RU201544U1 - Multifunctional vertical physiotherapy apparatus - Google Patents

Abstract

The utility model relates to medical equipment, namely to vertical multifunctional physiotherapy devices intended for use in various medical and recreational purposes, in fitness, elite sports, in balneology, SPA, palliative and in widespread home use, as a physiotherapeutic combine that provides : photochromotherapy, magnetotherapy and various modes of mechanotherapy (linear and nonlinear vibratory massage, radial mechanical shock wave therapy) and as a diagnostic system for determining the resonance frequencies of individual parts of the human body Multifunctional vertical physiotherapy apparatus, including a body, a control device located inside it an electric motor connected to it, as well as a shaft with a rod connected to the electric motor and a vibration nozzle mounted on the rod. The shaft is equipped with an eccentric and a bearing, which is rigidly connected to the rod in the eccentric area. A sleeve is fixed to the body through an elastic ring, which restricts the movement of the stem in horizontal directions relative to the body. The technical result is to reduce the level of acoustic noise and mechanical vibrations when transferring rotation from the electric motor to the nozzle while ensuring small overall dimensions and wide functionality of the device in the vertical vibration mode. impact.

Description

The utility model relates to medical technology, namely to vertical multifunctional physiotherapy devices intended for use in various medical and recreational purposes, in fitness, elite sports, in balneology, SPA, palliative and in widespread home use, as a physiotherapeutic combine providing: photochromotherapy, magnetotherapy and various modes of mechanotherapy (linear and nonlinear vibration massage, radial mechanical shock wave therapy) and as a diagnostic system for determining the resonance frequencies of individual parts of the human body.

Known device for vibration massage (Apparatus for vibration massage: patent LV12714, Latvia, application LV010040, filed 03/14/2001, publ. 09/20/2001), including a holder, a vibration element, a fastener and an upper part. The upper part is round and can be made of amber, ebonite, plastic or other similar material. The outer part of the holder is tilted from 1 ° to 90 ° from the central axis of the holder. The upper part is attached to the outside of the holder with a needle roller placed in the housing. The holder can be connected to the vibrating element using a wobbler.

The closest to the claimed device is a device for vibration massage (Device for vibration massage: patent LV12937, Latvia, application LV020168, filed 09/06/2002, publ. 02/20/2003), including a housing with an electric motor, which is connected to the vibrating part, to which a removable element is attached. The device also contains a switch and an external part. The device also includes a frequency and amplitude regulator (control device). The removable element is attached to the outside with a holder and a rod. The rod is provided with a through hole in which the holder is fixed with a screw. The vibrating part of the removable element is fixed on a special screw screwed to the end of the rod. This device is known on the market under the trade name "Vibromed" (Vibromed. Massagers, URL: http://www.vibromed.lv/index.php?page=pribory, access date - 03.06.2020).

The disadvantage of the above technical solutions is a relatively high level of acoustic noise and mechanical vibrations during transmission of vibrations from the electric motor to the shaft and low ergonomics of the product (the device is inconvenient to hold due to its large diameter). The large diameter is due to the use of elements of an angle grinder at the basis of the design. Low ergonomics of the product is also due to the lack of frequency indication and the presence of only one mode of operation (linear vibration massage). Also, the disadvantage of this massage device with a plastic body is the presence of unprotected electromagnetic radiation from the electric motor.

The technical problem lies in the need to develop a compact and effective device for vertical vibration action, which would be devoid of the above disadvantages.

The technical result consists in reducing the level of acoustic noise and mechanical vibrations during the transmission of rotation from the electric motor to the attachment, while ensuring small overall dimensions and wide functionality of the device in the mode of vertical vibration exposure.

The technical result is achieved by the fact that in a multifunctional vertical physiotherapy apparatus, including a housing, a control device located inside it and an associated electric motor, as well as a shaft with a rod connected to the electric motor and a vibration nozzle mounted on the rod, according to the utility model, the shaft is equipped with an eccentric and a bearing, as well as in the eccentric area, the shaft is rigidly connected to the stem, while a sleeve is fixed to the body through an elastic ring, which restricts the movement of the stem in directions perpendicular to its axis.

Equipping the shaft with an eccentric and a bearing with a rigid connection of the shaft in the area of the eccentric with the rod, as well as securing the sleeve that restricts the movement of the rod in directions perpendicular to its axis, provides a decrease in the level of acoustic noise and mechanical vibrations when transferring rotation from the electric motor to the nozzle and at the same time providing small dimensions and wide functionality of the device in the mode of vertical vibration exposure.

The claimed technical solution is illustrated by drawings, where Fig. 1 shows a schematic diagram of the inventive device with a power supply, and FIG. 2 shows the power supply unit of the claimed device.

A multifunctional apparatus for physiotherapeutic procedures based on a vertical vibrating massager with microprocessor control contains a housing 1 made of aluminum, silumin, duralumin, magnesium or plastic and an electric motor 2 installed in it with a nozzle 3 on the shaft. The device also contains a system 4 for the transmission of rotation with the suppression of acoustic noise and mechanical vibrations (with a mark 5 of the shaft position on a point neodymium magnet), from the electric motor 2 to the shaft 6 with the eccentric zone 7. The nozzle 3 and the attachment point of the system 4 of the transmission of rotation on the shaft 6 can have a knurled profile with a height of 0.2-1.5 mm, depending on the scope of use (In equipment for cosmetology and pediatric orthopedics 0.2-0.5 mm, and in powerful devices for sports and fitness 1-2 mm) On the edges shaft 6, thrust bearings 8 are placed in elastic casings 9, which fit tightly into the corresponding grooves in the housing 1, and in the area of the eccentric 7, the shaft balancing elements 10 are pressed onto the shaft 5 and the working bearing 11 transmitting circular vibrations through the rod 12, in the lower part of which is located a sleeve 13 with an elastic ring 14 for fixing in the body 1. A replaceable vibration attachment 15 is screwed onto the end of the rod 12, designed to perform complex elliptical vibrations in the direction specified by the polarity of the motor 2. All attachments have approximately the same mass for accurate balancing of the assembly. The device also includes a matrix for multicolor photochromotherapy 16, which consists of light sources (multicolor lensed LEDs and powerful monochromatic focused LEDs with cooling radiators 17 of the medical spectrum of radiation located around the movable rod, which provides the necessary luminosity and illumination zone around the working nozzle at specified wavelengths. Magnetic coils 18 located near the working nozzle are turned on if a complex effect is required.In case 1 is also placed a board 19 on which all active and passive components (including temperature, vibration and acoustic noise sensors) are located with an oled indicator 256x64 pixels with a built-in Wi-Fi module 20 , to display the necessary information and transfer service data about the technical condition of the device and the total operating time in all modes to the server and transmit feedback information about the residual resource and maintenance time, switch 21 of the multifunctional operating mode device (constant linear action with indication of the operating frequency, nonlinear action with an additional mode of measuring the patient's own resonances and the mode of mechanical radial shock wave therapy), a mode switch of the on / off button 22 (direct operation, off, inverse operation) and directly itself on / off button 23. The board contains a microcontroller 25 programmable through the J-TAG 24 connector that controls all the functions of the device. Also in the lower part of the body there are buttons "+" 26, "-" 27, "mode selection" 28 and "scroll" 29 and a button 30 for turning on / off the entire device and switching to sleep mode. The temperature regime of the device is provided by coolers (cooling fans) 31, which are programmed for a given temperature on and off. Also on the board 19 there is a switch 32 for the direction of rotation of the electric motor, connector 33 for connecting to an electric motor, connector 34 for connecting reversible multi-color LEDs and high-power LEDs, a connecting cable 35 connecting the connectors on the board with terminal devices, connector 36 for connecting magnetic coils, connector 37 for connecting a digital sensor Hall 38 and analog Hall sensor 40 to the connecting bus 39. In the working area 40 of the analog Hall sensor on the rod 12, a magnetic mark 41 is fixed to implement the amplitude method for measuring external resonances. To increase the reliability and increase the service life of the device, the connector to the power supply + 12V 44 is made external and through cable 43 is connected to the power connector on the board 42. The shielding (grounding) of the device is carried out by an additional 3-rd wire 45, which is connected to both halves with screws 46 and 47 housing on one side and through a 3-pin connector 48 is connected to the housing of the power supply unit 49 connected to a standard power outlet 50 having a grounding. The system 4 for transmission of rotation is a high-strength elastic sleeve reinforced with polymer (preferably nylon, nylon or lavsan) threads. This elastic sleeve can be made of rubber, rubber, polyurethane and other similar materials. Most preferably, the sleeve is made of an elastic gas hose TUBOFLEX (Russia). It is also possible to use a gas hose from Idrosapiens (Italy). In addition, the claimed apparatus is configured to change the direction of ellipsoidal rotation of the nozzle 3 to the left and right sides relative to the axis of the apparatus body. There is also an option that in the area of the eccentric shaft 6 there are two working bearings with rods at a distance of 10-80 mm operating in phase (in the opposite direction at an angle of 180 degrees) with separate bushings with elastic rings and replaceable nozzles for a deeper effect on soft tissues. In addition, in one of the embodiments, in the area of the input shaft eccentric, there are three working bearings with rods operating in phase (in the opposite direction at an angle of 180 degrees) inserted one into the other with one common elastic ring, while the middle bearing is rigidly connected to the central rod for attaching replaceable inner nozzles, and the outer rod on the same axis for the outer cylindrical nozzles is connected by two rods with the extreme working bearings for focal impact on the deep layers of soft tissues. In this case, the eccentric zone on the shaft for 2 or 3 bearings is made on separate bushings with eccentricity zones, pressed into the middle part of the shaft.

The claimed device operates as follows.

After selecting the operating mode and then switching on, the electric motor 2 begins to rotate in the specified modes and through the elastic rotation transmission system with the suppression of acoustic noise and mechanical vibrations 4 and the shaft 6 transfers the specified vibration effect to the patient through the rod 12 to the replaceable vibration attachment 15. At the same time, this vertical apparatus transmits the impact almost vertically, with a slight rotation (along the ellipse) in the direction specified by the polarity of the motor turning on, the operating mode is set by the switch 21, and the algorithm of the programmable button 23 operation is set by the switch 22. In the first mode, the buttons "+" 26 and "- "27, the frequency of exposure is adjusted, while the parameter value in hertz is continuously displayed in the format" F XXX "where, depending on the applied method, the frequency can be from 0 to 200 Hz. Using the Select button 28 in this mode, you can additionally switch on various modes of photochromotherapy and magnetic therapy by enumerating, and using the Scroll button 29 you can set the stiffness of the engine performance, which allows you to use one device both in orthopedics of newborns, and in fitness or high-performance sports. Matrix for photochromotherapy 11 consisting of multi-color focused LEDs and several powerful single-color directional LEDs located around the movable rod and the magnetotherapy unit 18 are connected and disconnected in accordance with the selected mode and the program of operation of the entire device only in the first mode, since buttons 28 and 29 in the modes of MRUVT and nonlinear influence have other functions. When the device is switched to the second mode “Nonlinear action”, the selected frequency from the first mode is saved and an inscription appears on the screen in the format XX% XX sec. At the same time, using buttons 26 and 27, you can set the frequency deviation from the average value to 50% in%, and with buttons 28 and 29, the period of this process is within 30 seconds. When the maximum values of 50% and 30 sec are selected, the device automatically switches to the sweeping frequency mode and within 4 minutes carries out 8 cycles of measuring external resonances in the soft tissues of the human body. When close resonances are detected in six out of eight dimensions, the two extreme values are discarded and the average value of 4 measurements is displayed for 30 seconds, while the engine is turned off. Pressing the button 23 the device returns to the resonance measurement mode, pressing any other switches to the second mode with the parameters 49% and 29 sec. In the absence of detected resonances, the ERROR inscription lights up. When you switch to the third mode of "Radial Shock Wave Therapy", the XSWX X.X inscription lights up on the screen, where the first digit means the rate of rise from 1 to 8, which is set by button 28, the second after SW is the number of repetitions of exposure impulses from 1 to 4 is entered by button 29 and then the pulse duration from 0.1 to 2 seconds in 0.1 second increments is changed by pressing buttons 26 and 27. In this case, the filling frequency is also set from the first operating mode. Thanks to microprocessor control, this device can be loaded with any other work programs at the request of a specific medical, sports, cosmetology or SPA organization.

Example 1.

An experimental study of the influence of the distinctive features of the utility model on the reduction of the level of acoustic noise and mechanical vibrations during the transmission of vibrations from the electric motor to the shaft was carried out. For this, sample 1 was assembled, which was based on the design features of the prototype, and sample 2 was also assembled, which was based on the design features of the claimed utility model, including an elastic ring.

The tests were carried out for 60 minutes, while the devices were installed on a fixed stand. To measure mechanical vibrations, vibrometers were used, the sensitive elements of which were attached to the bodies of the samples at the place where the electric motor was connected to the shaft. Measurements of mechanical vibrations were carried out at the beginning of the tests after starting the devices and then every 15 minutes, a total of 5 measurements were made. The test results are shown in the table.

Table - test results of samples

Sample No. Vibration velocity measurement results, mm / s at the beginning of tests after 15 minutes after 30 minutes after 45 minutes at the end of the test Sample 1 0.91 0.95 0.98 1.01 1.02 Sample 2 0.25 0.24 0.25 0.26 0.27

Based on the data in the table, the mechanical vibrations of sample 2 were significantly lower than the mechanical vibrations of sample 1, while the values of sample 2 slightly increased during the experiment, and the values of sample 1 increased significantly during the experiment.

The results of experimental studies have shown that the claimed utility model provides a decrease in the level of acoustic noise and mechanical vibrations during transmission of vibrations from the electric motor to the nozzle.

Example 2.

Patient 45 years old with constant severe pain in the spine. After examination on a digital radiograph of the spine, MRI and CT, the diagnosis was made: degenerative-dystrophic changes in the spine, namely osteochondrosis, spondyloarthrosis, spondylosis, herniated intervertebral discs and degenerative spondylolisthesis. After a course of vibration massage (photochromotherapy) using the proposed device (25 sessions of 30 minutes each), a significant improvement in the condition of the spine, an increase in flexibility and a decrease in the areas of intervertebral hernia lesions were recorded. It was proposed to continue the course procedures for a shorter duration and switch to dietary nutrition in order to control body weight to reduce the load on the spine.

Example 3.

Patient, 54 years old, enuresis and impotence. Long-term pharmacological support does not provide a lasting improvement in the patient's condition. Vibration vertical exposure using the proposed device for 2 weeks in the pubic bone and perineum reduced the urge to frequently empty the bladder, and after two months of regular physiotherapy procedures there was a significant improvement in the general condition and the patient resumed sex life.

Thus, the claimed utility model is a fundamentally new apparatus with several modes of mechanotherapy, photochromotherapy, magnetotherapy and a diagnostic system controlled by a microcontroller. In addition to the usual vibration action with an original vibration frequency indication system, the modes of nonlinear action, shock wave therapy and the determination of natural resonances of various parts of the patient's body are implemented directly in the device body.

Claims (2)

1. Physiotherapy apparatus for vertical vibration action, including a housing, a control device located inside it and an associated electric motor, as well as a shaft with a rod connected to an electric motor and a vibration nozzle mounted on a rod, characterized in that the shaft is equipped with an eccentric and a bearing, as well as in the eccentric zone, the shaft is rigidly connected to the rod, while a sleeve is fixed to the body through an elastic ring, which restricts the movement of the rod in directions perpendicular to its axis, while the apparatus is designed to transmit the impact vertically, with rotation along an ellipse, in the direction specified by the polarity of the motor ... 2. Vertical physiotherapy apparatus according to claim 1, characterized in that the body is made of aluminum.

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