CN211326671U - Multi-mode automatic cervical vertebra therapeutic instrument - Google Patents

Abstract

The utility model provides a multi-mode automatic cervical vertebra therapeutic apparatus, which relates to the field of medical equipment and comprises an operation controller, a therapeutic apparatus main frame and an air bag; the main frame of the therapeutic apparatus is provided with a main fixing belt and an auxiliary fixing belt; the operation controller is connected with the air bag through an electric integrated pipeline, and the air bag is fixedly arranged on the therapeutic apparatus main frame; the panel of the operation controller is provided with keys and a display lamp, an integrated circuit board is arranged inside the panel, a motor, an air pump, an electromagnetic air valve, an electromagnetic exhaust valve and a pressure sensor are arranged below the integrated circuit board, the integrated circuit board is electrically connected with the motor, the air pump, the electromagnetic air valve, the electromagnetic exhaust valve and the pressure sensor respectively, and the air pump, the electromagnetic air valve, the electromagnetic exhaust valve, the pressure sensor and the air bag are connected with each other through air ducts. The operation and the use of the cervical vertebra therapeutic instrument are simple and convenient, and the self-treatment of the patient is convenient.

Description

Multi-mode automatic cervical vertebra therapeutic instrument

Technical Field

The utility model relates to the field of medical equipment, especially, relate to an automatic cervical vertebra therapeutic instrument of multi-mode.

Background

Cervical spondylosis is also known as cervical syndrome, is a general name of cervical osteoarthritis, proliferative cervical spondylitis, cervical radicular syndrome and cervical disc herniation, and is a disease based on degenerative pathological changes. Because the life style of people changes now, the lower head group using a computer and playing a mobile phone for a long time is a frequent crowd with cervical spondylosis and lumbar spondylosis, so that more and more people with cervical spondylosis and lumbar spondylosis are in need, and people who are ill become younger and more. Due to long-term forced posture of head lowering and neck tissue fatigue, long-term strain of cervical vertebra, hyperosteogeny, vertebral body reverse arch or intervertebral disc prolapse and ligament thickening are caused, so that cervical vertebra spinal cord, nerve root or vertebral artery are pressed, and a series of clinical syndromes of dysfunction appear.

For many patients, it is difficult to treat the cervical spine by going to the hospital daily for several weeks. Therefore, some cervical vertebra traction instruments are also available in the market at present, and the products are low in price, inconvenient to use and poor in effect. The products have the great problem that the cervical vertebra is only vertically pulled for expanding the cervical vertebra clearance, so that the cervical vertebra conical bow is deformed, and the reaction is better; there are some similar air-bag traction instruments, but they are all simple and manual, and for the patient without medical knowledge, the traction instrument is controlled by feeling, so the operation is inconvenient, and the accidental injury of cervical vertebra is easy to occur, and the illness condition is aggravated.

Therefore, it is necessary to develop a cervical vertebra therapeutic apparatus with high efficiency, simple operation, and convenient and safe use.

SUMMERY OF THE UTILITY MODEL

In view of the above prior art, an object of the present invention is to provide a multi-mode automatic cervical vertebra treatment apparatus, which is convenient for the operation and use of the cervical vertebra treatment apparatus and the self-treatment of the patient.

In order to achieve the above and other related objects, the utility model provides a multi-mode automatic cervical vertebra therapeutic apparatus, which comprises an operation controller, a therapeutic apparatus main frame and an air bag; the main frame of the therapeutic apparatus is provided with a main fixing belt and an auxiliary fixing belt; the operation controller is connected with the air bag through an electric integrated pipeline, and the air bag is fixedly arranged on the therapeutic apparatus main frame; the operation controller surface is provided with button and display lamp, and inside is provided with the integrated circuit board that is used for mode control, and integrated circuit board below is provided with motor, air pump, electromagnetism pneumatic valve, electromagnetism discharge valve, pressure sensor, integrated circuit board is connected with motor, air pump, electromagnetism pneumatic valve, electromagnetism discharge valve, pressure sensor electricity respectively, air pump, electromagnetism pneumatic valve, electromagnetism discharge valve, pressure sensor, gasbag pass through gas conduit interconnect.

In an embodiment of the present invention, the button includes a power switch button, a safety detection button, a first mode button, a second mode button, a third mode button, and a sound switch button.

In an embodiment of the present invention, the display lamp includes a power display lamp, a safety indicator lamp, a first mode indicator lamp, a second mode indicator lamp, and a third mode indicator lamp.

In an embodiment of the present invention, the end of the gas conduit is provided with a manual exhaust button, and the manual exhaust button is provided with an exhaust hole.

In an embodiment of the present invention, the therapeutic apparatus main frame is further provided with a main frame head substrate and a main frame shoulder substrate.

In an embodiment of the present invention, the main frame of the therapeutic apparatus is further provided with a power plug connected to the electrical integrated pipeline and having an AC220V input, a power converter connected to the power plug, and a power jack connected to the DC6V input.

As mentioned above, the utility model discloses an automatic cervical vertebra therapeutic instrument of multi-mode has following beneficial effect:

1. the utility model discloses an increase auxiliary fixing band, ensure main fixed band non-slip to the main fixed band that is used for fixed head in the solution cervical vertebra therapeutic instrument use easily drops the problem.

2. The utility model discloses an integrated circuit board realizes the automated control of multiple treatment mode, makes the easy operation of treatment process convenient safety.

Drawings

Fig. 1 is a front view of the cervical vertebrae therapeutic apparatus disclosed in the embodiment of the present invention.

Fig. 2 shows a cross-sectional view of an operation controller disclosed in an embodiment of the present invention.

Fig. 3 shows a cross-sectional view of the main frame of the therapeutic apparatus disclosed in the embodiment of the present invention.

Fig. 4 is a schematic diagram illustrating a control principle of the integrated circuit board disclosed in an embodiment of the present invention.

The labels in the figure are: 1-operation controller, 1.1-power display lamp, 1.2-safety indicator lamp, 1.3-first mode indicator lamp, 1.4-second mode indicator lamp, 1.5-third mode indicator lamp, 1.6-power switch button, 1.7-safety detection button, 1.8-first mode button, 1.9-second mode button, 1.10-third mode button, 1.11-sound switch button, 1.12-manual exhaust button, 1.13-electrical integrated pipe, 1.14-panel, 1.15-integrated circuit board, 1.16-motor, 1.17-air pump, 1.18-electromagnetic air valve, 1.19-electromagnetic exhaust valve, 1.20-pressure sensor, 1.21-speaker, 1.22-DC6 power line 6V, 1.23-exhaust hole, 1.24-gas conduit; 2-main therapeutic equipment frame, 2.1-main fixing band, 2.2-auxiliary fixing band, 2.3-snap fastener, 2.4-main frame head substrate, 2.5-main frame shoulder substrate, 2.6-power jack, 2.7-power converter, 2.8-power plug, 2.9-main fixing band hole; and 3, air bags.

Detailed Description

The following description is provided for illustrative purposes, and other advantages and features of the present invention will become apparent to those skilled in the art from the following detailed description.

Please refer to fig. 1 to 4. It should be understood that the structure, ratio, size and the like shown in the drawings attached to the present specification are only used for matching with the content disclosed in the specification, so as to be known and read by those skilled in the art, and are not used for limiting the limit conditions that the present invention can be implemented, so that the present invention has no technical essential meaning, and any structure modification, ratio relationship change or size adjustment should still fall within the scope that the technical content disclosed in the present invention can cover without affecting the function that the present invention can produce and the purpose that the present invention can achieve. Meanwhile, the terms such as "upper", "lower", "left", "right", "middle" and "one" used in the present specification are for convenience of description, and are not intended to limit the scope of the present invention, and changes or adjustments of the relative relationship thereof may be made without substantial technical changes, and the present invention is also regarded as the scope of the present invention.

As shown in fig. 1, the utility model provides a multi-mode automatic cervical vertebra therapeutic apparatus, which comprises an operation controller 1, a therapeutic apparatus main frame 2 and an air bag; the main therapeutic apparatus frame 2 is provided with a main fixing band 2.1 and an auxiliary fixing band 2.2, the main fixing band 2.1 is inserted into a fixing band hole through a main fixing band hole 2.9 arranged on the main therapeutic apparatus frame 2, the main fixing band 2.1 is fixed on the main therapeutic apparatus frame 2 through a snap fastener 2.3 arranged on the main fixing band 2.1, the auxiliary fixing band 2.2 is connected with the main fixing band 2.1, and the snap fastener 2.3 is also arranged on the auxiliary fixing band 2.2; the main therapeutic apparatus frame 2 is also provided with a main frame head part substrate 2.4 and a main frame shoulder part substrate 2.5.

The operation controller 1 is connected with the air bag 3 through an electric integrated pipeline 1.13, and the air bag 3 is fixedly arranged on the therapeutic apparatus main frame 2; a panel 1.14 of the operation controller 1 is provided with keys and a display lamp, wherein the keys comprise a power switch key 1.6, a safety detection key 1.7, a first mode key 1.8, a second mode key 1.9, a third mode key 1.10 and a sound switch key 1.11; the display lamp comprises a power supply display lamp 1.1, a safety indicator lamp 1.2, a first mode indicator lamp 1.3, a second mode indicator lamp 1.4 and a third mode indicator lamp 1.5.

As shown in fig. 2 and 3, an integrated circuit board 1.15 for mode control is arranged inside the operation controller 1, a motor 1.16 of DC6V, an air pump 1.17, an electromagnetic air valve 1.18, an electromagnetic exhaust valve 1.19, a pressure sensor 1.20, and a speaker 1.21 are arranged below the integrated circuit board 1.15, the integrated circuit board 1.15 is electrically connected with the motor 1.16, the air pump 1.17, the electromagnetic air valve 1.18, the electromagnetic exhaust valve 1.19, the pressure sensor 1.20, and the speaker 1.21, respectively, and the air pump 1.17, the electromagnetic air valve 1.18, the electromagnetic exhaust valve 1.19, the pressure sensor 1.20, and the airbag 3 are connected with each other through an air conduit 1.24; the end part of the gas conduit 1.24 is provided with a manual exhaust button 1.12, and the manual exhaust button 1.12 is provided with an exhaust hole 1.23 for manual exhaust.

As shown in fig. 4, the integrated circuit board 1.15 is provided with a function key corresponding to the key, a multi-mode control program memory, a Main Controller (MCU), a power circuit, a control information output circuit, a safety control circuit, a feedback signal output circuit, and an audio circuit, wherein the Main Controller (MCU) is electrically connected to the function key, the multi-mode control program memory, the control signal output circuit, the safety control front circuit, and the audio circuit, and the safety control circuit is electrically connected to the feedback signal output circuit.

The function keys correspond to keys arranged on a panel 1.14 of the operation controller 1, when the keys are pressed down, the function keys output corresponding control signals to a Main Controller (MCU), the Main Controller (MCU) reads corresponding control program information in a mode control program memory to perform mode selection control, outputs the control signals to a control signal output circuit, and drives the motor 1.16, the air pump 1.17, the electromagnetic air valve 1.18 and the electromagnetic exhaust valve 1.19 to work through the control signal output circuit; meanwhile, pressure acquisition signals of the pressure sensor 1.20 are acquired and processed through a feedback signal input circuit and a safety control circuit, so that the pressure acquisition inside the air bag 3 is realized.

The Main Controller (MCU) is a single chip microcomputer of 89C51, and the multi-mode control program memory model is a control module of CAT 809; the control signal input circuit is a drive control circuit of the existing motor 1.16, air pump 1.17, electromagnetic air valve 1.18 and electromagnetic exhaust valve 1.19, the feedback signal input circuit is a signal processing circuit of the existing pressure sensor 1.20, and the safety control circuit is an existing comparator circuit.

The main frame 2 of the therapeutic apparatus is also provided with a power plug 2.8 connected with an electric integrated pipeline 1.13 and with an AC220V input, a power converter 2.7 connected with the power plug 2.8 and a power jack 2.6 connected with a DC6V input.

The utility model is connected with AC through the power plug 2.8 inputted by AC220V, and supplies power to the operation controller 1 through DV6V power line 1.22 in the electric integrated pipeline 1.13 after the voltage regulation is carried out by the power converter 2.7; or a 6V power supply is connected through the power jack 2.6 of the DC6V to the operation controller 1 through the DV6V power line 1.22 in the electrical integration pipe 1.13.

The working principle of the utility model is as follows:

1. safety detection is required before the cervical vertebra therapeutic apparatus is used;

firstly, a main frame 2 of the therapeutic apparatus is horizontally placed, and the cervical vertebra therapeutic apparatus is started through a power switch key 1.6; then pressing a safety detection button 1.7, starting the cervical vertebra therapeutic apparatus, enabling a safety indicator lamp 1.2 to light up, enabling a motor 1.16 to drive an air pump 1.17 to inflate the air bag 3, enabling the air bag 3 to rise, enabling the air pump 1.17 to stop inflating when a pressure sensor 1.20 detects that the pressure in the air bag 3 is larger than or equal to 60pa, enabling an electromagnetic air valve 1.18 to be closed, enabling an exhaust electromagnetic valve 1.19 to be opened (normally open) to start deflating, enabling the electromagnetic exhaust valve 1.19 to be closed when the pressure sensor 1.20 detects that the pressure in the air bag 3 is smaller than or equal to 50pa, enabling the air pump 1.17 to be restarted, enabling the air pump to stop inflating when the pressure in the air bag 3 is larger than or equal to 60pa, enabling the electromagnetic valve 1.19 to;

the safety detection process mainly detects the components of the cervical vertebra therapeutic apparatus, such as the motor 1.16, the air pump 1.17, the electromagnetic air valve 1.18, the electromagnetic exhaust valve 1.19, the air bag 3 and the like, if the flow acts normally, the safety indicator lamp 1.2 is turned off, and the cervical vertebra therapeutic apparatus can be used normally; if the air can not escape after overpressure, the safety indicator lamp 1.2 flickers and gives an alarm sound through the loudspeaker 1.21.

2. The cervical spondylosis is treated by the cervical vertebra therapeutic instrument by combining case knowledge;

after the neck of the patient is properly relaxed, the patient lies down to make the neck right on the air bag 3 of the therapeutic apparatus main frame 2, and the positions of the head, the neck, the therapeutic apparatus main frame 2 and the air bag 3 are properly adjusted to achieve a natural and comfortable posture;

sleeving the main fixing belt 2.1 on the head, and fastening a snap fastener 2.3 on the main fixing belt 2.1; the auxiliary fixing belt 2.2 is wound around the jaw, and then the snap fastener 2.3 of the auxiliary fixing belt 2.2 is fastened;

pressing a power switch key 1.6 to start the cervical vertebra therapeutic apparatus, and selecting different treatment modes according to the specific conditions of the patient;

the first mode is as follows: pressing a first mode button 1.8, lighting a first mode indicator lamp 1.3, inflating the air bag 3 to 40pa-50pa, opening an electromagnetic exhaust valve 1.19, and emptying the air bag 3; stopping the operation for 6 seconds, emptying the air bag 3 after re-inflating to 40pa-50pa, inflating and deflating for 10 times in this way, inflating to 60pa for 11 th time, keeping the pressure of the air bag 3 for 10 minutes, slowly deflating the air bag 3, aiming at the patient who is treated for the first time or the patient with the less serious cervical spondylosis,

and a second mode: pressing a second mode button 1.9, lighting a second mode indicator lamp 1.4, inflating the air bag 3 to 50pa, opening an electromagnetic exhaust valve 1.19, and emptying the air bag 3; stopping for 6 seconds, emptying the air bag 3 after re-inflating to 50pa, inflating and deflating for 10 times, inflating to 60pa for 11 th time, keeping the pressure of the air bag 3 for 15 minutes, and slowly deflating the air bag 3, wherein the mode is specific to the patient who has been treated more than two times or the patient with relatively serious spondylopathy.

And a third mode: pressing a third mode button 1.10, lighting a third mode indicator lamp 1.5, inflating the air bag 3 to 50pa, opening an electromagnetic exhaust valve 1.19, and emptying the air bag 3; stopping for 6 seconds, emptying the air bag 3 after re-inflating to 50pa, inflating and deflating for 10 times, inflating to 60pa for 11 times, keeping the pressure of the air bag 3 for 20 minutes, and slowly deflating the air bag 3, wherein the mode is specific to patients who are frequently treated or patients with serious spondylopathy.

In the use of cervical vertebra therapeutic instrument, when 3 pressure values of gasbag reached the specific value, can the automatic shutdown inflate to prevent superpressure in the gasbag 3, if when taking place the superpressure condition, Master Controller (MCU) control safety indicator 1.2 scintillation to report to the police through speaker 1.21, open electromagnetism discharge valve 1.19, lose heart to the settlement pressure value, in order to ensure safe in utilizationly.

If the control of the integrated circuit board 1.15 is abnormal in the using process, the manual exhaust button 1.12 can be manually pressed to exhaust air through the exhaust hole 1.23.

In conclusion, the auxiliary fixing band 2.2 is added to the main frame 2 of the therapeutic apparatus of the utility model, so that the problem that the main fixing band 2.1 is easy to slip off in the treatment process is solved; the integrated circuit board 1.15 realizes the automatic control of the mechanisms such as the motor 1.16, the air pump 1.17, the electromagnetic air valve 1.18, the electromagnetic exhaust valve 1.19 and the like, and has the multi-mode operation function to solve the treatment requirements of patients with different symptoms; meanwhile, a safety guarantee mechanism with multiple functions of pre-detection, process detection and automation and manual operation is added in the equipment, so that the safety of instrument treatment is ensured. The problem that the cervical vertebra therapeutic instrument excessively depends on the operation of medical care personnel in the commercialization process is solved, the time and the labor are saved, and the convenience and the safety of the cervical vertebra therapeutic instrument when the cervical vertebra therapeutic instrument is used at home are improved. Therefore, the utility model effectively overcomes various defects in the prior art and has high industrial utilization value.

The above embodiments are merely illustrative of the principles and effects of the present invention, and are not to be construed as limiting the invention. Modifications and variations can be made to the above-described embodiments by those skilled in the art without departing from the spirit and scope of the present invention. Accordingly, it is intended that all equivalent modifications or changes which may be made by those skilled in the art without departing from the spirit and technical spirit of the present invention be covered by the claims of the present invention.

Claims (6)

1. A multi-mode automatic cervical vertebra therapeutic instrument is characterized in that: comprises an operation controller (1), a therapeutic instrument main frame (2) and an air bag (3); the main therapeutic apparatus frame (2) is provided with a main fixing band (2.1) and an auxiliary fixing band (2.2); the operation controller (1) is connected with the air bag (3) through an electric integrated pipeline (1.13), and the air bag (3) is fixedly arranged on the therapeutic apparatus main frame (2); the operation controller is characterized in that a key and a display lamp are arranged on a panel (1.14) of the operation controller (1), an integrated circuit board (1.15) used for mode control is arranged inside the operation controller, a motor (1.16), an air pump (1.17), an electromagnetic air valve (1.18), an electromagnetic exhaust valve (1.19), a pressure sensor (1.20) and a loudspeaker (1.21) are arranged below the integrated circuit board (1.15), the integrated circuit board (1.15) is electrically connected with the motor (1.16), the air pump (1.17), the electromagnetic air valve (1.18), the electromagnetic exhaust valve (1.19), the pressure sensor (1.20) and the loudspeaker (1.21) respectively, and the air pump (1.17), the electromagnetic air valve (1.18), the electromagnetic exhaust valve (1.19), the pressure sensor (1.20) and the air bag (3) are connected.

2. The multi-mode automatic cervical therapeutic apparatus according to claim 1, wherein: the keys comprise a power switch key (1.6), a safety detection key (1.7), a first mode key (1.8), a second mode key (1.9), a third mode key (1.10) and a sound switch key (1.11).

3. The multi-mode automatic cervical therapeutic apparatus according to claim 1, wherein: the display lamp comprises a power supply display lamp (1.1), a safety indicator lamp (1.2), a first mode indicator lamp (1.3), a second mode indicator lamp (1.4) and a third mode indicator lamp (1.5).

4. The multi-mode automatic cervical therapeutic apparatus according to claim 1, wherein: the end part of the gas guide pipe (1.24) is provided with a manual exhaust button (1.12), and the manual exhaust button (1.12) is provided with an exhaust hole (1.23).

5. The multi-mode automatic cervical therapeutic apparatus according to claim 1, wherein: the main frame (2) of the therapeutic apparatus is also provided with a main frame head part substrate (2.4) and a main frame shoulder part substrate (2.5).

6. The multi-mode automatic cervical therapeutic apparatus according to claim 1, wherein: the main therapeutic apparatus frame (2) is also provided with a power plug (2.8) connected with an AC220V input and an electric integrated pipeline (1.13), a power converter (2.7) connected with the power plug (2.8) and a power jack (2.6) input by a DC 6V.

Images