阅读说明：本技术 一种超声设备和耦合剂加热装置 (Ultrasonic equipment and couplant heating device ) 是由 赵彦群 陈志武 陈军 朱子俨 于 2018-09-30 设计创作，主要内容包括：一种超声设备和耦合剂加热装置(20),超声设备包括主机(10)和耦合剂加热装置(20),主机(10)上设置有散热孔(11),耦合剂加热装置(20)包括导热管(21)和传热座(22),导热管(21)的一端与主机(10)的散热孔(11)对接或间隔开相对设置,导热管(21)的另一端与传热座(22)连接,传热座(22)上设有与导热管(21)导通的传热孔,传热座(22)用于放置装有耦合剂的耦合剂盒(23)。由于耦合剂加热装置(20)与主机(10)连接,将主机(10)产生的热能传递至耦合剂盒(23)进行加热,利用主机(10)内部自身热能对耦合剂进行加热,不需要增加额外的加热元件和能量输入,实现了能量的回收利用,降低了设备的成本。(The utility model provides an supersound equipment and couplant heating device (20), supersound equipment includes host computer (10) and couplant heating device (20), be provided with louvre (11) on host computer (10), couplant heating device (20) include heat pipe (21) and heat transfer seat (22), the one end of heat pipe (21) and louvre (11) butt joint of host computer (10) or spaced apart relative setting, the other end and the heat transfer seat (22) of heat pipe (21) are connected, be equipped with the heat transfer hole that switches on with heat pipe (21) on heat transfer seat (22), heat transfer seat (22) are used for placing couplant case (23) that are equipped with the couplant. Because the couplant heating device (20) is connected with the main machine (10), the heat energy generated by the main machine (10) is transferred to the couplant box (23) for heating, the heat energy in the main machine (10) is utilized to heat the couplant, no additional heating element or energy input is needed to be added, the energy recycling is realized, and the cost of the equipment is reduced.)

The utility model provides an ultrasonic equipment, its characterized in that, includes host computer and couplant heating device, be provided with the louvre on the host computer, couplant heating device includes heat pipe and heat transfer seat, the one end of heat pipe with the louvre butt joint of host computer or spaced apart relative setting, the other end of heat pipe with the heat transfer seat is connected, be equipped with on the heat transfer seat with the heat transfer hole that the heat pipe switched on, the heat transfer seat is used for placing the coupling agent box that is equipped with the couplant.

The ultrasonic apparatus according to claim 1, wherein the heat pipe is provided with a trumpet-shaped hot air collecting port at one end of the heat pipe which is in butt joint with or spaced apart from the heat dissipation holes of the main unit.

The ultrasound apparatus as claimed in claim 2, wherein the heat dissipation hole of the main body comprises a plurality of small holes, the small holes are arranged to form a heat dissipation area, and the hot air collection hole of the hot air duct covers a part or all of the heat dissipation area.

The ultrasound apparatus of claim 1, wherein the heat transfer base is removably connected to the heat pipe.

The ultrasonic apparatus as claimed in claim 4, wherein the heat transfer base comprises a cup wall and a cup bottom, the cup wall and the cup bottom are of a double-layer hollow structure, the outer wall of the cup wall or the cup bottom is provided with an air inlet connected with the heat conduction pipe, and the inner wall of the cup wall and the inner wall of the cup bottom are provided with a plurality of air outlets.

The ultrasonic apparatus of claim 4, wherein the heat transfer base comprises a cylinder wall with openings at two ends, the cylinder wall is a double-layer hollow structure, the outer wall of the cylinder wall is provided with an air inlet connected with the heat conduction pipe, and the inner wall of the cylinder wall is provided with a plurality of air outlets.

The ultrasound apparatus according to any one of claims 1 to 6, wherein the couplant heating device further comprises a couplant cartridge for filling the couplant, the couplant cartridge being detachably inserted into the heat transfer block.

The ultrasound apparatus according to any one of claims 1 to 6, further comprising a body, wherein the main body is placed or detachably mounted on the body, and the couplant heating device is detachably mounted on the body or the main body.

The ultrasound apparatus of any of claims 1 to 6, wherein one or more thermally conductive fans are disposed within the thermally conductive tube.

The couplant heating device is characterized by comprising a heat conduction pipe and a heat transfer seat, wherein one end of the heat conduction pipe is in butt joint with or is spaced from a heat dissipation hole of a host, the other end of the heat conduction pipe is connected with the heat transfer seat, the heat transfer seat is provided with a heat transfer hole communicated with the heat conduction pipe, and the heat transfer seat is used for placing a couplant box filled with a couplant.

The couplant heating apparatus according to claim 10, wherein one end of the heat conducting pipe, which is opposite to or in butt joint with the heat dissipation hole of the main unit, is provided with a trumpet-shaped hot air collection port.

The couplant heating apparatus of claim 10 wherein said heat pipe is internally provided with one or more heat transfer fans.

The couplant heating apparatus of claim 10 wherein said heat transfer base is removably connected to said heat pipe.

The couplant heating apparatus of claim 13, wherein the heat transfer base comprises a cup wall and a cup bottom, the cup wall and the cup bottom are of a double-layer hollow structure, the outer wall of the cup wall or the cup bottom is provided with an air inlet connected with the heat conduction pipe, and the inner walls of the cup wall and the cup bottom are provided with a plurality of air outlets.

The couplant heating apparatus of claim 13, wherein the heat transfer base comprises a cylinder wall with openings at two ends, the cylinder wall is a double-layer hollow structure, the outer wall of the cylinder wall is provided with an air inlet connected with the heat conducting pipe, and the inner wall of the cylinder wall is provided with a plurality of air outlet holes.

The couplant heating apparatus of any one of claims 10 to 15, further comprising a coupler cartridge for filling the couplant, wherein the coupler cartridge is detachably inserted into the heat transfer block.

The couplant heating apparatus of claim 16, wherein the couplant cartridge is a double-layer hollow structure with a plurality of vent holes on the outer wall.

The couplant heating apparatus of claim 16, wherein the inner wall of the heat transfer base is provided with a protrusion for engaging with the coupler cartridge.

The ultrasonic equipment is characterized by comprising a host and a couplant heating device, wherein a radiator is arranged in the host, the couplant heating device comprises a heat conductor and a heat transfer seat, the heat conductor is provided with a heat absorption end and a heat dissipation end, the heat absorption end of the heat conductor extends to be connected with the radiator of the host, the heat dissipation end of the heat conductor is connected with the heat transfer seat, and the heat transfer seat is used for placing a couplant box filled with a couplant.

The ultrasound apparatus of claim 19, wherein the host is provided with a thermally conductive interface, and wherein the thermally conductive end of the heat sink extends to the thermally conductive interface of the host and is connected to the heat sink end of the thermal conductor.

The ultrasound apparatus of claim 19, wherein the thermal conductor is a thermally conductive wire having a thermally conductive metal wire or a thermally conductive film in the middle.

The ultrasonic apparatus of claim 19, wherein the heat transfer mount is removably connected to the heat pipe.

The ultrasound apparatus according to any of the claims 19 to 22, wherein the couplant heating device further comprises a couplant cartridge for filling the couplant, the couplant cartridge being detachably inserted into the heat transfer block.

The ultrasound apparatus of any one of claims 19 to 22, further comprising a body, wherein the host is disposed or removably mounted on the body, and wherein the couplant heating device is removably mounted on the body or the host.

The couplant heating device is characterized by comprising a heat conductor and a heat transfer seat, wherein the heat conductor is provided with a heat absorption end and a heat dissipation end, the heat absorption end of the heat conductor extends to be connected with a heat radiator of a host, the heat dissipation end of the heat conductor is connected with the heat transfer seat, and the heat transfer seat is used for placing a couplant box filled with a couplant.

The couplant heating apparatus of claim 25, wherein said thermal conductor is a thermally conductive wire having a thermally conductive metal wire or thermally conductive film in the middle.

The couplant heating apparatus of claim 25 wherein said heat transfer base is removably connected to said heat pipe.

The couplant heating apparatus of any one of claims 25 to 27, further comprising a coupler cartridge for filling the couplant, wherein the coupler cartridge is detachably inserted into the heat transfer block.

The couplant heating apparatus of claim 28, wherein an inner surface of said heat transfer block is provided with a protrusion for engaging said couplant cartridge.