CN211357452U - Hemorrhoid therapeutic instrument - Google Patents

Abstract

A hemorrhoid therapeutic apparatus relates to the technical field of medical instruments, solves the problems of complex structure and inconvenient use in the prior art, and comprises a shell, a power supply, a circuit board, a frequency modulator, a voltage regulator, a first connecting wire, a second connecting wire, a first handheld probe for contacting anus and a second handheld probe for contacting acupuncture points; the power supply is connected with the circuit board, the circuit board is arranged in the shell, and the circuit board outputs pulse voltage; the frequency modulator and the voltage regulator are both arranged on the shell, the pulse oscillation frequency output by the circuit board can be adjusted through the frequency modulator, and the output voltage of the circuit board can be adjusted through the voltage regulator; the first connecting wire is connected with the output end of the circuit board, and the second connecting wire is connected with the input end of the circuit board; the connecting lines I and the connecting lines II are movably connected with the handheld probes I and the handheld probes II in a one-to-one correspondence mode, or the connecting lines I and the connecting lines II are movably connected with the handheld probes II and the handheld probes I in a one-to-one correspondence mode. The utility model has simple structure, convenient operation and treatment, comfortable treatment feeling, direct effect on perianal treatment and obvious curative effect.

Description

Hemorrhoid therapeutic instrument

Technical Field

The utility model relates to the technical field of medical equipment, concretely relates to haemorrhoids therapeutic instrument.

Background

Physical factors are applied to meridians and acupoints of various parts of the human body for physical therapy, and the physical factors become common medical clinical means. The human body is composed of a multicellular growth community. Through scientific experimental research, each cell can be regarded as a micro battery, and the voltage of the micro battery is one twentieth of that of a dry battery. Therefore, the human body is an electrostatic sea, and the proportion and concentration of various positive and negative ions in the human body are closely related to the health condition of the human body. Meanwhile, the human body relies on a wide variety of nerves to transmit biological information and commands and to regulate the functions of the organs of the whole body. They have their own unique functions, and all of them have common electrical functions. An electrical phenomenon called an active current occurs when a spirit is subjected to stimulation or movement. Relying on this phenomenon to perform the correct function of the nerve origin. Because of this property of the nerve, a specific amount of current applied externally will respond extremely sensitively to the stimulus. The function of the stimulation varies with the type of stimulation.

Hemorrhoids are a common disease and cause the loss of labor force when the hemorrhoids are serious. The hemorrhoids are mostly treated by externally coating medicines, medicines directly introduced to the affected part or oral medicines, and physiotherapy hemorrhoid treatment instruments such as fumigation, vibration massage, infrared radiation and the like can also be adopted, but the existing hemorrhoid treatment instrument based on the above-mentioned therapy has a complex structure and is inconvenient to use.

SUMMERY OF THE UTILITY MODEL

In order to solve the problem, the utility model provides a hemorrhoid treatment instrument.

The utility model discloses a solve the technical scheme that technical problem adopted as follows:

a hemorrhoid therapeutic apparatus comprises a shell, a power supply, a circuit board, a frequency modulator, a voltage regulator, a first connecting wire, a second connecting wire, a first handheld probe and a second handheld probe; the circuit board comprises a rectifying and voltage-stabilizing module, a pulse generation module, a voltage power amplification module and an output amplitude regulation module; the rectification voltage-stabilizing module supplies voltage to the pulse generation module, the voltage power amplification module, the pulse boosting module and the output amplitude regulation module; the input end of the pulse generation module is connected with the output end of the rectification voltage stabilization module, and the pulse generation module generates a pulse signal; the input end of the voltage power amplification module is connected with the output end of the pulse generation module, and the voltage power amplification module amplifies power and amplifies voltage; the input end of the pulse boosting module is connected with the output end of the voltage power amplification module, and the pulse boosting module increases the output pulse amplitude value; the input end of the output amplitude adjusting module is connected with the output end of the pulse boosting module, and the output amplitude adjusting module adjusts output voltage;

the circuit board is arranged in the shell, and a power supply is connected with the rectification voltage-stabilizing module; the frequency modulator and the voltage regulator are both arranged on the shell, the frequency modulator is connected with the pulse generation module, the pulse oscillation frequency output by the circuit board can be adjusted through the frequency modulator, the voltage regulator is connected with the output amplitude adjustment module, and the output voltage of the circuit board can be adjusted through the voltage regulator; one end of the first connecting wire is connected with the output end of the output amplitude adjusting module, and one end of the second connecting wire is connected with the input end of the rectifying and voltage stabilizing module; the other end of the connecting wire I and the other end of the connecting wire II are movably connected with the handheld probe I and the handheld probe II in a one-to-one correspondence manner, or the handheld probe II and the handheld probe I are movably connected in a one-to-one correspondence manner; the first handheld probe is used for contacting the anus, and the second handheld probe is used for contacting acupuncture points.

Furthermore, the movable connection is splicing.

Furthermore, the first connecting wire comprises a first wire and a first plug, one end of the first wire is connected with the output end of the circuit board, and the other end of the first wire is connected with the first plug; the second connecting wire comprises a second wire and a second plug, wherein one end of the second wire is connected with the input end of the circuit board, and the other end of the second wire is connected with the second plug; the plug I and the plug II are identical in shape and size, the plug I is movably connected with the handheld probe I or the handheld probe II, and the plug II is movably connected with the handheld probe I or the handheld probe II.

Furthermore, the handheld probe I comprises a handheld part I and an anus contact part used for directly contacting the anus, the anus contact part is connected with the handheld part I, a first plug is arranged on the handheld part I, a first plug or a second plug is inserted into the first plug, a first conductor and a first conductor installation channel are arranged in the handheld part II, the first conductor is installed in the first conductor installation channel, one end of the first conductor is connected with the first plug, and the other end of the first conductor is connected with the anus contact part.

Furthermore, the left side face of the first handheld portion and the right side face of the first handheld portion are curved surfaces, when the anus contact portion is in contact with the haemorrhoids, the left side face of the first handheld portion is in contact with the left side face of the gluteal sulcus of the human body, and the right side face of the first handheld portion is in contact with the right side face of the gluteal sulcus of the human body.

Furthermore, the handheld part I comprises a first split body and a second split body, a first groove is formed in the first split body, a first protrusion is arranged on the second split body corresponding to the first groove, a split body of a conductor I installation channel and a split body of an insertion port are arranged on the connecting surface of the first split body and the second split body, and the first split body and the second split body are connected through the first groove and the first protrusion in an insertion mode; when the first split body and the second split body are connected, the first conductor installation channel split body on the first split body and the first conductor installation channel split body on the second split body form the first conductor installation channel, the first socket split body on the first split body and the first socket split body on the second split body form the first socket.

Furthermore, the handheld probe II comprises a handheld part II and an acupuncture point contact part used for directly contacting acupuncture points of a human body, a plug interface II is arranged on the handheld part II, a plug I or a plug II is inserted into the plug interface II, a conductor II and a conductor II installation channel are arranged in the handheld part II, the conductor II is installed in the conductor II installation channel, one end of the conductor II is connected with the plug interface II, and the other end of the conductor II is connected with the acupuncture point contact part.

Further, the rectification voltage stabilizing module comprises an induction voltage reducing module, a bridge-type rectification module and a capacitance voltage stabilizing module, the power supply adopts a power line connected with mains supply, the power line, the induction voltage reducing module, the bridge-type rectification module and the capacitance voltage stabilizing module are connected in sequence, the induction voltage reducing module converts the mains supply into low-voltage alternating current signals and transmits the low-voltage alternating current signals to the bridge-type rectification module, the bridge-type rectification module converts the low-voltage alternating current signals into low-voltage pulsating direct current signals and transmits the low-voltage pulsating direct current signals to the capacitance voltage stabilizing module, the capacitance voltage stabilizing module filters and stabilizes the low-voltage pulsating direct current signals to obtain stable low-voltage direct current signals, and the capacitance voltage stabilizing module is a pulse generating.

Further, the handheld probe is used for contacting the Shenque acupoint.

Furthermore, the pulse oscillation frequency of the circuit board is 40-50 Hz, the output voltage of the circuit board is 0-6V, and the output pulse amplitude of the circuit board is 0-100 Vp-p.

The utility model has the advantages that:

the utility model discloses a haemorrhoids therapeutic instrument passes through handheld probe one and two swing joint connecting wires one of handheld probe and connecting wire two, can realize handheld probe one and two exchangeable positions of handheld probe, change the electrode of handheld probe one and handheld probe two through changing, make things convenient for the treatment operation, make things convenient for follow-up cleanness and accomodate, the operator's operation of being convenient for, patient's psychology acceptance is high, can realize through simple structure that the positive and negative of handheld probe one and handheld probe two are changed, positive and negative change makes treatment good. The first handheld probe is a special hemorrhoid contact end, is comfortable in treatment feeling, directly acts on perianal treatment, and is remarkable in curative effect. Can adjust the pulse oscillation frequency of circuit board output through the frequency modulator, can adjust the output pulse amplitude of circuit board's output voltage simultaneously through the voltage regulator, simple easy operation, and can realize "three low one high", low pulse amplitude, low voltage effective value, low frequency promptly, high treatment intensity nevertheless makes the patient feel comfortable, treats and feels the sensing and leads deeply far. The utility model discloses a haemorrhoids therapeutic instrument simple structure, application method is simple, treats and feels strong, and the conduction effect is dark, can reach the most advanced level of physiotherapy equipment product, is showing the haemorrhoids curative effect.

Drawings

Fig. 1 is a top view of the hemorrhoid treatment apparatus of the present invention.

Fig. 2 is a front view of a first hand-held probe of the hemorrhoid treatment apparatus of the present invention.

Fig. 3 is a side view of a first hand-held probe of the hemorrhoid treatment apparatus of the present invention.

Fig. 4 is a structural diagram of a first split of the handheld probe of the hemorrhoid treatment instrument of the present invention.

Fig. 5 is a structural diagram of a first split of a first handheld probe and a first plug of the hemorrhoid treatment apparatus of the present invention.

Fig. 6 is a circuit diagram of the circuit board of the hemorrhoid treatment apparatus of the present invention.

In the figure: 1. the portable electronic device comprises a shell, 2, a power supply display lamp, 3, a power line, 4, a frequency modulator, 5, a voltage regulator, 6.1, a first wire, 6.2, a first plug, 7.1, a second wire, 7.2, a second plug, 8, a first handheld probe, 8.1, a first handheld part, 8.11, a first split body, 8.12, a first groove, 8.13, a first conductor, 8.14, a first conductor installation channel split body, 8.15, a first socket split body, 8.2, an anus contact part, 9, a second handheld probe, 10, a left side surface of the first handheld part, 11 and a right side surface of the first handheld part.

Detailed Description

In order to make the aforementioned objects, features and advantages of the present invention more clearly understood, the present invention will be described in further detail with reference to the accompanying drawings and detailed description.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention, however, the present invention may be practiced in other ways than those specifically described herein, and therefore the scope of the present invention is not limited by the specific embodiments disclosed below.

A hemorrhoid therapeutic apparatus, as shown in figure 1, comprises a shell 1, a power supply, a circuit board, a frequency modulator 4, a voltage regulator 5, a first connecting wire, a second connecting wire, a first handheld probe 8 and a second handheld probe 9.

The circuit board is connected with a power supply, is arranged in the shell 1 and outputs pulse voltage. The circuit board is provided with an output positive electrode (output end) and an output negative electrode (input end), wherein the output positive electrode is connected with the first connecting wire, and the output negative electrode is connected with the second connecting wire. One end of the connecting wire is connected with the circuit board, and the other end of the connecting wire can be connected with the first handheld probe 8 and the second handheld probe 9. One end of the connecting wire II is connected with the circuit board, and the other end of the connecting wire II can be connected with the handheld probe I8 and the handheld probe II 9. The other end of the first connecting wire is movably connected with the handheld probe I8, the other end of the second connecting wire is movably connected with the handheld probe II 9, or the other end of the first connecting wire is movably connected with the handheld probe II 9, and the other end of the second connecting wire is movably connected with the handheld probe I8. The connection of the first connecting wire and the first handheld probe 8 or the second handheld probe 9 is a movable connection, and in the embodiment, splicing is adopted; the connection of the second connecting wire and the first handheld probe 8 or the second handheld probe 9 is a movable connection, and the connection is in plugging connection in the embodiment. The first handheld probe 8 is used for contacting the anus, and the second handheld probe 9 is used for contacting acupuncture points. The circuit board can form a loop with a human body through the first connecting line, the second connecting line, the first handheld probe 8 and the second handheld probe 9, and the circuit board outputs pulse voltage to the human body through the first connecting line, the second connecting line, the first handheld probe 8 and the second handheld probe 9; when the first connecting wire is connected with the first handheld probe 8, the second connecting wire is connected with the second handheld probe 9, and the first handheld probe 8 and the second handheld probe 9 are both connected with the human body, the circuit board, the first connecting wire, the first handheld probe 8, the human body, the second handheld probe 9, the second connecting wire and the circuit board are sequentially and circularly connected to form a loop; when the first connecting line is connected with the second handheld probe 9, the second connecting line is connected with the first handheld probe 8, and the first handheld probe 8 and the second handheld probe 9 are both connected with the human body, the circuit board, the first connecting line, the second handheld probe 9, the human body, the first handheld probe 8, the second connecting line and the circuit board are sequentially connected in a circulating mode to form a loop.

The first connecting wire comprises a first wire 6.1 and a first plug 6.2, one end of the first wire 6.1 is connected with the output end of the circuit board, and the other end of the first wire is connected with the first plug 6.2. The second connecting wire comprises a second lead 7.1 and a second plug 7.2, one end of the second lead 7.1 is connected with the input end of the circuit board, and the other end is connected with the second plug 7.2.

The handheld probe II 9 comprises a handheld part II and an acupuncture point contact part, the acupuncture point contact part is used for directly contacting acupuncture points of a human body, and the acupuncture point contact part is connected with the handheld part II and is positioned on the lower side of the handheld part II. The second connecting line is connected with the acupuncture point contact part through the second handheld part. The second handheld portion is provided with a second inserting port, a second conductor is arranged in the second handheld portion, a second conductor installation channel is arranged in the second handheld portion, the second conductor is installed in the second conductor installation channel, one end of the second conductor is connected with the second inserting port, and the other end of the second conductor is connected with the acupuncture point contact portion. And any one of the first plug 6.2 or the second plug 7.2 can be inserted into the second jack. When the first plug 6.2 is inserted into the second jack, the first conductor 8.13 is electrically connected with the second lead 7.1 through the first plug 6.2; when the second plug 7.2 is inserted into the second jack, the second conductor is electrically connected with the second lead 7.1 through the second plug 7.2. Preferably, the second interface is arranged on the upper side of the second handheld part. The upper half side of the second hand-held part is usually held by hands. The circuit board is connected with the acupuncture points of the human body through the connecting line II, the conductor II and the acupuncture point contact part.

The first handheld probe 8 comprises a first handheld part 8.1 and an anus contact part 8.2, as shown in fig. 2 and 3. The anus contact part 8.2 is used for directly contacting the anus, and the anus contact part 8.2 is connected with the first handheld part 8.1 and is positioned on the lower side of the first handheld part 8.1. The first connecting line is connected with the anus contact part 8.2 through the first handheld part 8.1. The first plug-in port is arranged on the first handheld portion 8.1, the first conductor 8.13 is arranged in the second handheld portion, the first conductor installation channel is arranged in the first handheld portion 8.1, the first conductor 8.13 is installed in the first conductor installation channel, one end of the first conductor 8.13 is connected with the first plug-in port, and the other end of the first conductor 8.13 is connected with the anus contact portion 8.2. Any one of the first plug 6.2 or the second plug 7.2 can be inserted into the first plug interface. When the first plug 6.2 is inserted into the first socket, the first conductor 8.13 is electrically connected with the first lead 6.1 through the first plug 6.2; when the second plug 7.2 is inserted into the first jack, the second conductor is electrically connected with the first lead 6.1 through the second plug 7.2. Preferably, the first socket is arranged on the upper side of the first handle part 8.1. The upper half of the first handle 8.1 is usually held by hand. The circuit board is connected with the anus through the first connecting wire, the first conductor 8.13 and the anus contact part 8.2.

The plug I6.2 and the plug II 7.2 are identical in structure, namely identical in shape and size, the plug I6.2 and the plug II 7.2 are completely identical, the plug I and the plug II are identical in structure, namely identical in shape and size, and the plug I and the plug II are completely identical; the plug I6.2 can be inserted into the socket I connecting conductor I8.13 and can be inserted into the socket II connecting conductor II; the plug II 7.2 can be inserted into the first connecting conductor I8.13 of the jack and can be inserted into the second connecting conductor II of the jack. The first plug 6.2 comprises a first insulating block (the upper half part of the first plug 6.2 in the figure 5), a first through hole is formed in the first insulating block, one end of a first metal inserting rod is connected with the first through hole, the first metal inserting rod except the part located in the first through hole can be inserted into the first plug-in port (the lower half part of the first plug 6.2 in the figure 5), the first metal inserting rod is connected with a first lead, and the joint of the first metal inserting rod and the first lead is located in the first through hole. The second plug 7.2 comprises a second insulating block, a second through hole is formed in the second insulating block, one end of a second metal inserting rod is connected into the second through hole, the second metal inserting rod except the part located in the second through hole can be inserted into the second inserting port, the second metal inserting rod is connected with a second wire, and the connecting position of the second metal inserting rod and the second wire is located in the second through hole. The shape of the first handheld part 8.1 is wide at the top and narrow at the bottom, the shape and the size of the first handheld part 8.1 are matched with the gluteal sulcus at the anus, and the shape and the size of the first handheld part 8.1 are matched with the gluteal sulcus at the anus. In use, when the anus contact part 8.2 contacts the hemorrhoids, the left side surface 10 of the first handheld part contacts (preferably is attached to) the left side surface of the human gluteal groove, and the right side surface 11 of the first handheld part contacts (preferably is attached to) the right side surface of the human gluteal groove. The cross section of the first handheld portion 8.1 is an isosceles triangle (a standard isosceles triangle or a similar isosceles triangle), the left side face 10 and the right side face of the first handheld portion correspond to the waist of the isosceles triangle in the cross section one to one, as shown in fig. 2, the left side face 10 and the right side face of the first handheld portion are both curved surfaces, the curved surfaces are concave curved surfaces, and the left side face and the right side face are symmetrical. The length of the first handheld part 8.1 is 245mm, the height is 35mm, the width of the upper end is 100mm, and the width of the lower end is 20 mm.

Handheld portion 8.1 includes first components of a whole that can function independently 8.11 and second components of a whole that can function independently, first components of a whole that can function independently 8.1 left half side of handheld portion 8.11, the second components of a whole that can function independently 8.1 right half side of handheld portion, as shown in fig. 4, be equipped with recess one 8.12 on the first components of a whole that can function independently 8.11, recess one 8.12 is cylindrical, the diameter is 10mm, it is equipped with protruding one to correspond recess one 8.12 on the second components of a whole that can function independently, protruding one is pegged graft recess one 8.12, first components of a whole that can function independently 8.11 and second components of a whole that can function independently. The connection surfaces of the first sub-body 8.11 and the second sub-body are respectively provided with a conductor first installation channel sub-body 8.14 and a socket sub-body 8.15, after the first sub-body 8.11 and the second sub-body are connected, the first sub-body 8.11 and the conductor first installation channel sub-body 8.14 on the second sub-body form a conductor first installation channel, and the first sub-body 8.11 and the socket sub-body 8.15 on the second sub-body form a socket I. The first sub-body 8.11, the first plug 6.2 and the anal contact part 8.2 are structured and arranged as shown in fig. 5.

The anus contact part 8.2 is U-shaped and made of metal conductor material. The anal interface 8.2 has a length ("width of the U") of 50mm, a height ("height of the U") of 25mm, a width ("thickness of the U") of 10mm, and a distance of 26mm from one end of the first handle 8.1. The first handheld part 8.1 is provided with an anus contact part 8.2 installation groove, and the anus contact part 8.2 is installed in the anus contact part 8.2 installation groove. The first sub-body 8.11 is provided with an anus contact part 8.2 mounting groove split body and the second sub-body is provided with an anus contact part 8.2 mounting groove split body, after the first sub-body 8.11 is connected with the second sub-body, the anus contact part 8.2 mounting groove split body on the first sub-body 8.11 and the anus contact part 8.2 mounting groove split body on the second sub-body form an anus contact part 8.2 mounting groove. The anus contact part 8.2 mounting groove on the first sub-body 8.11 is connected with the first conductor mounting channel sub-body 8.14 on the first sub-body 8.11 in a split manner, and the anus contact part 8.2 mounting groove on the second sub-body is connected with the first conductor mounting channel sub-body 8.14 on the second sub-body in a split manner.

The handheld part two comprises a third split and a fourth split, the third split is the left half side of the handheld part two, the fourth split is the right half side of the handheld part two, a groove two is arranged on the third split, the groove two is cylindrical, the diameter of the groove two is 10mm, a protrusion two is arranged on the fourth split corresponding to the groove two, the protrusion two is inserted into the groove two, and the third split and the fourth split are connected through the groove two and the protrusion two. And after the third split body and the fourth split body are connected, the conductor second installation channel split bodies on the third split body and the fourth split body form a conductor second installation channel, and the jack port split bodies on the third split body and the fourth split body form a jack port II.

The shape of the second handheld part and the shape of the acupoint contact part are both the handheld part and the acupoint contact part in the prior art, the acupoint contact part is made of a metal conductor material, for example, the acupoint contact part is hemispherical; the second hand-held part can be in a shape convenient for holding, such as a cylinder. The first handheld probe 8 and the second handheld probe 9 are made of conventional materials in the field. The connecting wire I, the connecting wire II, the plug I6.2, the plug II 7.2, the conductor I8.13 and the conductor II are all common conductors or the combination of any several conductors, the socket I and the socket II can also be metal conductors, for example, the wire I6.1 and the wire II 7.1 are connecting wires, the wire I8.13 and the wire II are metal rods, and the diameter is 8 mm. The structure and the insertion of the first plug 6.2 and the first insertion port, and the structure and the insertion of the second plug 7.2 and the second insertion port all adopt the prior art in the field.

The frequency modulator 4 is arranged on the shell 1, the frequency modulator 4 is connected with the circuit board, and the frequency modulator 4 is used for adjusting pulse oscillation frequency output by the circuit board, namely adjusting oscillation pulse frequency of the first handheld probe 8 and the second handheld probe 9. The voltage regulator 5 is arranged on the shell 1, the voltage regulator 5 is connected with the circuit board, and the voltage regulator 5 is used for regulating the output voltage of the circuit board, namely regulating the voltage between the first handheld probe 8 and the second handheld probe 9. The pulse oscillation frequency of the circuit board is 40-50 Hz, the output voltage of the circuit board is 0-6V, and the output pulse amplitude of the circuit board is 0-100 Vp-p. The frequency modulator 4 and the voltage regulator 5 can be structured as conventionally provided by adjusting means of the prior art, for example by using a rotary knob or a sliding knob.

In this embodiment, the power supply adopts a power line 3 with a plug, one end of the power line 3 is connected with the circuit board, the middle part of the power line passes through the circuit board, the other end of the power line is the plug of the power line 3, and the plug is used for connecting a commercial power socket.

Above-mentioned shell 1 is equipped with 2 mounting holes of power display lamp, and the circuit board includes power display lamp 2, and power display lamp 2 is used for showing whether the circuit board switches on, and when plug connection commercial power socket, power display lamp 2 lights, otherwise power display lamp 2 does not light.

The circuit board comprises a rectifying and voltage-stabilizing module, a pulse generation module, a voltage power amplification module, a pulse boosting module and an output amplitude adjusting module. The pulse generation module, the voltage power amplification module, the pulse boosting module and the output amplitude regulation are connected in sequence. The circuit board may further include an output display module. The frequency modulator 4 is connected with the pulse generation module, the frequency modulator 4 is manually adjusted, the resistance of the pulse generation module connected to the circuit board changes, and the pulse oscillation frequency output by the circuit board changes. The voltage regulator 5 is connected with the output amplitude regulating module, the voltage regulator 5 is manually regulated, and the resistance of the output amplitude regulating module connected to the circuit board changes, namely the output voltage of the circuit board is regulated. The circuit diagram of the circuit board is shown in fig. 6.

The rectification voltage-stabilizing module supplies safe voltage to the pulse generation module, the voltage power amplification module, the pulse boosting module and the output amplitude regulation module. The input end of the pulse generation module is connected with the output end of the rectification and voltage stabilization module (namely the anode of the rectification and voltage stabilization module), and the pulse generation module generates a pulse signal. The input end of the voltage power amplification module is connected with the output end of the pulse generation module, and the voltage power amplification module amplifies power and voltage, and amplifies pulse signal power and amplifies pulse signal voltage. The input end of the pulse boosting module is connected with the output end of the voltage power amplification module, the pulse boosting module increases the output pulse amplitude value, and the pulse signal voltage is further amplified after the relay voltage power amplification module. The input end of the output amplitude adjusting module is connected with the output end of the pulse boosting module, and the output amplitude adjusting module adjusts output voltage. The output end of the output amplitude adjusting module is an output positive electrode of the circuit board, the input end of the rectifying and voltage stabilizing module is an output negative electrode of the circuit board, the first connecting wire is connected with the output end of the output amplitude adjusting module, and the second connecting wire is connected with the input end of the rectifying and voltage stabilizing module. The output display module is connected with the output end of the output amplitude adjusting module, the output amplitude adjusting module supplies power to the output display module, the output display module is used for displaying whether the output amplitude adjusting module (namely two output ends) outputs voltage or not, and the output display module is connected with a human body in parallel when the therapeutic apparatus is used.

A rectification and voltage stabilization module:

the rectification voltage-stabilizing module comprises an induction voltage-reducing module, a bridge-type rectification module, a capacitance voltage-stabilizing module, a fuse protector F and a power display module. Circuit connection and function: the commercial power, the induction voltage reduction module, the bridge type rectification module, the capacitance voltage stabilization module and the power display module are connected in sequence. The induction voltage reduction module converts commercial power into a low-voltage alternating current signal and transmits the low-voltage alternating current signal to the bridge type rectification module, the bridge type rectification module converts the low-voltage alternating current signal into a low-voltage pulsating direct current signal and transmits the low-voltage pulsating direct current signal to the capacitor voltage stabilization module, the capacitor voltage stabilization module carries out filtering and voltage stabilization on the low-voltage pulsating direct current signal to obtain a stable low-voltage direct current signal, and the capacitor voltage stabilization module provides working voltage for the pulse generation module, the voltage power amplification module and the output amplitude adjustment. The power display module is connected with the capacitance voltage stabilizing module and used for displaying whether the rectification voltage stabilizing module is started or not.

The power line 3 of the therapeutic instrument circuit board is connected with a 220V50Hz AC power supply, namely, the induction voltage reduction module of the rectification voltage stabilization module is connected with the 220V AC power supply. The induction voltage reduction module reduces the voltage of the mains supply to human body safety alternating voltage through induction of the induction voltage reduction module, the induction voltage reduction module comprises a power isolation transformer T1, and the power isolation transformer T1 is connected with 220V/50Hz alternating current and reduces the voltage to low-voltage alternating voltage through induction. The power isolation transformer T1 has specification of 5W, 220V/12V and 50Hz, high strength insulation, 4000V iron core voltage resistance between high resistance (primary, 220V) and low resistance (secondary, 12V) of the transformer, and no breakdown in one minute; the power isolation transformer T1 transmits a 12V low voltage ac signal to the bridge rectifier module.

The fuse F is connected with a commercial power and power isolation transformer T1 and used for protecting a therapeutic instrument circuit board, and the fuse F with the specification of 0.1A, the diameter of 5mm multiplied by 20mm and the model of BLX-1 can be adopted.

The bridge type rectifying module adopts a bridge type rectifying circuit, namely comprises a rectifying diode D1, a rectifying diode D2, a rectifying diode D3 and a rectifying diode D4, wherein the specifications of the rectifying diode are withstand voltage of 100V and current of 3A. The bridge rectifier circuit is connected with the induction voltage reduction module and the capacitor voltage stabilization module, alternating current of the induction voltage reduction module is converted into direct current and then transmitted to the capacitor voltage stabilization module, and the bridge rectifier circuit outputs direct current pulsating voltage 17V.

The capacitance voltage stabilizing module comprises two filter electrolytic capacitors C1 and C2 which are connected in parallel and are 500 mu F/50V in specification. The pulsating voltage is deeply filtered and absorbed by two filtering electrolytic capacitors, and stable 17V direct-current voltage is output and supplied to the pulse generation module and the voltage power amplification module.

The stabilizing isolation diode D5 ensures that the work between the DC voltage output by the rectifying and voltage stabilizing module and the pulse generating module is more stable. The input end of the stable isolation diode D5 is connected with the bridge type rectifying module, the output end is connected with the pulse generating module, and D5 is arranged between the filter electrolytic capacitor C2 and the pulse generating module and also between the filter electrolytic capacitor C2 and a light emitting diode DG1 which is described below.

The positive pole of the commercial power is connected with one end of the fuse F, and the negative pole of the commercial power is connected with the primary end of the power isolation transformer T1. The other end of the fuse F is connected with the starting end of the primary blackspot of the power isolation transformer T1. The starting end and the secondary end of the power isolation transformer T1 with black points are connected with a bridge rectifier module, the anode of the bridge rectifier module is connected with one end of a filtering electrolytic capacitor C1, one end of a filtering electrolytic capacitor C2 and the anode of a stabilizing isolation diode D5, and the cathode of the bridge rectifier module is connected with the other end of the filtering electrolytic capacitor C1 and the other end of the filtering electrolytic capacitor C2.

The power display module comprises a light emitting diode DG1 and a light emitting diode step-down resistor R1. The light emitting diode DG1 uses a green light emitting diode with a diameter of 3mm and a voltage of 3V for displaying the power on/off. The R1 specification is power 1/2W, resistance 4.7K omega. The light emitting diode DG1 is mounted as the power supply display lamp 2 in the mounting hole of the power supply display lamp 2 in the housing 1.

The anode of the light emitting diode DG1 is connected with the cathode of the stable isolation diode D5, the cathode of the light emitting diode DG1 is connected with one end of the light emitting diode step-down resistor R1, and the other end of the light emitting diode step-down resistor R1 is connected with the cathode of the bridge type rectifying module.

A pulse generation module:

the pulse generation module includes: the pulse oscillation part comprises a pulse oscillation part stabilizing capacitor C3, a variable potentiometer RP1, a pulse oscillation frequency adjusting resistor R2, a terylene pulse oscillation capacitor C4, a pulse oscillation triode V1, a miniature pulse oscillation transformer T2 and a pulse signal voltage reduction resistor R3. The pulse generation module also comprises a pulse signal coupling electrolytic capacitor C5, a pulse signal coupling resistor R4 and a pulse signal strength adjusting resistor R5. One end of a pulse oscillation part stabilizing capacitor C3 is connected with the anode of a rectification voltage stabilizing module (the anode of the rectification voltage stabilizing module is the cathode of a stabilizing isolation diode D5 and is also the output end of the rectification voltage stabilizing module), and is also connected with one end of a terylene pulse oscillation capacitor C4, the other end of the pulse oscillation part stabilizing capacitor C3 is connected with the cathode of the rectification voltage stabilizing module and is also connected with one end of a variable potentiometer RP1, the other end of the variable potentiometer RP1 is connected with one end of a pulse oscillation frequency adjusting resistor R2, and the other end of the pulse oscillation frequency adjusting resistor R2 is connected with the other end of the terylene pulse oscillation capacitor C4. The starting end of the primary black point of the micro pulse oscillation transformer T2 is connected with the other end of the pulse oscillation frequency adjusting resistor R2 and the other end of the terylene pulse oscillation capacitor C4, namely welded; the primary end stop is connected with the base electrode of the pulse oscillation triode V1; the secondary starting end with black points is connected with the collector of the pulse oscillation triode V1, and the secondary stopping end is connected with the negative electrode of the rectification voltage stabilizing module. The emitter of the pulse oscillation triode V1 is connected with one end of a pulse signal voltage reduction resistor R3 and also connected with one end of a pulse signal coupling electrolytic capacitor C5. The other end of the pulse signal voltage reduction resistor R3 is connected with the cathode of the stable isolation diode D5. The other end of the pulse signal coupling electrolytic capacitor C5 is connected to one end of a pulse signal coupling resistor R4 and also to one end of a pulse signal strength adjusting resistor R5. The other end of the pulse signal intensity adjusting resistor R5 is connected with the cathode of the stable isolation diode D5. The other end of the pulse signal coupling resistor R4 is connected with a voltage power amplification module, in particular to a base electrode of a voltage amplification tube V2. RP1, R2, T2, C3, C4, V1, R3 are pulse oscillation portions. After the pulse generation module provides electricity to the rectifying and voltage stabilizing module, the pulse oscillation part stabilizing capacitor C3 stabilizes the vibration-assisting capacitor and the terylene pulse oscillation capacitor C4 oscillation capacitor, electricity is firstly supplied through the variable potentiometer RP1 pulse oscillation frequency adjusting resistor R2, when the voltage of the two ends of the terylene pulse oscillation capacitor C4 rises to the triggering voltage value of the base of the pulse oscillation triode V1, the terylene pulse oscillation capacitor C4 discharges the base of the V1 and the emitter of the V1 through the primary winding of the miniature pulse oscillation transformer T2, the V1 is conducted, the current of the emitter and the collector of the V1 is increased, and the voltage value generated at the two ends of the pulse signal reducing resistor R3 connected with the emitter is a pulse signal. The counter-potential generated by a secondary winding of T2 is used for vibration. The cathode of the coupling electrolytic capacitor C5 and the R3 are welded on the emitter of the V1, the anode of the coupling electrolytic capacitor C5 is connected with a pulse signal coupling resistor R4 in series to input a pulse signal to the base of the voltage amplifying tube V2, the anode of the coupling electrolytic capacitor C5 and the welding point of the R4 are welded on one end of a pulse signal intensity adjusting resistor R5, the other end of the pulse signal intensity adjusting resistor R5 is welded on the anode of the rectifying and voltage stabilizing module (namely the anode of a circuit board), and the intensity of the pulse signal is adjusted.

The variable potentiometer RP1 can be manually adjusted, and when the resistance of the variable potentiometer RP1 is increased (adjusted upwards in a circuit diagram), the pulse oscillation frequency is reduced; when the variable potentiometer RP1 is changed in resistance (adjusted downward in the circuit diagram), the pulse oscillation frequency increases. The frequency modulator 4 is connected with the adjusting end of the variable potentiometer RP1, and the size of the resistance of the variable potentiometer RP1 is changed by rotating/sliding the frequency modulator 4, so that the size of the output pulse oscillation frequency of the circuit board is adjusted. The pulse oscillation frequency of the circuit board is 40-50 Hz.

The method specifically comprises the following steps: the electrolytic capacitor is 47 mu F/50V in a C3 specification. RP1 model X-1W, 220K Ω. R2 standard 1/4W, R2 resistance 200K omega-240K omega arbitrary numerical value. C4 specification 0.1 muF/63V. T2 turns ratio 3:1, 1800 turns at a time, 600 turns at a time. V1 model 3A × 30-3A × 31. R3 Specification 1/4W, 200 omega. C5 specification 10 muF/50V. R4 Specification 1/4W, 1K omega. R5 Specification 1/4W, 4.7K Ω.

The voltage power amplification module:

the voltage power amplification module comprises a voltage amplification tube V2, a power amplification tube V3 and a temperature drift stabilizing resistor R6. The base electrode of the voltage amplifying tube V2 is connected with the pulse signal coupling resistor R4, and the collector electrode of the voltage amplifying tube V2 is connected with the collector electrode of the power amplifying tube V3 and also connected with the pulse boosting module. One end of the temperature drift stabilizing resistor R6 is connected with the emitter of the voltage amplifying tube V2 and also connected with the base of the power amplifying tube V3, and the other end of the temperature drift stabilizing resistor R6 is connected with the anode of the rectifying and voltage stabilizing module. The emitter of the power amplifying tube V3 is connected with the anode of the rectifying and voltage stabilizing module. The collector of the voltage amplifying tube V2 is connected in parallel with the collector of the power amplifying tube V3. The temperature drift stabilizing resistor R6 stabilizes the temperature drift of the power amplifier tube V3. The voltage amplifying tube V2 collecting electrode and the power amplifying tube V3 collecting electrode are connected in parallel, not only can make the therapeutic instrument circuit board be difficult to burn out, still to pulse boost helping and impel the effect. The voltage amplifying tube V2 is 3A × 30. The power amplifier tube V3 is model 3AD 6C. Temperature drift stabilization resistance R6, specification 1/4W, 4.7K Ω.

The pulse boosting module:

the pulse voltage after power amplification can not meet the treatment requirement of the hemorrhoid instrument, and the pulse voltage can only pass through the pulse boosting module. The pulse boosting module comprises a pulse boosting micro-transformer T3, a pulse boosting micro-transformer T4 and an output direct current blocking electrolytic capacitor C6.

The starting end of the pulse boosting micro-transformer T3 with the black point at the primary side is connected with the negative electrode of the rectification voltage-stabilizing module, the primary end stop is connected with the collector electrode of the voltage amplifying tube V2 and also connected with the collector electrode of the power amplifying tube V3, the starting end of the secondary with the black point is connected with the collector electrode of the voltage amplifying tube V2 and also connected with the collector electrode of the power amplifying tube V3, and the secondary end stop is connected with the starting end of the pulse boosting micro-transformer T4 with the black point at the secondary side. The starting end of the pulse boosting micro-transformer T4 with black dots is connected with the negative electrode of the rectification and voltage stabilization module, the primary end stop is connected with the collector electrode of the voltage amplifying tube V2 and the collector electrode of the power amplifying tube V3, and the secondary end stop is connected with one end of the output direct current isolation electrolytic capacitor C6. The other end of the output direct current cut-off electrolytic capacitor C6 is connected with an output amplitude adjusting module. The T3 secondary end stop is connected in series with the T4 secondary start with black dots, so that the output pulse amplitude value is doubled.

R6 Specification 1/4W, 4.7K Ω. The turn ratios of T3 and T4 were 1: 5.

An output amplitude adjusting module:

the starting ends of the variable potentiometers RP2 and RP2 are connected with the negative electrode of the rectifying and voltage-stabilizing module, the tail end of the RP2 is connected with the output direct-current cut-off electrolytic capacitor C6, and the regulating end of the RP2 is connected with the voltage regulator 5. RP2 model X-1W, 2.2K. C6 specification 47 muF/160V. The negative electrode of the rectifying and voltage stabilizing module is an output negative electrode, and the regulating end of the RP2 is an output positive electrode.

When the resistance of the variable potentiometer RP2 is increased (corresponding to upward adjustment in a circuit diagram), the output voltage is reduced, the current is reduced, and the output pulse amplitude is reduced by manually adjusting the variable potentiometer RP 2; when the resistance of the variable potentiometer RP2 is small, the pulse voltage is increased (0-6V +/-1), the current is enhanced, the output pulse amplitude is increased (0-100 Vp-p), and the effective voltage is output to be 0-6V. The voltage regulator 5 is connected with the variable potentiometer RP2, and the resistance of the variable potentiometer RP2 is changed by rotating/sliding the voltage regulator 5, so that the output voltage of the circuit board is adjusted, and the output pulse amplitude is synchronously adjusted.

An output display module:

an output display light emitting diode DG2, an output display light emitting diode DG3 and a light emitting diode step-down resistor R7. The output display light emitting diode DG2 and the output display light emitting diode DG3 are connected in parallel and then connected in series with a light emitting diode step-down resistor R7, namely, the anode of the output display light emitting diode DG2 and the anode of the output display light emitting diode DG3 are both connected with one end of a light emitting diode step-down resistor R7, the cathode of an output display light emitting diode DG2 and the cathode of an output display light emitting diode DG3 are connected with the cathode of a rectifying and voltage stabilizing module, and the other end of the light emitting diode step-down resistor R7 is. DG2 and DG3 both had a diameter of 3mm and a voltage of 3V. R7 specification 1/4W, 2K omega.

The housing 1 may be provided with an output display lamp mounting position, the output display lamp is an output display light emitting diode DG2 and an output display light emitting diode DG3, and the output display lamp mounting position is a mounting position of the output display light emitting diode DG2 and a mounting position of the output display light emitting diode DG 3.

The structure and connection not described in detail above can be realized by using a conventional structure and connection method, for example, the connection structure of the frequency modulator 4 and the circuit board is a connection structure conventional in the art, and the connection structure of the voltage regulator 5 and the circuit board is a connection structure conventional in the art.

The utility model relates to a use method of a hemorrhoid treatment instrument, which comprises the following steps:

s1, first, the first connection line I is connected with the first handheld probe 8, and the second connection line II is connected with the second handheld probe 9.

S2, placing the first handheld probe 8 on the anus, placing the second handheld probe 9 on the Shenque acupoint, and keeping the circuit board powered on for 3-5 min (namely, the power supply powered on for 3-5 min).

In the process, the circuit board and the human body form a complete current loop, and the current is output from the first connecting wire, passes through the first handheld probe 8 and the human body, and returns from the second handheld probe 9 and the second connecting wire. The pulse signal is also output from the first handheld probe 8 and returned through the human body by the second handheld probe 9. The handheld probe I8 at the anus can play a role in calming nerve tissues around the most painful point at the anus, the yang qi at the pain point rises to the Shenque point, and the yin qi at the yin instrument point of the Shenque point falls to the pain point of the anus, so that the yang qi of the lower abdomen rises and the yin qi falls, microcirculation from the lower abdomen to the anus is promoted to be improved, and the healing of hemorrhoids is strengthened.

And S3, pulling the first connecting wire out of the first handheld probe 8 and pulling the second connecting wire out of the second handheld probe 9.

S4, inserting the first connecting wire into the second handheld probe 9, and inserting the second connecting wire into the first handheld probe 8.

S5, placing the first handheld probe 8 on the anus, placing the second handheld probe 9 on the Shenque acupoint, and keeping the circuit board powered on for 2-3 min (namely, powering on for 2-3 min).

In the process, the yin-qi of the tissues around the anus rises, and the yang-qi of the tissues around the Shenque acupoint falls to the lesion point at the anus, so that the hemorrhoid is cured slowly at the pain point of the anus.

The electric field is often utilized to act on the human body to carry out physical therapy, for example high-voltage physiotherapy nowadays, the utility model discloses based on the circuit board intercommunication to the human body, the human body is the same with prior art to the human function change principle behind the connecting circuit board. The utility model relates to a hemorrhoid therapeutic apparatus which utilizes the low-frequency electric pulse therapy principle. The low-frequency current directly flows into the human body, so that the low-frequency current flows into the position of the hemorrhoid, and the muscle of the anal sphincter is stimulated to cause contraction movement. The principle can be used for regulating excitability and inhibitability of perianal nerves, activating cell activity of perilesional tissues, enhancing local blood circulation and metabolism capability, and repairing and treating perilesional tissues. S2, outputting a pulse signal output by the positive electrode to stimulate the perianal nerve to contract and relax, and improving the perianal microcirculation; the 10 th intercostal nerve is arranged in the Shenque acupoint and is matched with the upper artery and the lower artery of the abdominal wall, and the pulse signals drive the large intestine and the small intestine to wriggle through the Shenque acupoint, so that the intra-abdominal pressure is changed together, the microenvironment of the abdomen and the perianal region is improved, the blood circulation is promoted, the rectal vein reflux is enhanced, and the extravasated blood vein mass is eliminated, so that the hemorrhoid treatment effect is good.

The utility model discloses a haemorrhoids therapeutic instrument is through handheld probe 8 and two 9 swing joint connecting wires of handheld probe one and connecting wire two, can realize handheld probe 8 and two 9 exchangeable positions of handheld probe, change the electrode of handheld probe 8 and two 9 of handheld probe through the change, make things convenient for the treatment operation, convenient follow-up cleanness and accomodating, the operator of being convenient for operates, patient's psychology acceptance is high, can realize through the simple structure that the positive and negative of handheld probe 8 and two 9 are changed, positive and negative change makes treatment good. The first handheld probe 8 is a special hemorrhoid contact end, is comfortable in treatment feeling, directly acts on perianal treatment, and is remarkable in curative effect. Can adjust the pulse oscillation frequency of output through frequency modulator 4, output pulse amplitude is adjusted simultaneously to the output voltage that can adjust the circuit board through voltage regulator 5, and simple easy operation, and realize "three low one high", low pulse amplitude, low-voltage effective value and low frequency promptly have high treatment intensity, make the patient feel comfortable, treat and feel to sense the conduction depth. The utility model discloses a haemorrhoids therapeutic instrument simple structure, it is strong to treat the sense, and the conduction effect is dark, can reach the most advanced level of physiotherapy equipment product, is showing the haemorrhoids curative effect.

The pulse oscillation frequency of the circuit board can be 40-50 Hz; the output voltage can be 0-6V, the output pulse amplitude of the circuit board can be 0-100 Vp-p, low pulse amplitude, low voltage effective value and low frequency are achieved, high treatment intensity is achieved, a patient feels comfortable, and treatment sensing conduction is deep and distant.

The specific structure of the circuit board is arranged as above, the circuit board realizes that the constant direct current voltage output by rectification of the safe low alternating current voltage is supplied to the whole machine through the stable direct current voltage output by the large capacitor voltage stabilization, the application performance of the semiconductor device of the whole machine is improved, and the whole machine is not easy to damage; in the therapeutic mechanism of the hemorrhoid therapeutic apparatus, a large direct current electrolytic capacitor is used for separating direct current components at the output, and pulse and alternating current components are transmitted, so that the side effect of direct current on a human body is avoided; the stepless voltage regulation output of the variable potentiometer is applied, and the treatment effect is stable, safe and reliable.

Claims (10)

1. A hemorrhoid therapeutic apparatus is characterized by comprising a shell (1), a power supply, a circuit board, a frequency modulator (4), a voltage regulator (5), a first connecting wire, a second connecting wire, a first handheld probe (8) and a second handheld probe (9); the circuit board comprises a rectifying and voltage-stabilizing module, a pulse generation module, a voltage power amplification module and an output amplitude regulation module; the rectification voltage-stabilizing module supplies voltage to the pulse generation module, the voltage power amplification module, the pulse boosting module and the output amplitude regulation module; the input end of the pulse generation module is connected with the output end of the rectification voltage stabilization module, and the pulse generation module generates a pulse signal; the input end of the voltage power amplification module is connected with the output end of the pulse generation module, and the voltage power amplification module amplifies power and amplifies voltage; the input end of the pulse boosting module is connected with the output end of the voltage power amplification module, and the pulse boosting module increases the output pulse amplitude value; the input end of the output amplitude adjusting module is connected with the output end of the pulse boosting module, and the output amplitude adjusting module adjusts output voltage;

the circuit board is arranged in the shell (1), and a power supply is connected with the rectification and voltage stabilization module; the frequency modulator (4) and the voltage regulator (5) are both mounted on the shell (1), the frequency modulator (4) is connected with the pulse generation module, the pulse oscillation frequency output by the circuit board can be regulated through the frequency modulator (4), the voltage regulator (5) is connected with the output amplitude regulation module, and the output voltage of the circuit board can be regulated through the voltage regulator (5); one end of the first connecting wire is connected with the output end of the output amplitude adjusting module, and one end of the second connecting wire is connected with the input end of the rectifying and voltage stabilizing module; the other end of the connecting line I and the other end of the connecting line II are movably connected with the handheld probe I (8) and the handheld probe II (9) in a one-to-one correspondence manner, or the handheld probe II (9) and the handheld probe I (8) in a one-to-one correspondence manner; the first handheld probe (8) is used for contacting the anus, and the second handheld probe (9) is used for contacting acupuncture points.

2. The hemorrhoid treatment apparatus of claim 1, wherein the flexible connection is a bayonet connection.

3. The hemorrhoid treatment apparatus according to claim 2, wherein the first connecting wire comprises a first wire (6.1) and a first plug (6.2), one end of the first wire (6.1) is connected with the output end of the circuit board, and the other end of the first wire is connected with the first plug (6.2); the second connecting wire comprises a second lead (7.1) and a second plug (7.2), one end of the second lead (7.1) is connected with the input end of the circuit board, and the other end of the second lead is connected with the second plug (7.2); the first plug (6.2) and the second plug (7.2) are identical in shape and size, the first plug (6.2) is movably connected with the first handheld probe (8) or the second handheld probe (9), and the second plug (7.2) is movably connected with the first handheld probe (8) or the second handheld probe (9).

4. The hemorrhoid treatment apparatus according to claim 3, wherein the first handheld probe (8) comprises a first handheld portion (8.1) and an anus contact portion (8.2) for directly contacting with an anus, the anus contact portion (8.2) is connected with the first handheld portion (8.1), the first handheld portion (8.1) is provided with a first insertion port, the first insertion port is internally inserted with the first insertion head (6.2) or the second insertion head (7.2), the second handheld portion is internally provided with a first conductor (8.13) and a first conductor installation channel, the first conductor (8.13) is installed in the first conductor installation channel, one end of the first conductor (8.13) is connected with the first insertion port, and the other end of the first conductor (8.13) is connected with the anus contact portion (8.2).

5. The hemorrhoid treatment apparatus according to claim 4, wherein the left side (10) of the first handle portion and the right side (11) of the first handle portion are both curved, and when the anal contact portion (8.2) contacts the hemorrhoid, the left side (10) of the first handle portion contacts the left side of the human gluteal sulcus, and the right side (11) of the first handle portion contacts the right side of the human gluteal sulcus.

6. The hemorrhoid treatment instrument according to claim 4, wherein the first handheld part (8.1) comprises a first split body (8.11) and a second split body, the first split body (8.11) is provided with a first groove (8.12), the second split body is provided with a first protrusion corresponding to the first groove (8.12), the connecting surfaces of the first split body (8.11) and the second split body are respectively provided with a conductor-mounting channel split body (8.14) and a plug-in port-split body (8.15), and the first split body (8.11) and the second split body are connected through the plug-in connection of the first groove (8.12) and the first protrusion; when the first split body (8.11) is connected with the second split body, the first conductor installation channel split body (8.14) on the first split body (8.11) and the first conductor installation channel split body (8.14) on the second split body form a first conductor (8.13) installation channel, and the first socket split body (8.15) on the first split body (8.11) and the first socket split body (8.15) on the second split body form a first socket.

7. The hemorrhoid treatment apparatus according to claim 3, wherein the second handheld probe (9) comprises a second handheld part and an acupoint contact part for directly contacting with the acupoints of the human body, the second handheld part is provided with a second interface, a first plug (6.2) or a second plug (7.2) is inserted into the second interface, a second conductor and a second conductor installation channel are arranged in the second handheld part, the second conductor is installed in the second conductor installation channel, one end of the second conductor is connected with the second interface, and the other end of the second conductor is connected with the acupoint contact part.

8. The hemorrhoid treatment apparatus according to claim 1, wherein the rectifying and voltage-stabilizing module comprises an induction voltage-reducing module, a bridge-type rectifying module and a capacitance voltage-stabilizing module, the power supply adopts a power line (3) connected with the commercial power, the power line (3), the induction voltage-reducing module, the bridge-type rectifying module and the capacitance voltage-stabilizing module are connected in sequence, the induction voltage-reducing module converts the commercial power into a low-voltage alternating current signal and transmits the low-voltage alternating current signal to the bridge-type rectifying module, the bridge-type rectifying module converts the low-voltage alternating current signal into a low-voltage pulsating direct current signal and transmits the low-voltage pulsating direct current signal to the capacitance voltage-stabilizing module, the capacitance voltage-stabilizing module filters and stabilizes the low-voltage pulsating direct current signal to obtain a stabilized low-voltage direct current signal.

9. The hemorrhoid treatment apparatus of claim 1, wherein the second hand-held probe (9) is adapted to contact the Shenque point.

10. The hemorrhoid treatment apparatus according to claim 1, wherein the circuit board has a pulse oscillation frequency of 40-50 Hz, an output voltage of 0-6V, and an output pulse amplitude of 0-100 Vp-p.

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