system to very big improvement postoperative wound peripheral tissue and heart blood circulation system's biological activity improves heart postoperative wound healing and heart function recovery efficiency.

Those skilled in the art should understand that the present invention is not limited by the above embodiments. The foregoing embodiments and description have been made only for the purpose of illustrating the principles of the invention. The present invention can be further modified and improved without departing from the spirit and scope of the present invention. Such changes and modifications are intended to be within the scope of the claimed invention. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (5)

1. The utility model provides a heart postoperative multisource rehabilitation training area which characterized in that: heart postoperative multisource rehabilitation training area include elastic connection area, adjust and detain, main training ware, auxiliary training ware, control the terminal, main training ware, auxiliary training ware are totally two, connect and constitute closed loop configuration through elastic connection area between main training ware, the auxiliary training ware, and coaxial distribution between main training ware, the auxiliary training ware, control the elastic connection area interconnect between terminal through elastic connection area and main training ware, the auxiliary training ware to through the wire respectively with main training ware, auxiliary training ware electrical connection, and main training ware, auxiliary training ware are parallelly connected each other, elastic connection area and main training ware, auxiliary training ware, control between the terminal and between elastic connection area and the elastic connection area buckle interconnect through adjusting.

2. The multi-source rehabilitation training belt for heart after operation as claimed in claim 1, wherein: the main trainer and the auxiliary trainer comprise a bearing frame, a bearing box, electrode patches, elastic contacts, elastic electrodes, an optical heart rate sensor, a temperature sensor, a skin-electric reaction sensor, a wiring terminal, an electromagnetic massager, a far infrared radiation lamp and a detection circuit, wherein the cross section of the bearing frame is in a structure of a reversed-V-shaped groove, the lower end surface of the bearing frame is in sliding connection with a plurality of electrode patches through sliding grooves, the number of the elastic contacts is consistent with that of the electrode patches, the elastic contacts are embedded at the bottom of the bearing frame, each electrode patch is electrically connected with one elastic contact, the bearing box is in a closed cavity structure and is coaxially distributed in the bearing frame, the bearing box is in sliding connection with the side wall of the bearing frame through the sliding grooves, the interval between the lower end surface of the bearing box and the bottom of the bearing frame is 0-3 mm, and the bottom of the bearing box corresponding to the, the elastic contact is abutted against and electrically connected with the elastic electrode, the bottom of the bearing box is provided with a detection table, the bottom of the bearing frame corresponding to the detection table is provided with a through hole, the detection table, the through hole, the bearing frame and the bearing box are coaxially distributed, the lower end surface of the detection table is distributed in parallel with the lower end surface of the bearing frame, the optical heart rate sensor, the temperature sensor and the pyroelectric reaction sensor are all embedded in the lower end surface of the detection table and distributed in parallel with the lower end surface of the detection table, the far infrared lamps are a plurality of and uniformly distributed on the lower end surface around the axis of the detection table, at least two electromagnetic massagers are embedded in the bearing box and symmetrically distributed by the axis of the bearing box, the detection circuit is embedded in the bearing box and is respectively electrically connected with the elastic electrode, the optical heart rate sensor, the temperature sensor, the pyroelectric reaction sensor, the wiring terminal, the wiring terminal is embedded in the side surface of the bearing box and is electrically connected with the control terminal through a wire.

3. The multi-source rehabilitation training belt for heart after operation as claimed in claim 2, wherein: the electrode patches are uniformly distributed around the axis of the detection table, the lower end faces of the electrode patches are 0-5 mm higher than the lower end face of the detection table, and the area of the lower end face of each electrode patch is not more than 10 square millimeters.

4. The multi-source rehabilitation training belt for heart after operation as claimed in claim 2, wherein: the through holes are in any one of a structure of a shape like the Chinese character ' ji ' and a groove-shaped structure like the U ', and the side surface of the detection platform corresponding to the wall of the through hole is provided with a sliding groove and is in sliding connection with the side surface of the detection platform through the sliding groove.

5. The multi-source rehabilitation training belt for heart after operation as claimed in claim 1, wherein: control the terminal including bearing the weight of the shell, controlling circuit, storage battery, display, signal indicator, button and binding post, it is airtight cavity structures to bear the weight of the shell, control the circuit and inlay in bearing the weight of the shell to respectively with storage battery, display, signal indicator, button and binding post electrical connection, wherein storage battery is located and bears the weight of the shell, display, signal indicator all inlay in bearing the weight of the shell up end, binding post inlays in bearing the weight of shell side surface and through wire and main training ware, supplementary training ware electrical connection.

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