CN218391885U - Deep-layer thermotherapy apparatus - Google Patents

Abstract

The utility model discloses a deep layer thermotherapy appearance, including casing, control assembly and massage head, massage head is including electric capacity massage head and resistance massage head, the overhead insulating layer that is equipped with of electric capacity massage, resistance massage head is equipped with the conducting layer, and resistance massage head and electric capacity massage head transmit the energy for the human body respectively.

Description

Deep layer thermotherapy apparatus

Technical Field

The utility model relates to the technical field of medical equipment, concretely relates to deep layer thermotherapy appearance.

Background

People want to reduce the skin aging phenomenon in life; or removing cold in uterus, and repairing after delivery; or to alleviate disease pain.

Therefore, there is a continuing development of a thermotherapy device that contacts a body part of a user or performs a massage.

SUMMERY OF THE UTILITY MODEL

Aiming at solving the problem that people reduce the skin aging phenomenon; or removing cold in uterus, and repairing after delivery; or alleviate the pain of the disease, the present invention provides a deep hyperthermia treatment apparatus using Capacitive Electrotransport (CET) and Resistive Electrotransport (RET).

The technical scheme of the utility model lies in:

the utility model relates to a deep tepid therapeutic instrument, including casing, control assembly and massage head, control assembly locates in the casing, and the casing top is arranged in to the massage head, the first electric connection control assembly of massage, massage head is including electric capacity massage head and resistance massage head, and control assembly drive resistance massage head produces the electric current, and control assembly drive electric capacity massage head produces and gathers the heat accumulation.

Furthermore, the control assembly comprises a main control board, a touch display screen and a temperature sensor, the touch display screen and the temperature sensor are electrically connected with the main control board, the temperature sensor is used for monitoring the temperature of the massaged part of the human body, a user sends a working instruction to the main control board through the touch display screen, and the main control board transmits data and equipment parameters monitored by the temperature sensor back to the touch display screen.

Furthermore, a placing frame is arranged on the shell, a plurality of notches are arranged on the placing frame, and the massage heads are clamped on the notches, so that the massage heads are placed on the placing frame.

Furthermore, an insulating layer is arranged on the capacitance massage head, and a conductive layer is arranged on the resistance massage head.

Furthermore, a plurality of connecting plugs and power plugs are arranged on the shell, the power line of the massage head is connected with the connecting plugs, and the power plugs are inserted into wires to be connected with commercial power to electrify the deep-layer thermotherapy apparatus.

Furthermore, a power switch is arranged on the side of the connecting plug, and the power switch controls the on-off of the deep-layer hyperthermia therapeutic apparatus.

Furthermore, a heat radiation fan is arranged in the shell, and the control assembly is cooled through the heat radiation fan.

The beneficial effects of the utility model reside in that, including casing, control assembly and massage head, massage head is including electric capacity massage head and resistance massage head, the overhead insulating layer that is equipped with of electric capacity massage, resistance massage head is equipped with the conducting layer, and resistance massage head and electric capacity massage head are respectively with energy transfer for the human body.

Drawings

Fig. 1 is a schematic structural view of a deep-layer thermotherapy device of the present invention;

fig. 2 is a schematic structural view of a deep layer thermotherapy device of the present invention;

FIG. 3 is a schematic view of the deep thermotherapy device without the massage head;

FIG. 4 is a schematic view of the exploded shell of the deep hyperthermia therapeutic apparatus of the present invention;

fig. 5 is a circuit block diagram of a control module of the deep-layer thermotherapy device of the present invention;

FIG. 6 is an electrical schematic diagram of the deep layer thermotherapy device of the present invention;

in the figure, 1 is a shell, 11 is a placing frame, 111 is a notch, 12 is a connecting plug, 13 is a power plug, 14 is a power switch, 15 is a cooling fan, 2 is a control component, 21 is a main control board, 22 is a touch display screen, 23 is a temperature sensor, 24 is a power supply component, 3 is a massage head, 31 is a capacitance massage head, 32 is a resistance massage head, and 33 is a negative plate.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings of the present invention.

Referring to fig. 1, the power cord has all been omitted in the figure, the utility model provides a deep thermotherapy apparatus, including casing 1, control assembly 2 and massage head 3, control assembly 2 locates in casing 1, and massage head 3 arranges casing 1 top in, and massage head 3 electricity connection control assembly 2, massage head 3 is including electric capacity massage head 31 and resistance massage head 32, and control assembly 2 drive resistance massage head 31 produces electric current, and control assembly 2 drive electric capacity massage head 32 produces electric current and gathers the heat.

Referring to fig. 5 and 6, the control assembly 2 includes a main control board 21, a touch display screen 22 and a temperature sensor 23, the touch display screen 22 and the temperature sensor 23 are electrically connected to the main control board 21, the chip model of the main control board 21 can be STC12C5a32S2, the temperature sensor 23 is used for monitoring the temperature of the massaged part of the human body, the user sends a working instruction to the main control board 21 through the touch display screen 22, and the main control board 21 returns the data and the device parameters monitored by the temperature sensor 23 to the touch display screen 22.

The capacitance massage head 31 and the resistance massage head 32 are further connected with a negative plate 33, the control assembly 2 further comprises a power supply assembly 24, the power supply assembly 24 comprises a radio frequency power supply and a switch power supply, the power supply 14 is connected with the switch power supply, the switch power supply supplies power for the main control board 21 and the cooling fan 15, and the radio frequency power supply receives an instruction of the main control board 21 and controls the capacitance massage head 31 and the resistance massage head 32 to output energy.

In fact, the voltage value fed back by the temperature sensor 23 is transmitted to the ADC port of the main control board 21, the actually measured temperature is calculated by a program and is transmitted to the touch display screen 22, and the main control board 21 controls the output power of the power supply module 24 by using the PWM technique, thereby implementing the temperature control function.

The capacitance massage head 31 and the resistance massage head 32 are used in cooperation with the negative plate 33, the power supply assembly 24 → the resistance massage head 32 or the capacitance massage head 31 → the human body → the negative plate 33 → the power supply assembly 24 forms a resistive or capacitive circuit, and the control assembly 2 controls the power supply assembly 24 to output an oscillating current to the human body about 50 ten thousand times per second through the resistance massage head 32 or the capacitance massage head 31. The human body mainly depends on the movement of particles to conduct current, the concentration and the change direction of ions change back and forth along with the current direction under the action of high-frequency alternating current, the ions between the two electrodes move rapidly along the power direction under high-frequency oscillation, the moving state is gradually changed into a vibration state, and the ions rub against each other and collide with other power force due to different sizes, masses, charges and moving speeds of various ions, so that the biological heat action is generated.

The mains supply is connected into the deep-layer thermotherapy apparatus, the main control board 21 plays a main role through the control component 2, voltage regulation is carried out, stable PWM waves are output, matched currents are sent to the massage head, and electrotherapy and thermotherapy are carried out according to two conditions that the currents flow into the insulating end and the non-insulating end.

Entering the touch display screen 22, first selecting the capacitive massage head 31 or the resistive massage head 32, second selecting "duration", "mode" and "intensity", and finally clicking the "start" button.

Referring to fig. 2-4, a placing frame 11 is disposed on the housing 1, a plurality of notches 111 are disposed on the placing frame 11, and the massage heads 3 are clamped on the notches 111, so as to place the massage heads 3 on the placing frame 11.

The capacitance massage head 31 is provided with an insulating layer which can be plastic or rubber, the resistance massage head 32 is provided with a conductive layer which can be made of stainless steel.

Referring to fig. 2, the capacitance massage head 31 and the resistance massage head 32 include 2 sizes, which are a large size and a small size, one each.

A plurality of connecting plugs 12 and power plugs 14 are arranged on the shell 1, the power line of the massage head 3 is connected with the connecting plugs 12, and the power plugs 14 are inserted into wires to be connected with commercial power to electrify the deep-layer thermotherapy apparatus.

A power switch 14 is arranged on the side of the connecting plug 12, and the power switch 14 controls the on-off of the deep-layer thermotherapy apparatus.

A heat radiation fan 15 is further arranged in the shell 1, and the control assembly is cooled through the heat radiation fan 15.

When the massage head 32 is used, current flows through the human body, and the deep skin of the human body starts to generate heat due to the movement of electrons, so that cells in the human body are activated, and the effect of repairing the deep skin is achieved.

When the capacitance massage head 31 is used, the massage head-human body-negative plate form a polar capacitance, the human body serves as a capacitance medium, the massage head is equivalent to the positive electrode of the capacitance, the negative plate is equivalent to the negative electrode of the capacitance, the current in the human body flows from the negative electrode to the positive electrode, the contact part of the massage head and the human body immediately generates heat, the superficial skin cells are activated, and the effect of the superficial skin is achieved.

During operation, the temperature sensor 23 transmits the skin temperature back to the main control panel 21, so that the function of real-time temperature monitoring is realized, the skin of a human body is prevented from being injured due to overheating, and the human body is protected.

The above-mentioned embodiment only expresses one implementation manner of the present invention, and the description thereof is specific and detailed, but not construed as limiting the scope of the present invention. It should be noted that, for those skilled in the art, without departing from the spirit of the present invention, several variations and modifications can be made, which are within the scope of the present invention. Therefore, the protection scope of the present invention should be subject to the appended claims.

Claims (7)

1. The deep-layer thermotherapy apparatus is characterized by comprising a shell, a control assembly and a massage head, wherein the control assembly is arranged in the shell, the massage head is arranged above the shell, the massage head is electrically connected with the control assembly, the massage head comprises a capacitance massage head and a resistance massage head, the control assembly drives the resistance massage head to generate current, and the control assembly drives the capacitance massage head to generate and collect heat.

2. The deep hyperthermia therapeutic apparatus according to claim 1, wherein the control module comprises a main control panel, a touch display screen and a temperature sensor, the touch display screen and the temperature sensor are electrically connected to the main control panel, the temperature sensor is used for monitoring the temperature of the massaged part of the human body, a user sends a working instruction to the main control panel through the touch display screen, and the main control panel transmits the data and the equipment parameters monitored by the temperature sensor back to the touch display screen.

3. The deep hyperthermia therapeutic apparatus according to claim 2, wherein the housing is provided with a placement frame, the placement frame is provided with a plurality of notches, and the massage heads are clamped on the notches, thereby placing the massage heads on the placement frame.

4. The deep hyperthermia therapeutic apparatus according to claim 1, wherein the capacitor massage head is provided with an insulating layer, and the resistor massage head is provided with a conductive layer.

5. The deep hyperthermia therapeutic apparatus of claim 1, wherein the housing is provided with a plurality of connection plugs and a power plug, the power cord of the massage head is connected to the connection plugs, and the power plug is plugged into a wire to connect with the mains supply to energize the deep hyperthermia therapeutic apparatus.

6. The deep hyperthermia therapeutic apparatus of claim 5, wherein a power switch is disposed on a side of the connection plug, and the power switch controls the deep hyperthermia therapeutic apparatus to be turned on or off.

7. The deep hyperthermia apparatus of claim 6, wherein a heat dissipating fan is further provided in the housing to cool the control unit.

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