CN210138151U - Couplant heat preservation device - Google Patents

Abstract

The utility model belongs to the field of medical accessories, especially, relate to a couplant heat preservation device, wherein this couplant heat preservation device includes: the heating device comprises a base, a pressing plate and a heating assembly, wherein the pressing plate and the heating assembly are arranged in the base; the pressure plate is suitable for supporting the bottom of the couplant bottle and moves downwards after being pressed by the couplant bottle body; heating element is suitable for through the clamp plate linkage hold tightly outside the couplant body so that heating element's heating surface pastes the couplant body and keeps warm, has avoided using the couplant in winter because the great giving other people of the difference in temperature causes the discomfort, has improved heating efficiency.

Description

Couplant heat preservation device

Technical Field

The utility model belongs to the field of medical accessories, in particular to couplant heat preservation device.

Background

During ultrasonic examination, air between the probe and the skin of a patient can block ultrasonic waves from being transmitted into the human body, in order to obtain a high-quality clear image, a liquid conduction medium is needed to be used for connecting the probe and the body surface of the patient, the medium is a common ultrasonic coupling agent, but the temperature difference between the coupling agent and the surface of the skin of the human body is large when the coupling agent is used in winter, discomfort is brought to people, and some methods have been adopted in the prior art to heat the coupling agent to improve the comfort of use in winter, but the following problems still exist:

1. the couplant bottle body is immersed in warm water to be taken at any time, but the couplant bottle body is taken out in such a way and then can be used after being wiped by a dry towel, and the operation of such a way is complex;

2. insert the couplant body and keep warm to the couplant on the base, but such mode is only through the base heating, and heating efficiency is not high, and the couplant temperature of couplant bottleneck is difficult to heat.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a couplant heat preservation device to keep warm to couplant body heating, improve the comfort level that uses winter.

In order to solve the technical problem, the utility model provides a couplant heat preservation device, include:

the heating device comprises a base, a pressing plate and a heating assembly, wherein the pressing plate and the heating assembly are arranged in the base; wherein

The pressure plate is suitable for supporting the bottom of the couplant bottle and moves downwards after being pressed by the couplant bottle body;

the heating assembly is suitable for being tightly held outside the couplant bottle body through the linkage of the pressing plate so that the heating surface of the heating assembly is tightly attached to the couplant bottle body for heat preservation.

Further, the pressing plate is connected with the heating assembly through a pushing mechanism to achieve linkage.

Further, the pushing mechanism includes: the first connecting plate and the second connecting plate are hinged on the pressing plate, the first limiting block and the second limiting block are oppositely arranged on the inner wall of the base, and the rebounding mechanism is arranged on the inner wall of the base; wherein

The upper ends of the first connecting plate and the second connecting plate are respectively connected with the heating assembly;

the first limiting block and the second limiting block extend to the lower parts of the first connecting plate and the second connecting plate;

when the couplant bottle body is placed on the pressing plate, the pressing plate slides downwards and drives the first connecting plate and the second connecting plate to be inwardly closed along the first limiting block and the second limiting block to the heating assembly to tightly hold the couplant bottle body so as to heat the couplant bottle body;

the rebounding mechanism is installed between the pressing plate and the bottom of the base, and lifts up the pressing plate after the couplant bottle body is taken away.

Further, the rebound mechanism comprises: the elastic sheet and the two support legs are arranged at the bottom of the elastic sheet; wherein

The bottom of the base is provided with a sliding groove suitable for the support leg to slide;

when the pressing plate presses the elastic sheet, the two support legs move away from each other in the sliding groove to unfold the elastic sheet.

Furthermore, limiting grooves suitable for being inserted into the supporting legs to avoid derailing of the supporting legs are formed in the two sides of the sliding groove.

Further, the heating assembly includes: the main control module, the heating wire and the temperature sensor which are electrically connected with the main control module, and the arc-shaped plates which are arranged at the upper ends of the first connecting plate and the second connecting plate; wherein

The electric heating wire is embedded in the arc-shaped plate;

the electric heating wire is externally connected with a power supply;

the temperature sensor is arranged on the surface of any one arc-shaped plate;

after the temperature sensor collects the temperature of the arc-shaped plate, a PWM signal is output through the main control module, and the temperature of the heating wire is controlled through the driving circuit.

The beneficial effects of the utility model are that, the utility model discloses a couplant heat preservation device, the clamp plate receives behind the couplant body oppression the downstream hold tightly outside the couplant body with linkage heating element, and heating element's the heating surface pastes tight couplant body and keeps warm, and it is more convenient to use, and then can directly heat the couplant of couplant bottleneck department, and heating efficiency is higher.

Drawings

The present invention will be further explained with reference to the drawings and examples.

FIG. 1 is a schematic structural diagram of a preferred embodiment of the couplant thermal insulation apparatus of the present invention;

fig. 2 is a schematic structural view of a preferred embodiment of the heating device of the present invention;

fig. 3 is a control schematic block diagram of the preferred embodiment of the couplant heat preservation device of the present invention.

In the figure: 100-base, 110-sliding groove, 200-pressing plate, 300-heating component, 310-heating wire, 320-temperature sensor, 330-arc plate, 400-couplant bottle body, 600 pushing mechanism, 610-first connecting plate, 620-second connecting plate, 630-first limiting block, 640-second limiting block, 800-rebound mechanism, 810-elastic sheet and 820-supporting foot.

Detailed Description

The present invention will now be described in further detail with reference to the accompanying drawings. These drawings are simplified schematic drawings and illustrate the basic structure of the present invention only in a schematic manner, and thus show only the components related to the present invention.

As shown in fig. 1, the couplant heat retention apparatus according to the present embodiment includes: a base 100, a platen 200 and a heating assembly 300 mounted within the base 100; the pressure plate 200 is suitable for supporting the bottom of the couplant bottle, and the pressure plate 200 moves downwards after being pressed by the couplant bottle body 400; heating element 300 is suitable for through the clamp plate 200 linkage enclasping outside couplant body 400 so that heating element 300's heating surface pastes close couplant body 400 and keeps warm, and it is more convenient to use, and then can directly heat the couplant of couplant bottleneck department, and heating efficiency is higher.

In this embodiment, the pressing plate 200 is connected to the heating element 300 through the pushing mechanism 600 to realize linkage, so that the position of the heating element 300 can be adjusted to make the heating surface of the heating element adhere to the couplant bottle 400.

In this embodiment, the pushing mechanism 600 includes: the first connecting plate 610 and the second connecting plate 620 are hinged to the pressing plate 200, the first limiting block 630 and the second limiting block 640 are oppositely arranged on the inner wall of the base 100, and the springback mechanism 800 is arranged on the inner wall of the base 100; wherein the upper ends of the first and second connection plates 610 and 620 are respectively connected with the heating assembly 300; the first limiting block 630 and the second limiting block 640 extend to the lower parts of the first limiting block 630 and the second connecting plate 620; after the couplant bottle body 400 is placed on the pressing plate 200, the pressing plate 200 slides downwards and drives the first connecting plate 610 and the second connecting plate 620 to move inwards along the first limiting block 630 and the second limiting block 640 to the heating assembly 300 to hug the couplant bottle body 400 tightly, so as to heat the couplant bottle body 400; the rebound mechanism 800 is installed between the pressing plate 200 and the bottom of the base 100, and lifts the pressing plate 200 after taking away the couplant bottle body 400.

As an embodiment of the rebounding mechanism 800, it includes: the spring plate 810 and two legs 820 mounted at the bottom of the spring plate 810; the bottom of the base 100 is provided with a sliding groove 110 suitable for the sliding of the support leg 820; when the pressing plate 200 presses the spring plate 810, the two support legs 820 move away from each other in the sliding groove 110 to unfold the spring plate 810, and when the couplant bottle body 400 is taken away, the resilience of the spring plate 810 jacks up the pressing plate 200 to drive the heating assembly 300 to loosen the couplant bottle body 400.

In this embodiment, the sliding groove 110 is provided with a limiting groove 111 at two sides for inserting the supporting leg 820 to avoid derailing of the supporting leg 820, and when the elastic sheet 810 is compressed and expanded, the supporting leg 820 is limited in the limiting groove 111 to slide, thereby ensuring the sliding stability of the supporting leg 820.

In this embodiment, the heating assembly 300 includes: the heating wire assembly comprises a main control module, a heating wire 310 and a temperature sensor 320 which are electrically connected with the main control module, and an arc-shaped plate 330 which is arranged at the upper ends of a first connecting plate 610 and a second connecting plate 620; wherein the heating wire 310 is embedded in the arc-shaped plate 330; the heating wire 310 is externally connected with a power supply; the temperature sensor 320 is arranged on the surface of any one of the arc plates 330; after the temperature sensor 320 collects the temperature of the arc-shaped plate 330, the PWM signal is output by the main control module to control the heating wire 310 to adjust the temperature through the driving circuit.

In this embodiment, the main control module can adopt STM32 singlechip to and gather temperature sensor 320's signal through STM32 singlechip, adjust the temperature through PWM signal control heating wire 310, this is the circuit structure that the field is commonly used, the utility model discloses do not make the improvement to above-mentioned circuit structure, the above-mentioned control scheme can be realized according to prior knowledge to the personnel in the field.

In summary, the couplant heat preservation device according to the embodiment places the couplant bottle body 400 on the pressing plate 200, presses the pressing plate 200 downwards and compresses the elastic piece 810 through the gravity of the couplant bottle body 400, the pressing plate 200 presses downwards to drive the first connecting plate 610 and the second connecting plate 620 to approach to the middle along the first limiting block 630 and the second limiting block 640 respectively so as to attach the inner wall of the arc-shaped plate 330 to the outside of the couplant bottle body 400, and the main control module controls the heating wire 310 to adjust the temperature to heat the couplant at the mouth of the couplant bottle after detecting the temperature signal of the arc-shaped plate 330 by the temperature sensor 320, so that the heating efficiency is higher.

In light of the foregoing, it will be apparent to those skilled in the art from this disclosure that various changes and modifications can be made without departing from the spirit and scope of the invention. The technical scope of the present invention is not limited to the content of the specification, and must be determined according to the scope of the claims.

Claims (4)

1. A couplant heat preservation device, comprising:

the heating device comprises a base, a pressing plate and a heating assembly, wherein the pressing plate and the heating assembly are arranged in the base; wherein

The pressure plate is suitable for supporting the bottom of the couplant bottle and moves downwards after being pressed by the couplant bottle body;

the heating component is suitable for being linked and tightly held outside the couplant bottle body through the pressing plate so that the heating surface of the heating component is close to the couplant bottle body for heat preservation;

the pressing plate is connected with the heating assembly through a pushing mechanism to realize linkage;

the pushing mechanism includes: the first connecting plate and the second connecting plate are hinged on the pressing plate, the first limiting block and the second limiting block are oppositely arranged on the inner wall of the base, and the rebounding mechanism is arranged on the inner wall of the base; wherein

The upper ends of the first connecting plate and the second connecting plate are respectively connected with the heating assembly;

the first limiting block and the second limiting block extend to the lower parts of the first connecting plate and the second connecting plate;

when the couplant bottle body is placed on the pressing plate, the pressing plate slides downwards and drives the first connecting plate and the second connecting plate to be inwardly closed along the first limiting block and the second limiting block to the heating assembly to tightly hold the couplant bottle body so as to heat the couplant bottle body;

the rebounding mechanism is installed between the pressing plate and the bottom of the base, and lifts up the pressing plate after the couplant bottle body is taken away.

2. The couplant thermal insulation apparatus of claim 1,

the rebound mechanism comprises: the elastic sheet and the two support legs are arranged at the bottom of the elastic sheet; wherein

The bottom of the base is provided with a sliding groove suitable for the support leg to slide;

when the pressing plate presses the elastic sheet, the two support legs move away from each other in the sliding groove to unfold the elastic sheet.

3. The couplant thermal insulation apparatus of claim 2,

the sliding groove is provided with limiting grooves suitable for being inserted into the supporting legs to avoid derailing of the supporting legs.

4. The couplant thermal insulation apparatus of claim 3,

the heating assembly includes: the main control module, the heating wire and the temperature sensor which are electrically connected with the main control module, and the arc-shaped plates which are arranged at the upper ends of the first connecting plate and the second connecting plate; wherein

The electric heating wire is embedded in the arc-shaped plate;

the electric heating wire is externally connected with a power supply;

the temperature sensor is arranged on the surface of any one arc-shaped plate;

after the temperature sensor collects the temperature of the arc-shaped plate, a PWM signal is output through the main control module, and the temperature of the heating wire is controlled through the driving circuit.

Images