CN219089868U - Handle of therapeutic apparatus and therapeutic apparatus - Google Patents

Abstract

The application discloses a handle of a therapeutic apparatus and the therapeutic apparatus, which are applied to the field of temperature detection, and comprise a handle body, a transmission line, a therapeutic head provided with a temperature detection component and a conversion transmission component for transmitting the temperature of the temperature detection component to the therapeutic apparatus; the treatment head is detachably connected with the handle body; the conversion transmission assembly comprises a conversion component, the transmission line is connected with the conversion component, and the conversion component is connected with the handle body; the conversion transmission assembly further comprises a conducting component which can be connected with the temperature detection component, and the conducting component is arranged on the conversion component. The treatment head is in the in-process of twisting with therapeutic instrument handle body, because the transmission line is connected with conversion part, and temperature detection part switches on through switching on the part, and conversion transmission assembly can acquire temperature detection part's temperature this moment, prevents to produce faults such as winding, knot, fracture or disconnection with the potsherd welding point at the in-process transmission line of twisting up when acquireing the temperature, leads to the therapeutic instrument to break down.

Description

Handle of therapeutic apparatus and therapeutic apparatus

Technical Field

The utility model relates to the field of temperature detection, in particular to a handle of a therapeutic apparatus and the therapeutic apparatus.

Background

The therapeutic instrument obtains user's temperature through the handle of therapeutic instrument, among the prior art, the piezoceramics piece setting is on the stainless steel treatment head of contact with user's skin, and the piezoceramics piece passes through the cable to be connected with the handle, and stainless steel treatment head still includes the thermistor of being connected with piezoceramics piece, and thermistor also needs to be connected with the handle through the cable, and after piezoceramics piece switched on, the therapeutic instrument obtained the temperature of treatment head through cable and thermistor. Because the treatment head is connected with the treatment handle body in a rotary screwing way, the cable is easy to have faults such as winding, knotting, fracture or disconnection with the welding point of the ceramic chip in the screwing process, and the treatment instrument is caused to be faulty.

Disclosure of Invention

The utility model provides an object provides a handle and therapeutic instrument of therapeutic instrument, prevent when obtaining the temperature that the in-process transmission line of twisting up from producing faults such as winding, knot, fracture or disconnection with ceramic wafer welding point, lead to the therapeutic instrument to break away.

In order to solve the technical problems, the application provides a handle of a therapeutic apparatus, which comprises a handle body, a transmission line, a therapeutic head provided with a temperature detection component and a conversion transmission component for transmitting the temperature of the temperature detection component to the therapeutic apparatus;

the treatment head is detachably connected with the handle body;

the conversion transmission assembly comprises a conversion component, the transmission line is connected with the conversion component, and the conversion component is connected with the handle body;

the conversion transmission assembly further comprises a conducting component capable of being connected with the temperature detection component, and the conducting component is arranged on the conversion component.

Preferably, the conversion component includes an interface socket, and the transmission line is connectable with the interface socket on the conversion component.

Preferably, the conducting component comprises an elastic thimble.

Preferably, the conversion component is a circuit control board.

Preferably, the conversion and transmission assembly further comprises a temperature sensor for acquiring the temperature of the temperature detection component.

Preferably, the temperature sensor further comprises an amplifying part;

the first pin of the temperature sensor is connected with the first end of the amplifying component, the third pin of the temperature sensor is connected with the second end of the amplifying component, and the amplifying component amplifies and outputs the voltage values of the first pin and the third pin;

the second pin of the temperature sensor is connected with the analog-to-digital converter, the fourth pin of the temperature sensor is grounded, and the second pin and the fourth pin are used for collecting the ambient temperature.

Preferably, the circuit further comprises a biasing member for outputting a biasing voltage to the amplifying member, and the biasing member is connected to the second end of the amplifying member so that the amplifying member outputs an accurate voltage.

Preferably, the temperature sensor is a thermopile infrared sensor.

Preferably, the temperature detecting member includes a piezoelectric ceramic sheet for connecting with the conducting member to conduct the positive electrode.

In order to solve the technical problem, the application also provides a therapeutic apparatus, which comprises the handle of the therapeutic apparatus.

The application discloses a handle of a therapeutic apparatus and the therapeutic apparatus, which are applied to the field of temperature detection, and comprise a handle body, a transmission line, a therapeutic head provided with a temperature detection component and a conversion transmission component for transmitting the temperature of the temperature detection component to the therapeutic apparatus; the treatment head is detachably connected with the handle body; the conversion transmission assembly comprises a conversion component, the transmission line is connected with the conversion component, and the conversion component is connected with the handle body; the conversion transmission assembly further comprises a conducting component which can be connected with the temperature detection component, and the conducting component is arranged on the conversion component. The treatment head is in the in-process of twisting with therapeutic instrument handle body, because the transmission line is connected with conversion part, and temperature detection part switches on through switching on the part, and conversion transmission assembly can acquire temperature detection part's temperature this moment, prevents to produce faults such as winding, knot, fracture or disconnection with the potsherd welding point at the in-process transmission line of twisting up when acquireing the temperature, leads to the therapeutic instrument to break down.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present application, the following description will briefly explain the drawings needed in the prior art and embodiments, and it is obvious that the drawings in the following description are only some embodiments of the present application, and that other drawings can be obtained according to these drawings without inventive effort for a person skilled in the art.

Fig. 1 is a schematic structural view of a handle of a therapeutic apparatus provided in the present application;

FIG. 2 is a schematic view of the handle of another therapeutic apparatus provided herein;

fig. 3 is a schematic structural diagram of a temperature sensor provided in the present application.

Detailed Description

The core of the application is to provide a handle of a therapeutic apparatus and the therapeutic apparatus, which can prevent faults such as winding, knotting, breakage or disconnection with a ceramic chip welding point in the screwing process of a transmission line when acquiring temperature, so that the therapeutic apparatus is in fault.

For the purposes of making the objects, technical solutions and advantages of the embodiments of the present application more clear, the technical solutions of the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is apparent that the described embodiments are some embodiments of the present application, but not all embodiments. All other embodiments, which can be made by one of ordinary skill in the art without undue burden from the present disclosure, are within the scope of the present disclosure.

Fig. 1 is a schematic structural diagram of a handle of a therapeutic apparatus provided in the present application, including a handle body 1 and a transmission line 2, and further including a therapeutic head 4 provided with a temperature detecting component 3 and a conversion transmission component 5 for transmitting the temperature of the temperature detecting component 3 to the therapeutic apparatus;

the treatment head 4 is detachably connected with the handle body 1;

the conversion transmission assembly 5 comprises a conversion part 51, the transmission line 2 is connected with the conversion part 51, and the conversion part 51 is connected with the handle body 1;

the transfer module 5 further comprises a conducting member 52 for enabling the temperature detection member 3, and the conducting member 52 is disposed on the transfer member 51.

Considering that the therapeutic apparatus obtains the user temperature through the handle of therapeutic apparatus, in the prior art, piezoceramics piece sets up on the stainless steel treatment head 4 that contacts with user's skin, and piezoceramics piece passes through the cable and is connected with the handle, and stainless steel treatment head 4 still includes the thermistor of being connected with piezoceramics piece, and thermistor also needs to be connected with the handle through the cable, and after piezoceramics piece switched on, the therapeutic apparatus obtained the temperature of treatment head 4 through cable and thermistor. Because the treatment head 4 is connected with the treatment handle body 1 by rotating and screwing, the cable is easy to have faults such as winding, knotting, fracture or disconnection with the welding point of the ceramic piece in the screwing process, so that the treatment instrument is in fault.

The application provides a handle of therapeutic instrument, conversion transmission subassembly 5 include conversion part 51, because conversion part 51 is connected with handle body 1, and transmission line 2 is connected with conversion part 51, can guarantee that transmission line 2 is being connected or the in-process of dismantling at the change over head with handle body 1, and transmission line 2 can not have winding, knot scheduling problem. The transfer assembly 5 further includes a conducting member 52, and when the treatment head 4 is connected to the handle body 1, the conducting member 52 on the transfer assembly 5 conducts the temperature detecting member 3 of the treatment head 4, and the transfer assembly 5 can detect the temperature of the temperature detecting member 3 at this time and can transfer the temperature to the treatment apparatus.

FIG. 2 is a schematic view of the handle of another therapeutic apparatus provided herein;

specifically, the handle of the therapeutic apparatus includes an upper case 11 and a lower case 12, and the transmission line 2 passes through the wire holder 6 and a cavity formed between the upper case 11 and the lower case 12, and is connected to the switching member 51. The wire protecting support 6 can protect the transmission wire 2 and reduce the possibility of breakage of the transmission wire 2. In the process of rotating and screwing the conversion head and the handle body 1, the transmission line 2 is connected with the conversion part 51 arranged on the handle body 1, so that the transmission line 2 cannot generate faults such as winding, knotting, breakage or disconnection with a ceramic chip welding point. At the same time, the conduction means 52 conducts the temperature detection means 3 so that the temperature of the temperature detection means 3 is acquired by the conversion transmission means 5, and the temperature is transmitted to the therapeutic apparatus through the cable so that the therapeutic apparatus can perform subsequent processing. In addition, a treatment head fixing piece 7 and a mounting screw 8 are also included.

In summary, the application discloses a handle of a therapeutic apparatus, which is applied to the field of temperature detection, and comprises a handle body 1, a transmission line 2, a therapeutic head 4 provided with a temperature detection component 3, and a conversion transmission component 5 for transmitting the temperature of the temperature detection component 3 to the therapeutic apparatus; the treatment head 4 is detachably connected with the handle body 1; the conversion transmission assembly 5 comprises a conversion part 51, the transmission line 2 is connected with the conversion part 51, and the conversion part 51 is connected with the handle body 1; the transfer module 5 further comprises a conducting member 52 for enabling the temperature detection member 3, and the conducting member 52 is disposed on the transfer member 51. In the process of screwing the treatment head 4 with the handle body 1 of the therapeutic apparatus, since the transmission line 2 is connected with the conversion component 51, the temperature detection component 3 is conducted through the conduction component 52, and at the moment, the conversion transmission component 5 can acquire the temperature of the temperature detection component 3, so that the transmission line 2 is prevented from generating faults such as winding, knotting, breakage or disconnection with a welding point of a ceramic wafer in the screwing process while acquiring the temperature, and the therapeutic apparatus is caused to be faulty.

Based on the above embodiments:

as a preferred embodiment, the conversion part 51 comprises an interface socket 511, and the transmission line 2 is connectable to the interface socket 511 on the conversion part 51.

Since the transmission line 2 does not necessarily need to be connected to the conversion unit 51 in real time, an interface socket 511 is provided in the conversion unit 51, and when the transmission line 2 needs to be connected to the conversion unit 51, the transmission line 2 is connected to the interface socket 511, and when the transmission line 2 does not need to be connected to the conversion unit 51, the transmission line 2 is disconnected from the interface socket 511.

By providing the interface socket 511, the connection of the transmission line 2 with the conversion part 51 is facilitated.

As a preferred embodiment, the conductive member 52 comprises an elastic spike.

Since the temperature detecting means 3 needs to be turned on, the temperature can be detected. Considering that the adapter is connected to the handle body 1 by means of rotary screwing, when there is a possibility of excessive screwing in the process of screwing the adapter, the temperature detecting member 3 on the adapter is turned on using a fixed connection means, and is easily broken at the time of excessive screwing. The elastic thimble is arranged, so that the possibility of fracture in the screwing process can be reduced.

Specifically, the elastic thimble is a spring thimble.

By using an elastic thimble as the conductive member 52, the possibility of breakage of the conductive member 52 during screwing can be reduced, and the handle can be protected.

As a preferred embodiment, the conversion part 51 is a circuit control board.

Considering that the switching part 51 needs to be connected to the transmission line 2, the detected temperature is transmitted to the therapeutic apparatus through the transmission line 2, while the conducting part 52 is provided on the switching part 51, the switching part 51 needs to satisfy the functions of power supply and signal transmission. The switching part 51 provided by the application is a circuit control board, supplies power to the conducting part 52, and can send temperature to the transmission line 2.

The temperature is sent to the transmission line 2 by the circuit control board, and the conduction member 52 is supplied with power, so that the conduction member 52 turns on the temperature detection member 3, so that the conversion transmission assembly 5 acquires the temperature of the temperature detection member 3.

FIG. 3 is a schematic structural diagram of a temperature sensor provided in the present application;

as a preferred embodiment, the conversion transmission assembly 5 further comprises a temperature sensor 53 for acquiring the temperature of the temperature detection means 3.

Considering that the prior art often employs a thermistor attached to the temperature detecting member 3 when detecting the temperature of the temperature detecting member 3, accuracy may not be sufficient in the detection process due to the upper limit of the thermistor temperature measurement. The temperature sensor is used for measuring the temperature of the temperature detection component 3, and after the conduction component 52 conducts the temperature detection component 3, the temperature sensor detects the temperature of the temperature detection component 3.

Specifically, the temperature sensor that this application provided is non-contact temperature sensor, and temperature sensor need not to contact with temperature detection part 3, and the temperature measurement upper limit does not receive the restriction of temperature-resistant degree of temperature sensing element, and resolution ratio and degree of accuracy are very high.

The temperature sensor is adopted to detect the temperature of the temperature detection component 3, and the temperature of the temperature detection component 3 can be detected more accurately while the problems of knotting or winding of the transmission line 2 are prevented.

As a preferred embodiment, the temperature sensor further includes an amplifying part 531;

the first pin of the temperature sensor is connected with the first end of the amplifying part 531, the third pin of the temperature sensor is connected with the second end of the amplifying part 531, and the amplifying part 531 amplifies and outputs the voltage values of the first pin and the third pin;

the second pin of the temperature sensor is connected with the analog-to-digital converter, the fourth pin of the temperature sensor is grounded, and the second pin and the fourth pin are used for collecting the ambient temperature.

The four interfaces of J1 represent four pins of the temperature sensor MRT116, pins 1 and 3 are thermopile temperature sensor voltage output pins, the output voltage is mu V magnitude, the voltage changes along with the temperature change of an object to be measured, pins 2 and 4 are pins of a built-in thermistor, a resistance value is arranged between pins 2 and 4, the resistance value changes along with the temperature change of the sensor, and the resistance value is 100KΩ at 25 ℃.

The MRT116 needs to read the resistance A of pins 2 and 4, reads the voltage value of AMB_TEMP point through an analog-digital converter, calculates the resistance A, obtains the ambient temperature Ta through a table look-up method, and then the voltages output by pins 1 and 3 are read through an ADC (analog-digital converter), VBIAS is the bias voltage, and is determined according to the range of V_OUT required to be output by a circuit system. The temperature of the object to be measured at the current ambient temperature can then be obtained from the V-T table given by the MRT116 technical manual.

The amplifying circuit is composed of a resistor R2, capacitors C1 and C3 and an operational amplifier U1, and amplifies and outputs the voltages of pins 1 and 3. The filter circuit is composed of resistors R1, R4 and capacitors C2 and C4, and filters the currents output from the pins 1, 3. The resistor R5 and the capacitor C5 are used for dividing and filtering the voltage output by the operational amplifier and outputting the voltage.

The temperature is detected by the MRT116, so that the influence caused by the environment is avoided, and the temperature of the temperature detection component 3 is detected more accurately.

As a preferred embodiment, a bias part 532 for outputting a bias voltage to the amplifying part 531 is further included, and the bias part 532 is connected to the second end of the amplifying part 531 so that the amplifying part 531 outputs an accurate voltage.

Considering that the amplifying part 531 needs to provide a bias voltage during operation to assist in a better operation of the amplifying part 531, the present application provides a bias part 532 for outputting the bias voltage to the amplifying part 531 so that the amplifying part 531 works better and outputs an accurate voltage value.

As a preferred embodiment, the temperature sensor is a thermopile infrared sensor.

The present application uses a thermopile infrared sensor as a temperature sensor in consideration of the influence that may be affected by the ambient temperature when detecting the temperature of the temperature detecting part 3.

Specifically, the MRT116 sensor is used for compensating the ambient temperature, so that the influence of the concentration of the ambient on the temperature of the temperature detection component 3 is reduced, and the detected temperature is more accurate.

As a preferred embodiment, the temperature detecting member 3 includes a piezoelectric ceramic plate for connecting with the conducting member 52 to conduct the positive electrode.

Considering that the piezoelectric ceramic plate needs to be conducted by the positive electrode and the negative electrode before the time and the temperature change, because the piezoelectric ceramic plate is connected with the treatment head 4, the negative electrode of the piezoelectric ceramic plate is conducted with the treatment head 4, and when the conducting component 52 is connected with the piezoelectric ceramic plate, the positive electrode of the piezoelectric ceramic plate is conducted, and at the moment, the piezoelectric ceramic plate is conducted, and the temperature starts to change.

The detection of the temperature of the user is realized through the conduction of the piezoelectric ceramic plate, and the detection is more convenient.

The application also provides a therapeutic apparatus, comprising the handle of the therapeutic apparatus.

The introduction of the therapeutic apparatus provided in the present application refers to the above embodiments, and is not repeated here.

In the present specification, each embodiment is described in a progressive manner, and each embodiment is mainly described in a different point from other embodiments, and identical and similar parts between the embodiments are all enough to refer to each other. For the device disclosed in the embodiment, since it corresponds to the method disclosed in the embodiment, the description is relatively simple, and the relevant points refer to the description of the method section.

It should also be noted that in this specification, relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising one … …" does not exclude the presence of other like elements in a process, method, article, or apparatus that comprises the element.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present application. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the application. Thus, the present application is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (10)

1. The handle of the therapeutic apparatus comprises a handle body and a transmission line, and is characterized by further comprising a therapeutic head provided with a temperature detection component and a conversion transmission component for transmitting the temperature of the temperature detection component to the therapeutic apparatus;

the treatment head is detachably connected with the handle body;

the conversion transmission assembly comprises a conversion component, the transmission line is connected with the conversion component, and the conversion component is connected with the handle body;

the conversion transmission assembly further comprises a conducting component capable of being connected with the temperature detection component, and the conducting component is arranged on the conversion component.

2. The therapeutic apparatus handle according to claim 1, wherein said switching member includes an interface socket, said transmission line being connectable to the interface socket on said switching member.

3. The therapeutic apparatus handle according to claim 1, wherein said conductive member comprises an elastic spike.

4. The therapeutic apparatus handle according to claim 1, wherein said switching means is a circuit control board.

5. The therapeutic apparatus handle according to claim 1, wherein said transition transmission assembly further comprises a temperature sensor for acquiring the temperature of said temperature sensing member.

6. The therapeutic apparatus handle according to claim 5, wherein said temperature sensor further comprises an amplifying means;

the first pin of the temperature sensor is connected with the first end of the amplifying component, the third pin of the temperature sensor is connected with the second end of the amplifying component, and the amplifying component amplifies and outputs the voltage values of the first pin and the third pin;

the second pin of the temperature sensor is connected with the analog-to-digital converter, the fourth pin of the temperature sensor is grounded, and the second pin and the fourth pin are used for collecting the ambient temperature.

7. The therapeutic apparatus handle according to claim 6, further comprising a biasing member for outputting a biasing voltage to said amplifying member, said biasing member being connected to a second end of said amplifying member so that said amplifying member outputs an accurate voltage.

8. The therapeutic apparatus handle according to claim 5, wherein said temperature sensor is a thermopile infrared sensor.

9. The handle of the therapeutic apparatus according to any one of claims 1 to 8, wherein the temperature detecting member comprises a piezoelectric ceramic sheet for connecting with the conducting member to conduct the positive electrode.

10. A therapeutic apparatus comprising a handle according to any one of claims 1 to 9.

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