RU2458673C1 - Electromechanical apparatus device for muscular spasmolysis required in extraction of acupuncture needle stuck in tissues - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: invention refers to medical equipment, namely to apparatuses for muscular spasmiolysis required in extraction of an acupuncture needle stuck in tissues. The apparatus comprises two electrodes, one of which is connected to patient's skin and the other one is connected to a handle of the stuck needle. Besides, it comprises a piezoelement and a drive, a voltage limiter with its input connected to a first terminal of the piezoelement and with its output connected to an anode of a rectifier diode with its cathode connected to a first terminal of a storage capacitor, an input of an electronic switchboard, a cathode of a protective diode and an input of an actuator. An output of the actuator is connected to a control input of the electronic switchboard with its output connected to an input of a pulse shaper. An output of the pulse shaper is connected to the first electrode. The second electrode is connected to an anode of the protective diode, a second terminal of the storage capacitor and a second terminal of the piezoelement.

EFFECT: use of the invention shall enable higher speed and effectiveness of extraction of the acupuncture needle stuck in tissues.

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Description

The present invention relates to medicine, to reflexology. It is used to relieve muscle spasm when removing an acupuncture needle stuck in the tissues.

There are various devices for relieving muscle spasm when removing a stuck acupuncture needle (Hoang Bao Tiau, La Quang Niep “Acupuncture”, M., Medicine, 1989, p.528), (Macheret E.L., Samosyuk I.Z. “Guide on reflexology ", Kiev," Vysha school ", 1984, p.16).

A device for relieving muscle spasm and removing a stuck acupuncture needle, taken as a prototype (Tabeeva DM “Guide to acupuncture," M., Medicine, 1980, p.129). Use another injection needle in an area close to the blocked needle and wait a few minutes. In case of inefficiency, a skin incision is necessary.

Despite the advantages, the prototype device has several disadvantages. It is inconvenient and not always effective. An injection of another needle can cause increased pain in the patient and increase muscle spasm at the injection site of the acupuncture needle. In addition, the known device does not allow you to quickly remove muscle spasm and remove the acupuncture needle stuck in the tissues, which is important in this situation.

The objective of the invention is to make the device for relieving muscle spasm when removing the stuck acupuncture needle in the tissues convenient and easy to use, to exclude skin trauma.

EFFECT: increased convenience of work, increased speed and efficiency of extraction of an acupuncture needle stuck in the tissues, expansion of the arsenal of devices for relieving muscle spasm when removing an acupuncture needle stuck in the tissues.

In FIG. shows a diagram explaining the operation of the proposed device. The device contains an electric energy source consisting of a piezoelectric element 1 and a drive 2, a voltage limiter 3, an input connected to the first output of the piezoelectric element 1, an output of a rectifying diode 4 connected to the anode, the cathode of which is connected to the first output of the storage capacitor 5, the input of the electronic switch 6, the cathode protective diode 8 and the input of the starting element 7, the output of which is connected to the control input of the electronic switch 6, the output connected to the input of the pulse shaper 9, the output of which is connected It is connected to the first electrode 10, the second electrode 11 connected to the anode of the protective diode 8, the second terminal of the storage capacitor 5 and the second terminal of the piezoelectric element 1. Piezoelectric element 1 together with the drive 2 form a single structure - a piezoelectric voltage converter. As the excitation mechanism of the piezoelectric element 1, a mechanical drive 2 can be used, in which the muscular strength of the arm is used.

The device can have two operating modes (single and continuous exposure mode), although a single exposure mode is sufficient to achieve a technical result.

The present invention operates as follows. In the initial state, the circuit between the electrodes 10, 11 is open. Under the action of the drive 2, which once or periodically compresses the crystal of the piezoelectric element 1 (the action is shown by arrows in the drawing), high voltage electric energy is generated at the terminals of the latter. Energy is transmitted to the storage capacitor 5 through a series-connected voltage limiter 3 and a rectifier diode 4. The charge voltage of the capacitor 5 corresponds to the value set by the voltage limiter 3. The rectifier diode 4 prevents the reverse discharge of the capacitor 5, playing the role of an amplitude detector.

To protect the storage capacitor 5 from inverse overcharging, a protective diode 8 is connected in parallel with it. Thus, electric energy is accumulated on the capacitor 5, defined by the expression E = U ² C, where U is the voltage across the capacitor 5; C is the capacitance of the capacitor 5.

The accumulated charge on the capacitor 5 will remain until the circuit between the electrodes 10, 11 is closed. The discharge circuit of the capacitor 5 consists of an electronic switch 6 and a pulse shaper connected in series 9. The electronic switch 6 is a semiconductor switch controlled by a key element 7 connected between the capacitor 5 and the control input of the switch 6. The trigger element 7 has a non-linear impulse response. It is able to pass current (open) only when the voltage at its input reaches the threshold voltage value. At the moment of closing of the electrodes 10, 11, the starting element 7 enters a state of high conductivity, since the voltage of the charged capacitor exceeds the threshold voltage of the element 7. The capacitor 5 begins to discharge through the open starting element 7, the input circuit of the switch 6, the pulse shaper 9 and the closed electrodes 10, 11 . The current passing through the control input of the switch 6, puts it in an open state. As a result of this, the storage capacitor 5 is discharged through the power circuit of the device and the closed electrodes 10, 11.

The pulse shaper 9 is an LCR - two-terminal, which allows you to generate pulses of exposure to a given amplitude, duration and shape, that is, to distribute the energy of the storage capacitor 5 according to a certain law in time. If necessary, the parameters of the LCR circuit can be selected in such a way that the device will be able to generate a packet of decaying pulses of a certain frequency using one charge cycle of the capacitor 5. This mode is energy-saving (economical), since the excitation of the piezoelectric element 1 can be stopped after the capacitor 5 is fully charged, how its discharge can occur when the source of electrical energy is turned off. This is convenient, especially if the muscular power of a reflexologist is used as a mechanical drive.

Exposure to a stick of a stuck needle by a discharge of electricity is possible both in a single mode and in a continuous exposure mode. For this, one of the electrodes, for example 10, must be connected to the skin of the patient 12, and the other electrode, for example 11, is connected to the handle 13 of the jammed needle.

After exposure to the handle of an acupuncture needle by a discharge of electricity, a stuck needle is easily removed, since this effect relaxes the spasmodic muscle, leading to normalization of muscle tone.

The advantages of the proposed device are that the device allows painless and without damage to the skin to act on the deep tissue around the reflexology point to relieve muscle spasm, eliminates trauma to deep tissue, thereby allowing you to quickly remove the stuck in the tissues acupuncture needle.

Claims (1)

An electromechanical device for removing an acupuncture needle stuck in the tissues, containing two electrodes, one of which is connected to the skin of the patient, the other electrode is connected to the handle of the jammed needle, consisting of a piezoelectric element and a drive, a voltage limiter, an input connected to the first output of the piezoelectric element, the output connected to the rectifier diode anode, the cathode of which is connected to the first output of the storage capacitor, the input of the electronic switch, the cathode of the protective diode and the input of the starting element coagulant, whose output is connected to the control input of the electronic switch, the output connected to the input of the pulse shaper, the output of which is connected to the first electrode and second electrode connected to the anode of the protective diode, the second terminal of the storage capacitor and the second terminal of the piezoelectric element.

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