JP2001353147A - Medical equipment and ultrasonic diagnostic instrument - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide medical equipment with which a person contacted with surface of a medical sensor can peacefully and pleasantly take a medical treat ment and an ultrasonic diagnostic instrument with which the person contacted with surface of an ultrasonic probe can take an ultrasonic diagnosis peacefully and pleasantly, in the medical equipment provided with the medical sensor for detecting the information of the living body through the contact surface and the ultrasonic diagnostic instrument provided with the ultrasonic probe as the medical sensor. SOLUTION: The medical sensor is provided with temperature measurement parts 216 and 101 for measuring the temperature of the contact surface, a heating part 214 for heating the contact surface, a temperature setting part 102 for setting the target temperature of the contact surface and temperature control parts 103 and 104 for adjusting the temperature of the contact surface to the target temperature by controlling heating by the heating part 214.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a medical device having a contact surface for contacting a living body, a medical sensor for detecting information on the living body via the contact surface, and processing information detected by the medical sensor. And an ultrasonic diagnostic apparatus including an ultrasonic probe as a medical sensor.

[0002]

2. Description of the Related Art Conventionally, various medical devices having a medical sensor having a contact surface that comes into contact with a living body and detecting information on the living body via the contact surface, and processing information detected by the medical sensor have been developed. Used. Such a medical device has, for example, a contact surface that comes into contact with a living body, particularly a human body, and transmits ultrasonic waves to the human body through the contact surface and receives ultrasonic waves that are reflected back in the human body and returned. There is an ultrasonic diagnostic apparatus that includes an ultrasonic probe to be used as a medical sensor, causes the ultrasonic probe to repeat transmission and reception of ultrasonic waves, and displays an image based on a received signal obtained while repeating transmission and reception.

FIG. 5 is a schematic diagram showing a state in which an ultrasonic diagnostic apparatus is operated to perform an ultrasonic diagnosis.

[0005] The ultrasonic diagnostic apparatus shown in FIG. 5 has a main body 10 and an ultrasonic probe 20 connected to the main body 10.

[0005] As shown in FIG. 5, in the ultrasonic diagnosis, the operator 3 directly applies a contact surface 211 provided on the distal end portion 210 of the ultrasonic probe 20 to the skin of the subject 4. Adjust the position and angle of. An ultrasonic probe (not shown) for transmitting and receiving ultrasonic waves is provided inside the distal end portion 210, and the ultrasonic probe is connected to the subject 4 by the ultrasonic probe.
The ultrasonic wave is transmitted toward the body of the subject 4, and the ultrasonic wave reflected in the body of the subject 4 is received by the ultrasonic probe. A reception signal obtained by this reception is taken into the main body 10 via the cable 220 of the ultrasonic probe 20.

[0006] Inside the main body 10, a received signal is
Processing according to the operation of the operation panel 110 by the operator 3 is performed, and a tomographic image of the inside of the subject 4 based on the processed signal is displayed on the monitor 120. Further, for recording, the tomographic image displayed on the monitor 120 is printed on a recording sheet by the output unit 130 in the same manner as displayed on the monitor 120.

[0007] Further, in a medical operation of a medical device provided with a medical sensor different from the above-described ultrasonic probe, which has a contact surface which comes into contact with a living body and detects information of the living body via the contact surface, it is also necessary to use an ultra-sound. Contact surface 21 of acoustic probe 20
The contact surface of the medical sensor is directly applied to the skin of the person who receives the medical action, similarly to the above-described ultrasonic diagnosis in which 1 is applied directly to the skin of the subject 4.

Therefore, a person who has applied the contact surface of the medical sensor directly senses the temperature of the contact surface of the medical sensor.

[0009]

By the way, in a medical operation using a medical device, stabilizing a mental state of a person receiving the medical operation is indispensable for performing an accurate medical operation and an appropriate medical operation. It is.

[0010] However, since the temperature of the contact surface of the medical sensor is lower than the body temperature of the person who undergoes medical treatment, especially in winter, those who apply the contact surface of the medical sensor feel cold in the contact surface of the medical sensor. , Feeling discomfort and fear,
Mental status may be unstable. In addition, even if the contact surface of the medical sensor is heated to a temperature higher than that of the person receiving the medical action, or the contact surface becomes hot enough to cause a burn on the medical sensor, the mental state is greatly disturbed. .

In view of the above circumstances, the present invention is directed to a medical device which allows a person to whom a contact surface of a medical sensor is applied to receive medical action in a stable and uncomfortable mental state, and a contact surface of an ultrasonic probe. It is an object of the present invention to provide an ultrasonic diagnosis in which a person with a disability can receive an ultrasonic diagnosis in a stable mental state without discomfort.

[0012]

According to a first aspect of the present invention, there is provided a medical apparatus having a medical sensor having a contact surface for contacting a living body and detecting information on the living body via the contact surface. A medical device that processes information detected by the medical sensor, wherein the medical sensor has a temperature measurement unit that measures the temperature of the contact surface, and a heating unit that heats the contact surface, A temperature setting unit that sets a target temperature of the contact surface, and a temperature control unit that adjusts the temperature of the contact surface to the target temperature by controlling heating by the heating unit.

The first medical device of the present invention can adjust the temperature of the contact surface of the medical sensor to the set target temperature by heating the contact surface of the medical sensor by the heating unit controlled by the temperature control unit. Therefore, by setting the target temperature near the body temperature of the person receiving the medical action, it is possible to prevent the person receiving the medical action from feeling cold on the contact surface of the medical sensor, and as a result, the contact surface of the medical sensor The assigned person can receive medical treatment in a stable, not unpleasant state of mind.

Further, the second object of the present invention to achieve the above object is as follows.
The medical device includes a medical sensor that has a contact surface that comes into contact with a living body and detects information on the living body through the contact surface, and in a medical device that processes information detected by the medical sensor,
The medical sensor has a temperature measurement unit that measures the temperature of the contact surface, and a cooling unit that cools the contact surface, and a temperature setting unit that sets a target temperature of the contact surface; A temperature control unit that adjusts the temperature of the contact surface to the target temperature by controlling cooling by the unit.

According to the second medical device of the present invention, the temperature of the contact surface of the medical sensor can be adjusted to the set target temperature by cooling the contact surface of the medical sensor by the cooling unit controlled by the temperature control unit. Therefore, by setting a target temperature near the body temperature of the person receiving the medical action, the person receiving the medical action is protected from burns, and as a result, the safety of the person receiving the medical action is maintained, and the contact surface of the medical sensor is applied. We can receive medical treatment in a stable and uncomplicated mental state.

A first ultrasonic diagnostic apparatus according to the present invention for achieving the above object has a contact surface in contact with a living body, transmits ultrasonic waves through the contact surface into the living body, and transmits the ultrasonic wave into the living body. Ultrasound diagnostics comprising an ultrasonic probe for receiving reflected ultrasonic waves, causing the ultrasonic probe to repeat transmission and reception of ultrasonic waves, and displaying an image based on a received signal obtained during the repeated transmission and reception. In the apparatus, the ultrasonic probe includes:
It has a temperature measuring unit for measuring the temperature of the contact surface, and a heating unit for heating the contact surface, wherein the temperature setting unit sets a target temperature of the contact surface, and controls heating by the heating unit. A temperature controller for adjusting the temperature of the contact surface to the target temperature.

According to the first ultrasonic diagnostic apparatus of the present invention, the temperature of the contact surface of the ultrasonic probe is adjusted to the set target temperature by heating the contact surface of the ultrasonic probe by the heating unit controlled by the temperature control unit. By setting the target temperature near the subject's body temperature, the subject can be prevented from feeling cold on the contact surface of the ultrasonic probe, and as a result, the contact of the ultrasonic probe can be avoided. The subject to whom the face has been applied can receive an ultrasonic diagnosis in a stable mental state without being uncomfortable.

Here, in the first ultrasonic diagnostic apparatus of the present invention, the ultrasonic probe includes a heat conducting member for transmitting the temperature of the contact surface, and the temperature measuring unit and the heating unit include the heat conducting member. It may be provided in contact with the conductive member.

Further, the second ultrasonic diagnostic apparatus of the present invention has a contact surface that comes into contact with a living body, transmits an ultrasonic wave into the living body via the contact surface, reflects the ultrasonic wave in the living body, and returns. An ultrasonic diagnostic apparatus that includes an ultrasonic probe that receives ultrasonic waves, and that causes the ultrasonic probe to repeat transmission and reception of ultrasonic waves and to display an image based on a received signal obtained while repeating the transmission and reception. An acoustic probe having a temperature measuring unit for measuring the temperature of the contact surface, and a cooling unit for cooling the contact surface, wherein a temperature setting unit for setting a target temperature of the contact surface; and the cooling unit. And a temperature control unit for adjusting the temperature of the contact surface to the target temperature by controlling the cooling of the contact surface.

According to the second ultrasonic diagnostic apparatus of the present invention, the temperature of the contact surface of the ultrasonic probe is adjusted to the set target temperature by cooling the contact surface of the ultrasonic probe by the cooling unit controlled by the temperature control unit. By setting the target temperature near the subject's body temperature, the subject can be protected from burns, and as a result, the safety of the subject can be maintained and the contact surface of the ultrasonic probe can be applied. The subject can receive the ultrasound diagnosis in a stable mental state without discomfort.

Here, in the second ultrasonic diagnostic apparatus of the present invention, the ultrasonic probe includes a heat conducting member for transmitting the temperature of the contact surface, and the temperature measuring unit and the cooling unit include the heat conducting member. It may be provided in contact with the conductive member.

[0022]

Embodiments of the present invention will be described below.

FIG. 1 is an external perspective view of an ultrasonic diagnostic apparatus which is an embodiment of the medical equipment of the present invention.

The external configuration of the ultrasonic diagnostic apparatus 1 shown in FIG. 1 is the same as that of the conventional ultrasonic diagnostic apparatus described above with reference to FIG. ,
Main unit 1 provided with monitor 120 and output unit 130
0 and an ultrasonic probe 20 connected to the main body 10, which is a lightweight and compact ultrasonic diagnostic apparatus.

The ultrasonic probe 20 has a tip 210,
It has a cable 220, and a contact surface 211 that contacts a living body is provided at the distal end portion 210. This tip 21
0 will be described with reference to FIG.

FIG. 2A is a diagram for explaining the internal structure of the tip portion of the ultrasonic probe from the front, and FIG.
(B) is a figure for demonstrating the internal structure of the front-end | tip part of an ultrasonic probe from a side surface.

The ultrasonic probe 2 is provided inside the tip 210.
12, heat conductor 213, heat generator 214, heat absorber 21
5 and a thermistor 216 are provided.

The ultrasonic probe 212 transmits an ultrasonic wave into a living body and receives the ultrasonic wave reflected back from each tissue in the living body and returned.

Since the heat conductor 213 is a member for transmitting the temperature of the contact surface 211, it is a plate member made of inexpensive and light aluminum having good thermal conductivity and adapted to the shape of the tip 210. Therefore, the heat conductor 213 is
It corresponds to the heat conductive member according to the present invention.

The heating element 214 and the heat absorber 21 are provided in contact with the heat conductor 213.
5 and the thermistor 216. The heating element 214 generates heat when energized and heats the contact surface 211, and corresponds to a heating unit of the present invention. Further, the heat absorber 215 is formed on the contact surface 211 using the Peltier effect.
, And corresponds to the cooling unit of the present invention.
The heat generating element 214 and the heat absorbing element 215 are both smaller than the heat conductive element 213, have the same concave shape, and are in contact with each other.

The thermistor 216 is disposed so as to be located exactly in the middle between the heating element 214 and the heat absorbing element 215 while being surrounded by the heating element 214 and the heat absorbing element 215, and directly reduces the temperature of the heating element 214 and the heat absorbing element 215. By measuring, the temperature of the contact surface 211 is measured.

Next, referring to FIG. 3, a contact surface 2 using a heating element 214, a heat absorbing element 215, and a thermistor 216 will be described.
The temperature control of No. 11 will be described.

FIG. 3 shows the ultrasonic diagnostic apparatus 1 shown in FIG.
FIG. 5 is a circuit diagram for controlling the temperature of the contact surface of FIG.

The ultrasonic diagnostic apparatus 1 is provided inside the main body 10.
A temperature detecting amplifier 101 for outputting a voltage V _t corresponding to the temperature of the contact surface 211, a variable resistor 102 for setting a reference voltage V _s corresponding to the target temperature of the contact surface 211, the voltage V _t
Heat control and temperature difference detection amplifier 103 outputs a voltage ΔV corresponding to the difference between the reference voltage V _s, and the heating system patronized amplifier 104 for controlling the heating of the heating element 214, the heat absorption of the heat absorption body 215 and And an absorber controlling amplifier 105.

Therefore, the combination of the thermistor 216 and the temperature detecting amplifier 101 corresponds to a temperature measuring section according to the present invention, and the variable resistor 102 corresponds to a temperature setting section according to the present invention.

Thermistors corresponding to the temperature of the contact surface 211
The voltage based on the resistance value of the
01 and the voltage V_tBecomes For this temperature detection
The amplification factor of the amplifier 101 depends on the design stage of the ultrasonic diagnostic apparatus 1.
For example, when the temperature of the contact surface 211 is 20 ° C.
Is the voltage V output from the temperature detection amplifier 101. _t
Is 0 V so that the temperature of the contact surface 211 is 50 ° C.
The output from the temperature detection amplifier 101
Pressure V_tIs 5V, and the temperature of the contact surface 211 is
Is between 20 ° C. and 50 ° C., the temperature detecting amplifier 101
Voltage V output from_tIs linear between 2V and 5V
It is set to change.

The variable resistor 102 is connected to a power supply of 5 V, and changes its resistance value by operating an operation element provided on the operation panel 110. Thus, the reference voltage V _s corresponding to the target temperature of the contact surface 211
Is set. Reference voltage V _s output from the variable resistor 102 is to the target temperature of the contact surface 211, is similar correspondence with setting of the amplification factor of the temperature detecting amplifier 101 described above have been made.

The difference temperature detecting amplifier 103 has a power supply voltage ±
V is supplied, a voltage V _t that is output from the temperature detecting amplifier 101, a variable resistor output from 102 reference voltage V _s
Is input. Further, the temperature difference detection amplifier 103 outputs a voltage ΔV according to the difference between these input voltages. For example, is higher than the reference voltage V _s output from the variable resistor 102 toward the voltage V _t that is output from the temperature detecting amplifier 101, the voltage ΔV of positive value corresponding to the difference between them is output, the temperature is lower than the reference voltage V _s output from the variable resistor 102 toward the voltage V _t that is output from the detection amplifier 101, the voltage ΔV of negative value corresponding to the difference between them is output.

The heating element control amplifier 104 operates the heating element 214 only when a negative voltage ΔV is input, and the heat absorption element control amplifier 105 receives a positive value voltage ΔV. Only when this occurs, the heat absorber 215 is operated. Therefore, the differential temperature detecting amplifier 1
03 is a positive value, that is, when the temperature of the contact surface 211 is higher than the target temperature, the heat absorber controlling amplifier 105 controls the heat absorber according to the magnitude of the voltage ΔV. The contact surface 211 is cooled by the absorber 215. On the other hand, when the voltage ΔV output from the differential temperature detection amplifier 103 is a negative value, that is, when the temperature of the contact surface 211 is lower than the target temperature, the heating element control amplifier 104 determines the magnitude of the voltage ΔV. According to the heating element 21
4 heats the contact surface 211. When the voltage ΔV output from the temperature difference detection amplifier 103 is 0 V, that is, when the temperature of the contact surface 211 is the same as the target temperature, the heating element 214 is also connected to the heat absorber 215.
Are also inoperative.

Therefore, the amplifier 103 for detecting the temperature difference, the amplifier 104 for controlling the heating element, and the amplifier 1 for controlling the heat absorber.
The combination of 05 corresponds to the temperature control unit according to the present invention.

The circuit 40 composed of the heating element control amplifier 104 and the heating element 214 is provided in the ultrasonic probe 21.
In order to reduce the occurrence of high-frequency noise that affects the time constant 2, a circuit having a large time constant (for example, a time constant of 0.5
Seconds). For this reason, the current supplied from the heating element control amplifier 104 to the heating element 214 is a current in which the rise and fall are dissipated. Also, a circuit 50 composed of a heat absorber control amplifier 105 and a heat absorber 215
Also has a circuit configuration with a large time constant, so that the heat absorber control amplifier 105
Is also a current whose rising and falling are blunted.

By controlling the temperature of the contact surface 211 as described above, the contact surface 211 is maintained at the target temperature. here,
When the target temperature is set near the subject's body temperature, burns can be prevented, ultrasound diagnosis can be performed safely, and the subject is not disturbed or scared, and the subject is tested in a stable mental state without discomfort The mental state of the person. As a result, body movement of the subject, which may be caused by discomfort or fear, can be suppressed, and the position and angle of the distal end portion 210 of the ultrasonic probe 20 can be easily adjusted. Furthermore, if the target temperature is set slightly higher than the subject's body temperature, the subject can be given a warm pleasure, especially in winter, and the subject's mental state becomes a more uncomfortable and stable mental state. It is preferable.

The ultrasonic probe 20 of the above embodiment
When ultrasonic diagnosis is performed by interposing an ultrasonic wave propagation medium (so-called ultrasonic jelly) in the form of water or sol or gel between the contact surface 211 and the living body, the contact surface 211 is heated by the heating element 214, Alternatively, since the contact surface 211 is cooled by the heat absorber 215, the temperature change of the ultrasonic wave propagation medium can be prevented by the above-described temperature control of the contact surface. In some cases, the ultrasonic wave propagation medium may be pre-warmed and used in a warmer.
The ultrasonic transmission medium is applied to the contact surface 211 of the
When the temperature is set to the target temperature and applied to the subject, a warmer for preheating the ultrasonic wave propagation medium becomes unnecessary.
Further, the ultrasonic probe 20 of the above embodiment may be provided with a coupler at the tip of the tip 210. That is, the tip of this coupler mounted on the tip of the tip 210 is used as the contact surface of the ultrasonic probe that comes into contact with the living body, the temperature of the contact surface of the coupler tip is measured by the thermistor 216, and the coupler tip is measured by the heating element 214. Is heated, and the contact surface at the tip of the coupler is cooled by the heat absorber 215.

Next, an ultrasonic diagnostic apparatus, which is another embodiment of the medical apparatus of the present invention, will be described. The external configuration is the same as that of the above-described ultrasonic diagnostic apparatus 1; The internal structure of the distal end of a typical ultrasonic probe will be described with reference to FIG.

FIG. 4A is a diagram for explaining the internal structure of the tip portion of the ultrasonic probe from the front, and FIG.
(B) is a figure for demonstrating the internal structure of the front-end | tip part of an ultrasonic probe from a side surface.

An ultrasonic probe 212 ′, a heat conductor 213, a heating element 214, a thermistor 216, and a heat insulator 217 are provided inside the tip 210 ′.

The ultrasonic probe 212 'of this embodiment has the same function as the ultrasonic probe 212 of the above-described embodiment, but has a different shape and is in the form of a film. In this embodiment, the film-shaped ultrasonic probe 2
A heat conductor 213 is superimposed on 12 ′. Also,
A thermistor 216 is adhered to a part of the side surface of the heat conductor 213, and the ultrasonic probe 21 of the heat conductor 213 is attached.
The heating element 214 is bonded to a part of the surface opposite to the surface on the 2 ′ side. Further, the end of the heating element 214 opposite to the heat conductor 213 is embedded in the heat insulating member 217 so that the contact surface 211 can be efficiently heated. Note that, in the present embodiment, unlike the above-described embodiment, no heat absorber is provided. For this reason, the contact surface 211
The internal structure of the main body of the ultrasonic diagnostic apparatus for temperature control does not include the heat absorption control amplifier 105 provided in the internal structure of the above-described embodiment. However, the other internal structure is the same as the internal structure of the above-described embodiment.

In the ultrasonic diagnostic apparatus according to the present embodiment, when the target temperature is set near the body temperature of the subject, it is possible to prevent the subject from feeling cold on the contact surface of the ultrasonic probe. The subject's mental state can be changed to a stable mental state without discomfort.

When a heat absorber is provided in place of the heating element 214 and the target temperature is set near the body temperature of the subject, the subject is protected from burns, and as a result, the contact surface of the ultrasonic probe is applied. The subject can receive an ultrasound diagnosis with a stable mental state without discomfort. In addition, in order to protect those who receive medical care from burns, the standards for medical equipment stipulate that the temperature of the contact surface of the medical sensor should be kept at 41 ° C or less. A simple ultrasonic diagnostic apparatus can be provided. Furthermore, even if it is desired to keep the contact surface of the ultrasonic probe at a low temperature lower than the body temperature of the subject, it is possible to cope with the case.

Although the two embodiments described above are all directed to an ultrasonic diagnostic apparatus, the present invention is not limited to an ultrasonic diagnostic apparatus, but may be applied to various other types of contact with a living body such as an electrocardiograph. The present invention can be applied to a medical device having a medical sensor having a surface and detecting the information of the living body via the contact surface, and processing the information detected by the medical sensor.

[0051]

As described above, according to the present invention, a medical device capable of receiving a medical action with a stable mental state without discomfort by applying a contact surface of a medical sensor,
Also, it is possible to provide an ultrasonic diagnosis in which a person to whom the contact surface of the ultrasonic probe is applied can receive an ultrasonic diagnosis in a stable and mental state without discomfort.

[Brief description of the drawings]

FIG. 1 is an external perspective view of an ultrasonic diagnostic apparatus as one embodiment of a medical device of the present invention.

FIG. 2 is a view for explaining an internal structure of a distal end portion of an ultrasonic probe of the ultrasonic diagnostic apparatus shown in FIG.

FIG. 3 is a circuit diagram for controlling the temperature of a contact surface of the ultrasonic diagnostic apparatus shown in FIG. 1;

FIG. 4 is a diagram for explaining an internal structure of a distal end portion of the ultrasonic probe.

FIG. 5 is a schematic diagram showing a state where an ultrasonic diagnosis is performed by operating the ultrasonic diagnostic apparatus.

[Explanation of symbols]

 REFERENCE SIGNS LIST 1 ultrasonic diagnostic apparatus 10 main body 101 temperature detecting amplifier 102 variable resistance 103 differential temperature detecting amplifier 104 heating element control amplifier 105 heat absorber controlling amplifier 110 operation panel 120 monitor 130 output section 20 ultrasonic probe 210, 210 ′ tip Part 211 Contact surface 212, 212 'Ultrasonic probe 213 Heat conductor 214 Heating element 215 Heat absorber 216 Thermistor 217 Thermal insulation 220 Cable

Claims (6)

[Claims] 1. A medical device comprising a medical sensor having a contact surface that comes into contact with a living body and detecting information on the living body via the contact surface, wherein the medical sensor processes information detected by the medical sensor. A temperature measuring unit that measures the temperature of the contact surface, and a heating unit that heats the contact surface, wherein a temperature setting unit that sets a target temperature of the contact surface; and heating by the heating unit. A medical controller that controls the temperature of the contact surface to the target temperature by controlling the temperature. 2. A medical device comprising a medical sensor having a contact surface for contacting a living body and detecting information on the living body via the contact surface, wherein the medical sensor processes information detected by the medical sensor. A temperature measuring unit that measures the temperature of the contact surface, and a cooling unit that cools the contact surface, wherein a temperature setting unit that sets a target temperature of the contact surface; and cooling by the cooling unit. A medical controller that controls the temperature of the contact surface to the target temperature by controlling the temperature. 3. An ultrasonic probe having a contact surface that comes into contact with a living body, transmitting an ultrasonic wave into the living body through the contact surface, and receiving an ultrasonic wave reflected back in the living body, An ultrasonic diagnostic apparatus that causes the ultrasonic probe to repeat transmission and reception of ultrasonic waves and displays an image based on a reception signal obtained during the transmission and reception, wherein the ultrasonic probe measures a temperature of the contact surface. It has a temperature measuring unit and a heating unit that heats the contact surface, a temperature setting unit that sets a target temperature of the contact surface, and a temperature of the contact surface by controlling heating by the heating unit. An ultrasonic diagnostic apparatus comprising: a temperature control unit that adjusts the temperature to the target temperature. 4. The ultrasonic probe according to claim 1, further comprising: a heat conducting member for transmitting a temperature of the contact surface, wherein the temperature measuring unit and the heating unit are provided in a state of being in contact with the heat conducting member. The ultrasonic diagnostic apparatus according to claim 3, wherein: 5. An ultrasonic probe having a contact surface that comes into contact with a living body, transmitting an ultrasonic wave into the living body through the contact surface, and receiving an ultrasonic wave reflected back in the living body, An ultrasonic diagnostic apparatus that causes the ultrasonic probe to repeat transmission and reception of ultrasonic waves and displays an image based on a reception signal obtained during the transmission and reception, wherein the ultrasonic probe measures a temperature of the contact surface. It has a temperature measurement unit and a cooling unit that cools the contact surface, a temperature setting unit that sets a target temperature of the contact surface, and a temperature of the contact surface by controlling cooling by the cooling unit. An ultrasonic diagnostic apparatus comprising: a temperature control unit that adjusts the temperature to the target temperature. 6. The ultrasonic probe according to claim 1, further comprising: a heat conducting member for transmitting a temperature of the contact surface, wherein the temperature measuring unit and the cooling unit are provided in contact with the heat conducting member. The ultrasonic diagnostic apparatus according to claim 5, wherein: