CN219962913U - Ultrasonic equipment - Google Patents

Abstract

An ultrasound device, comprising: the host computer is used for acquiring an ultrasonic echo signal obtained by scanning the probe and processing the ultrasonic echo signal into an ultrasonic image; the display device is in signal connection with the host computer and is used for displaying the ultrasonic image; the control panel is in signal connection with the host computer and is used for inputting operation instructions; the control panel comprises a key assembly and a separation assembly, the panel is provided with an operation table top, the key assembly and the separation assembly are arranged on the operation table top, the key assembly comprises a plurality of functional keys, the separation assembly is arranged between and/or around the functional keys, and the separation assembly is used for illuminating the key assembly. Because the separation component is arranged among and/or around the plurality of function keys of the control panel, the separation component is close to the function keys, and the function keys can be illuminated by the light emitted by the separation component, so that a doctor can clearly see the function keys on the control panel in a hospital department with darker light, blind operation and misoperation are avoided, and meanwhile, the efficiency of the doctor to operate the ultrasonic equipment can be improved.

Description

Ultrasonic equipment

Technical Field

The utility model relates to the technical field of medical equipment, in particular to ultrasonic equipment.

Background

The ultrasonic equipment is a common apparatus in the medical field, the ultrasonic equipment comprises a control panel for input, a plurality of function keys are arranged on the control panel, and a user operates the ultrasonic equipment to carry out ultrasonic detection through the function keys.

At present, most of the use scenes of ultrasonic equipment are hospital departments with dark light, in the environment, the light is dark, and doctors basically belong to blind operation when operating keys of a control panel, so that misoperation is easy to occur.

Disclosure of Invention

The utility model provides ultrasonic equipment which is used for solving the problems of blind operation and misoperation of a control panel in a dark light environment.

In one embodiment, an ultrasound device is provided, comprising:

the host computer is used for acquiring an ultrasonic echo signal obtained by scanning the probe and processing the ultrasonic echo signal into an ultrasonic image;

the display device is in signal connection with the host computer and is used for displaying the ultrasonic image; and

the control panel is in signal connection with the host computer and is used for inputting an operation instruction; the control panel comprises a key assembly and a separation assembly, the panel is provided with an operation table top, the key assembly and the separation assembly are arranged on the operation table top, the key assembly comprises a plurality of functional keys, the separation assembly is arranged between and/or around the functional keys, and when the ultrasonic equipment works, the separation assembly is used for lighting the key assembly.

In one embodiment, the operation table surface is provided with a first key installation area and a second key installation area, the second key installation area surrounds or is close to the first key installation area, and the first key installation area and the second key installation area are respectively provided with the function keys; the separation component is arranged between the first key installation area and the second key installation area, and/or the separation component is arranged at the edge of the second key installation area far away from the first key installation area.

In one embodiment, the first key mounting area is a circular area, the separation component is in an annular structure, and the separation component surrounds the edge of the first key mounting area.

In one embodiment, an installation gap is provided between the first key installation region and the second key installation region, and the separation component is disposed in the installation gap.

In one embodiment, the control panel includes an inner ring support and an outer ring support, the top surface of the inner ring support has the first key installation area, the top surface of the outer ring support has the second key installation area, the inner ring support and the outer ring support form the installation gap therebetween, and the separation component is connected with the inner ring support and/or the outer ring support.

In one embodiment, the key assembly further comprises a track ball, the plurality of function keys are arranged around the track ball, and the separation assembly is arranged around the track ball.

In one embodiment, the separation assembly is disposed between the trackball and the plurality of function keys.

In one embodiment, the separation component comprises a light-transmitting member and a light source, the light-transmitting member is exposed out of the operation table surface, the light source is located in the control panel, the light source is used for emitting light to the light-transmitting member, and the light-transmitting member is used for transmitting the light emitted by the light source.

In one embodiment, the light transmitting member is a light homogenizing structure.

In one embodiment, the light-transmitting member is provided with a first limiting portion, the control panel is provided with a second limiting portion, and the first limiting portion is connected with the second limiting portion so as to limit the degree of freedom of rotation of the light-transmitting member in a plane parallel to the operation table surface.

In one embodiment, the separation assembly further comprises a light guide member disposed between the light source and the light transmitting member, the light guide member being configured to transfer light emitted from the light source to the light transmitting member.

In one embodiment, a circuit board is arranged in the control panel, the circuit board is provided with a plurality of key triggering parts, and each key triggering part is correspondingly connected with one function key; the light source is arranged on the circuit board.

In one embodiment, the circuit board is covered with a silica gel key, and the function key is connected with the key triggering part through the silica gel key; and/or the silica gel key also covers the light source, and the silica gel key is of a semitransparent or transparent structure.

In one embodiment, the separation component comprises a light-transmitting member and a light source, the light-transmitting member is exposed out of the operation table, the light source is located in the panel, the light source is used for emitting light to the light-transmitting member, and the light-transmitting member is used for transmitting the light emitted by the light source; the light-transmitting piece and the inner ring support and/or the outer ring support are integrally formed.

In one embodiment, the separation assembly is further configured to emit light of different colors to distinguish between different usage scenarios.

In one embodiment, the separation assembly comprises a plurality of sub-separation assemblies for emitting different colors of light, respectively.

In one embodiment, an ultrasound device is provided, comprising:

the host computer is used for acquiring an ultrasonic echo signal obtained by scanning the probe and processing the ultrasonic echo signal into an ultrasonic image;

the display device is in signal connection with the host computer and is used for displaying the ultrasonic image; and

the control panel is in signal connection with the host computer and is used for inputting an operation instruction; the control panel comprises a key assembly and a separation assembly, the control panel is provided with an operation table surface, the key assembly and the separation assembly are arranged on the operation table surface, and the separation assembly is used for emitting light with different colors so as to distinguish different use scenes.

In one embodiment, the separation assembly comprises a plurality of sub-separation assemblies for emitting different colors of light, respectively.

In one embodiment, the separation component comprises a light-transmitting member and a light source, the light-transmitting member is exposed out of the operation table surface, the light source is located in the control panel and is used for transmitting light to the light-transmitting member, and the light-transmitting member is used for transmitting the light transmitted by the light source.

In one embodiment, the light transmitting member is a light homogenizing structure.

In one embodiment, an ultrasound device is provided, comprising:

the host computer is used for acquiring an ultrasonic echo signal obtained by scanning the probe and processing the ultrasonic echo signal into an ultrasonic image;

the display device is in signal connection with the host computer and is used for displaying the ultrasonic image; and

the control panel is in signal connection with the host computer and is used for inputting an operation instruction; the control panel comprises a key assembly and a separation assembly, the panel is provided with an operation table surface, the key assembly and the separation assembly are arranged on the operation table surface, the key assembly comprises a first functional key, a second functional key and a track ball, the track ball is arranged at the center position of the inner side of the separation assembly, the first functional key and the second functional key are provided with different functions, the first functional key is arranged between the separation assembly and the track ball, and the second functional key is arranged on the outer side of the separation assembly.

In one embodiment, the operation table is provided with a first key installation area and a second key installation area, the second key installation area surrounds or is close to the first key installation area, the first function key is arranged in the first key installation area, and the second function key is arranged in the second key installation area; the separation component is arranged between the first key installation area and the second key installation area.

In one embodiment, an installation gap is provided between the first key installation region and the second key installation region, and the separation component is disposed in the installation gap.

In one embodiment, the control panel includes an inner ring support and an outer ring support, the top surface of the inner ring support has the first key installation area, the top surface of the outer ring support has the second key installation area, the inner ring support and the outer ring support form the installation gap therebetween, and the separation component is connected with the inner ring support and/or the outer ring support.

In one embodiment, the separation component comprises a light transmission piece and a light source, the light transmission piece is exposed out of the operation table top, the light source is located in the control panel, the light source is used for emitting light to the light transmission piece, and the light transmission piece is used for transmitting the light emitted by the light source; the separation assembly is configured to illuminate the key assembly when the ultrasound device is in operation.

In one embodiment, the separation component comprises a light transmission piece and a light source, the light transmission piece is exposed out of the operation table top, the light source is located in the control panel, the light source is used for emitting light to the light transmission piece, and the light transmission piece is used for transmitting the light emitted by the light source; the light-transmitting piece and the inner ring support and/or the outer ring support are integrally formed.

In one embodiment, the separation assembly is further configured to emit light of different colors to distinguish between different usage scenarios.

According to the ultrasonic equipment of the embodiment, as the separation component is arranged among and/or around the plurality of functional keys of the control panel, the separation component is close to the functional keys, and the functional keys can be illuminated by the light emitted by the separation component, so that a doctor can clearly see the functional keys on the control panel in a hospital department with darker light, blind operation and misoperation are avoided, and meanwhile, the efficiency of the doctor in operating the ultrasonic equipment can be improved.

Drawings

FIG. 1 is a schematic diagram of an ultrasound device in one embodiment;

FIG. 2 is a schematic diagram of a control panel according to an embodiment;

FIG. 3 is a schematic view of a partial explosion structure of a control panel in one embodiment;

FIG. 4 is a schematic view of a partial explosion of a control panel in one embodiment;

FIG. 5 is a cross-sectional view of a control panel in one embodiment;

FIG. 6 is an enlarged view of a portion of the right side of FIG. 5;

wherein the reference numerals are as follows:

1-a host machine, 11-a travelling wheel;

2-a display device;

3-control panel, 31-panel, 31 a-operation table, 31 b-first key installation area, 31 c-second key installation area, 311-inner ring bracket, 3111-bayonet structure, 3112-second limit portion, 3113-second clamping portion, 312-outer ring bracket, 3121-first portion, 3122-second portion, 3123-connecting portion, 3124-snap structure, 32-key assembly, 321-function key, 322-trackball, 3221-first clamping portion, 33-partition assembly, 331-light transmissive piece, 3311-first limit portion, 332-light source, 34-circuit board, 341-key trigger portion, 35-silica gel key, 351-trigger terminal;

4-a first floating device;

5-a second floating device.

Detailed Description

According to the ultrasonic equipment provided by the utility model, the separation component capable of emitting different lights is arranged on the control panel, and the separation component is arranged close to the function keys, so that two pain points of the existing ultrasonic equipment can be solved:

the first pain point to be resolved: the function keys can be illuminated by the light emitted by the separation component, so that in a hospital department with dark light, a doctor can clearly see the function keys on the operation panel, blind operation and misoperation are avoided, and meanwhile, the efficiency of operating ultrasonic equipment by the doctor can be improved.

The second pain point solved: when the ultrasonic equipment is applied to different departments, the separation component can emit light with different colors so as to realize a special color matching scheme for the special department, the color matching scheme for spraying different color oils on the outer surface of the traditional ultrasonic equipment is replaced, and the lamplight color matching scheme provided by the utility model omits the subsequent processing steps and has higher color matching efficiency. The traditional color scheme aims at different departments, and paints with different colors are required to be sprayed on a control panel or other parts of ultrasonic equipment to show differences.

Third pain point solved: be provided with the separation subassembly on ultrasonic equipment's the control panel, the separation subassembly separates the button that will have different functions and sets up to make the doctor in the in-process of operating function, can fix a position fast and look for required function button, improve operating efficiency.

The utility model may also provide an ultrasound device having a separation assembly disposed on the control panel adjacent to the function keys for addressing the first pain point described above, wherein the separation assembly may be adapted to emit light of one color or a different color.

The utility model can also provide an ultrasonic device, wherein the separation component capable of emitting different lights is arranged on the control panel and is used for solving the second pain point, wherein the separation component can be arranged at any position of the control panel and can also be arranged on other parts of the ultrasonic device.

The utility model can also provide ultrasonic equipment, a separation component is arranged between the functional keys, a first functional key is arranged on the inner side of the separation component, a second functional key is arranged on the outer side of the separation component, the first functional key can comprise a plurality of keys with similar functions, the second functional key can comprise a plurality of keys with similar functions, the first functional key and the second functional key have different functions, the separation component separates the keys with different functions, the operation efficiency of doctors can be improved, and misoperation can be avoided. The partition component may be a light-emitting component or a non-light-emitting component.

The utility model will be described in further detail below with reference to the drawings by means of specific embodiments. Wherein like elements in different embodiments are numbered alike in association. In the following embodiments, numerous specific details are set forth in order to provide a better understanding of the present utility model. However, one skilled in the art will readily recognize that some of the features may be omitted, or replaced by other elements, materials, or methods in different situations. In some instances, related operations of the present utility model have not been shown or described in the specification in order to avoid obscuring the core portions of the present utility model, and may be unnecessary to persons skilled in the art from a detailed description of the related operations, which may be presented in the description and general knowledge of one skilled in the art.

Furthermore, the described features, operations, or characteristics of the description may be combined in any suitable manner in various embodiments. Also, various steps or acts in the method descriptions may be interchanged or modified in a manner apparent to those of ordinary skill in the art. Thus, the various orders in the description and drawings are for clarity of description of only certain embodiments, and are not meant to be required orders unless otherwise indicated.

The numbering of the components itself, e.g. "first", "second", etc., is used herein merely to distinguish between the described objects and does not have any sequential or technical meaning. The term "coupled" as used herein includes both direct and indirect coupling (coupling), unless otherwise indicated.

In one embodiment, an ultrasonic device is provided, and the ultrasonic device is configured to transmit ultrasonic waves to a human body or a living body, collect ultrasonic echoes reflected by the human body or the living body, generate ultrasonic echo signals, and process the ultrasonic echo signals to obtain an ultrasonic image so as to detect tissues in the human body or the living body.

The separation component is additionally arranged on the control panel of the ultrasonic equipment, and can emit illumination light, and the illumination light can illuminate the function keys on the control panel, so that doctors can clearly operate the function keys in a department with dark light; meanwhile, the color of illumination light can be changed, the ultrasonic equipment can be matched with colors, the ultrasonic equipment is used in different departments, and the separation assembly can be used for configuring different colors for the ultrasonic equipment to show differences.

The ultrasonic device may be a desk type ultrasonic device or a portable ultrasonic device, and the desk type ultrasonic device is taken as an example for explanation.

Referring to fig. 1 to 6, the ultrasonic apparatus of the present embodiment mainly includes a host 1, a display device 2 and a control panel 3, where the host 1 is located at a lower end of the ultrasonic apparatus, and a travelling wheel 11 may be disposed at the lower end of the host 1, so as to facilitate the transfer of the ultrasonic apparatus to different usage scenarios. The host computer 1 can be connected with the probe, and the host computer 1 is used for acquiring ultrasonic echo signals obtained by scanning the probe and processing the ultrasonic echo signals into ultrasonic images.

The upper end of host computer 1 is arranged in to control panel 3, and control panel 3 can be connected with host computer 1 through first floating device 4, and control panel 3 can realize space floating such as lift, translation and rotation through first floating device 4 relative to host computer 1 to the convenience is different doctors. The control panel 3 is in signal connection with the host 1, the control panel 3 is used for inputting operation instructions, and the host 1 acquires the operation instructions input by the control panel 3 and executes corresponding operations.

The display device 2 is arranged at the upper end of the control panel 3, the display device 2 can be connected with the control panel 3 through the second floating device 5, and the display device 2 can realize space floating such as lifting, translation and rotation relative to the control panel 3 through the second floating device 5. The display device 2 is in signal connection with the host 1, and the display device 2 is used for displaying the ultrasonic image processed by the host 1. The display device 2 may be a touch display, and the display device 2 may also have a function of inputting instructions, so that a doctor may perform instruction operations through the display device 2.

The control panel 3 includes a panel 31, a key assembly 32 and a partition assembly 33, the panel 31 is a main structure of the control panel 3, an upper end surface of the panel 31 is an operation table surface 31a, a cavity is formed in the panel 31, and the cavity of the panel 31 is used for accommodating other devices.

The operation table 31a of the panel 31 may be slightly inclined so as to facilitate the operation of the doctor. The key assembly 32 and the partition assembly 33 are both disposed on the operation panel 31a of the panel 31. The operation panel 31 may have a first key installation area 31b and a second key installation area 31c disposed on the operation panel 31a, and the second key installation area 31c is disposed on two sides of the first key installation area 31b, or the second key installation area 31c is disposed around the first key installation area 31b, that is, the second key installation area 31c is disposed around or near the first key installation area 31 b. For example, the first key installation area 31b is a circular area, two second key installation areas 31c are provided, and two second key installation areas 31c are symmetrically disposed at two sides of the first key installation area 31 b.

The key assembly 32 may include a plurality of function keys 321, and a plurality of different function keys 321 may be respectively disposed in the first key mounting region 31b and the second key mounting region 31c.

The separation component 33 is disposed between the plurality of function keys 321, and the separation component 33 may be disposed around the plurality of function keys 321; alternatively, a separation member 33 is provided between and around the plurality of function keys 321. In other words, the separation assembly 33 is disposed proximate to the function keys 321 such that light emitted by the separation assembly 33 can illuminate the key assemblies 32.

The partition member 33 may be disposed between the first key mounting region 31b and the second key mounting region 31c, and an installation gap may be provided between the first key mounting region 31b and the second key mounting region 31c, in which the partition member 33 is disposed. The partition member 33 is located between the first key mounting region 31b and the second key mounting region 31c, and the partition member 33 is capable of simultaneously illuminating the function keys 321 within the first key mounting region 31b and the second key mounting region 31c on both sides.

In other embodiments, the separation component 33 may be disposed at an edge of the second key mounting region 31c away from the first key mounting region 31b, and the separation component 33 can also illuminate the first key mounting region 31b and the second key mounting region 31c.

In other embodiments, the separating components 33 may include two separating components, one disposed between the first key mounting region 31b and the second key mounting region 31c, and the other disposed at the edge of the second key mounting region 31c away from the first key mounting region 31b, so that the two separating components 33 have better illumination effect.

In this embodiment, the partition component 33 may be an annular structure, the partition component 33 surrounds the edge of the first key installation area 31b, the partition component 33 surrounds the first key installation area 31b, and the partition component 33 forms a transparent member illumination structure, so that uniform illumination of the first key installation area 31b and the second key installation area 31c can be realized, and illumination brightness can be improved. The partition member 33 may also include a plurality of sub-partition members uniformly spaced apart from the edge of the first key mounting region 31b, and the plurality of sub-partition members may be positioned on a circular path, which also enables uniform illumination and provides sufficient illumination brightness.

In other embodiments, the separating component 33 may have other structures, for example, when the separating component 33 surrounds the edge of the first key mounting area 31b, the separating component 33 may have a special-shaped structure.

In this embodiment, the panel 31 may include an inner ring bracket 311 and an outer ring bracket 312, and the inner ring bracket 311 and the outer ring bracket 312 may be installed at a middle position of the panel 31 in an embedded manner. The outer ring support 312 is located outside the inner ring support 311, the top surface of the inner ring support 311 forms a first key installation area 31b, the top surface of the outer ring support 312 forms a second key installation area 31c, part of the function keys 321 are installed on the top surface of the inner ring support 311, and part of the function keys 321 are installed on the top surface of the outer ring support 312.

The outer ring support 312 may include a first portion 3121, a second portion 3122, and a connection portion 3123, where the first portion 3121 and the second portion 3122 are symmetrically disposed at both sides of the inner ring support 311, the connection portion 3123 is located at a lower end position of the outer ring support 312, one end of the connection portion 3123 is connected to the first portion 3121, and the other end of the connection portion 3123 is connected to the second portion 3122. The inner ring support 311 may also be fixed on the connection portion 3123, so that the inner ring support 311 and the outer ring support 312 form a key installation module, which is convenient to be assembled on the panel 31.

The connection portion 3123 may be provided with a vertically upward fastening structure 3124, where the bayonet structure 3111 corresponds to the lower end of the inner ring support 311, and the fastening structure 3124 is fastened to the bayonet structure 3111, so as to limit the degree of freedom of the inner ring support 311 moving along the direction (up-down direction) of the vertical operation table top 31a relative to the outer ring support 312, so that the inner ring support 311 can be prevented from falling out upwards, and the connection stability between the inner ring support 311 and the outer ring support 312 is improved.

In other embodiments, the inner ring support 311 and the outer ring support 312 may be of an integrated structure.

In this embodiment, an installation gap is formed between the inner ring support 311 and the outer ring support 312, that is, an installation gap is formed between the first key installation region 31b and the second key installation region 31c, the installation gap is an annular space, and the partition assembly 33 is installed in the installation gap between the inner ring support 311 and the outer ring support 312. It should be noted that, the portion of the partition member 33 exposed to the operation table 31a may be disposed in the mounting gap between the inner ring holder 311 and the outer ring holder 312, and other components of the partition member 33, such as the light source, may be disposed at positions corresponding to the mounting gap.

In this embodiment, the key assembly 32 further includes a track ball 322, and a plurality of function keys 321 surrounds the track ball 322, and the key assembly 32 is arranged around the track ball 322.

The middle part of the inner ring support 311 may be provided with a hollow structure, that is, the middle part of the first key installation area 31b has a hollow structure, and the middle part of the connection portion 3123 may also be provided with a corresponding hollow structure. The track ball 322 may be provided with a first clamping portion 3221, the inner wall of the hollow structure of the inner ring bracket 311 is provided with a corresponding second clamping portion 3113, the first clamping portion 3221 may be of a clamping structure or a clamping groove structure, the second clamping portion 3113 may be of a clamping groove structure or a clamping structure which is connected with the first clamping portion 3221 in a complementary manner, and the first clamping portion 3221 and the second clamping portion 3113 are clamped to fix the track ball 322 on the inner ring bracket 311. It should be noted that, the track ball 322 is a component structure, the track ball 322 includes a bracket and a sphere located on the bracket, the sphere can rotate universally relative to the bracket, and the inner ring bracket 311 is fastened and fixed with the bracket.

The track ball 322 is disposed in the middle of the inner ring bracket 311, that is, the track ball 322 is disposed in the middle of the first key mounting area 31 b. The trackball 322, the first key mounting area 31b and the separation member 33 are concentrically arranged in a plane parallel to the operation table surface 31a, the concentric arrangement having a more attractive appearance, while the separation member 33 is capable of simultaneously illuminating the trackball 322, facilitating the operation of the trackball 322 by a doctor in a light-dark environment.

In other embodiments, the separation component 33 may be disposed between the trackball 322 and the key component 321, that is, the separation component 33 may be disposed between the trackball 322 and the first key mounting area 31b, and the separation component 33 is located near the trackball 322, so as to achieve illumination of the function keys 321 and the trackball 322.

In other embodiments, the partition member 33 may include a plurality of partition members 33, and the partition member 33 may be disposed between the first key mounting region 31b and the second key mounting region 31c, at the edge of the second key mounting region 31c away from the first key mounting region 31b, and at a plurality of three positions between the first key mounting region 31b and the track ball 322.

In this embodiment, the partition component 33 includes a light-transmitting component 331 and a light source 332, the light-transmitting component 331 may be an annular light-transmitting structure, the light-transmitting component 331 is disposed in a mounting gap between the first key mounting region 31b and the second key mounting region 31c, and the light-transmitting component 331 is located at an upper end of the mounting gap, and a portion of the light-transmitting component 331 is exposed from the operation table 31a, so that the light emitted by the partition component 33 can illuminate the key component 32. The light source 332 may be installed at a position corresponding to the lower end of the installation gap, the light source 332 being aligned with the light-transmitting member 331 in the vertical direction, there being a space gap for light propagation between the light source 332 and the light-transmitting member 331. The light source 332 is for emitting light, and the light transmitting member 331 is for transmitting the light emitted by the light source 332 to irradiate light to the operation table surface 31a.

The light-transmitting member 331 may be a light-homogenizing structure, for example, the light-transmitting member 331 is made of semi-transparent material, and when light passes through the light-transmitting member, the light will be uniformly diffused, so as to achieve the effect of uniform light emission.

The light-transmitting member 331 may be provided with a first limiting portion 3311, the first limiting portion 3311 may be a limiting protrusion, the first limiting portion 3311 may be disposed on one side or two sides of the light-transmitting member 331, for example, the first limiting portion 3311 is disposed on an inner side of the light-transmitting member 331 facing the inner ring support 311, a corresponding second limiting portion 3112 is disposed on an outer side of the inner ring support 311, the second limiting portion 3112 may be a limiting groove, the first limiting portion 3311 is clamped in the second limiting portion 3112 to limit the degree of freedom of rotation of the light-transmitting member 331 relative to the inner ring support 311, and meanwhile the first limiting portion 3311 may be radially connected with the second limiting portion 3112 in an extrusion manner, so as to fix the light-transmitting member 331 in the mounting gap, thereby preventing the light-transmitting member 331 from falling out. The second limiting portion 3112 is disposed on the light-transmitting member 331, and the first limiting portion 3311 is disposed on the inner ring bracket 311, so that the light-transmitting member 331 can be fixedly mounted.

The light-transmitting member 331 may be provided with a plurality of first limiting portions 3311 uniformly distributed along the inner side, and the outer side of the inner ring support 311 is provided with a plurality of second limiting portions 3112 corresponding to the first limiting portions 3311 one by one, and the plurality of first limiting portions 3311 form a limiting fixation together with the light-transmitting member 331, so as to have a better limiting effect.

The width of the light-transmitting member 331 is equal to or slightly larger than the width of the installation gap between the inner ring support 311 and the outer ring support 312, so that the light-transmitting member 331 completely covers the installation gap between the inner ring support 311 and the outer ring support 312, and plays a role in sealing and waterproofing.

In other embodiments, a light guide member may be disposed between the light-transmitting member 331 and the light source 332, where the light guide member is used to transmit the light emitted by the light source 332 to the light-transmitting member 331, and the light guide member is disposed so that the relative positional relationship between the light-transmitting member 331 and the light source 332 has a larger tolerance, and if the light guide member may be a flexible member, the light-transmitting member 331 and the light source 332 do not need to be aligned in the up-down direction, and light emission can be achieved. The light guide member may be a light homogenizing member, and the light guide member may perform homogenizing treatment on light while transmitting light, so that the light transmitting member 331 can emit uniform illumination light.

In other embodiments, the lower end of the light-transmitting member 331 extends to be in butt joint with the light source 332, which corresponds to the integral structure of the light-transmitting member 331 and the light-guiding member, and is also beneficial to realizing light transmission and light homogenization.

In this embodiment, the light source 332 may be an LED lamp, and the light source 332 may include a plurality of light sources 332 uniformly distributed on a circular track, and the circular track is located on the projection of the light-transmitting member 331 along the up-down direction. The plurality of light sources 332 uniformly distributed can improve the brightness of the partition member 33 and improve the uniformity of the light emission of the partition member 33.

In other embodiments, the separation assembly 33 may also include a plurality of sub-light source assemblies uniformly distributed in the mounting gap between the inner and outer ring brackets 311 and 312, and the sub-light source assemblies may include a light transmissive member and a light source. The arrangement of the plurality of sub-light source modules also enables uniform illumination of the key assembly 32.

In other embodiments, the light-transmitting member 331 and the inner ring bracket 311 may be in an integrated structure, and the light-transmitting member 331 and the inner ring bracket 311 may be integrally formed by injection molding; of course, the light-transmitting member 331 and the outer ring bracket 312 may be in an integrated structure, and the light-transmitting member 331 and the outer ring bracket 312 may be integrally formed by injection molding; alternatively, the light-transmitting member 331 may be integrally formed with the inner ring support 311 and the outer ring support 312, and the light-transmitting member 331 may be integrally formed with the inner ring support 311 and the outer ring support 312 by injection molding. The light-transmitting piece 331 and one or both of the inner ring bracket 311 and the outer ring bracket 312 are injection molded, so that the mounting stability of the light-transmitting piece 331 can be improved, the light-transmitting piece 331 is fixed relative to the inner ring bracket 311 and/or the outer ring bracket 312, and the light-transmitting piece 331 does not need to be provided with a limiting structure to prevent the rotation of the light-transmitting piece 331, so that the structure of the light-transmitting piece 331 is simplified, and the mounting step of the light-transmitting piece 331 is simplified.

In one embodiment, the control panel 3 further includes a circuit board 34, where the circuit board 34 is disposed in the cavity of the panel 31, and the circuit board 34 may be fixed to the lower end of the outer ring bracket 312 by a screw fastening or the like. The surface of the circuit board 34 facing the key assembly 32 is provided with a plurality of key triggering parts 341, and the plurality of key triggering parts 341 and the plurality of function keys 321 are arranged in a one-to-one correspondence manner along the direction of the vertical operation table surface 31a, that is, each key triggering part 341 corresponds to one function key 321.

The light source 332 may be disposed on the circuit board 34, where the light source 332 and the key triggering portion 341 are located on the same side of the circuit board 34. The plurality of light sources 332 are located on a circular track on the side of the circuit board 34, and the plurality of light sources 332 correspond up and down to the light-transmitting member 331 of annular structure along the direction perpendicular to the operation table surface 31a.

In other embodiments, the light source 332 may be disposed in the mounting gap between the inner ring bracket 311 and the outer ring bracket 312, and the light source 332 is electrically connected to the circuit board 34 through a wire.

In one embodiment, the control panel 3 may further include a silica gel key 35, where the silica gel key 35 is fixed between the outer ring bracket 312 and the circuit board 34, and the circuit board 34 is mounted to the lower end of the outer ring bracket 312 by a screw and can fix the silica gel key 35. The silica gel button 35 is a flexible film layer, the silica gel button 35 covers the side surface of the circuit board 34, on which the button triggering part 341 is arranged, the silica gel button 35 covers the button triggering part 341, the silica gel button 35 is provided with triggering terminals 351 corresponding to the button triggering parts 341 one by one, the upper ends of the triggering terminals 351 are in butt joint with the function buttons 321, the lower ends of the triggering terminals 351 are in butt joint with the button triggering parts 341, and the function buttons 321 can trigger the button triggering parts 341 through the triggering terminals 351 with elasticity so as to generate corresponding operation instructions.

The silica gel key 35 may further cover the light source 332, and the silica gel key 35 may be made of a transparent or semitransparent material, so that the light emitted by the light source 332 can pass through the silica gel key 35 and irradiate the light-transmitting member 331. The silica gel key 35 may also be provided with a hollow structure aligned with the light source 332 up and down, so that the light emitted by the light source 332 can pass through the hollow structure of the silica gel key 35 and irradiate to the light-transmitting member 331.

In the ultrasonic device of this embodiment, since the separation component 33 is disposed between the plurality of function keys 321 of the control panel 3, the separation component 33 is disposed close to the function keys 321, and the light emitted by the separation component 33 can illuminate the function keys 321, so that a doctor can clearly see the function keys on the operation panel 3 in a hospital department with darker light, thereby avoiding blind operation and misoperation, and improving the efficiency of the doctor to operate the ultrasonic device.

In one embodiment, the separation component 33 may emit different colors of light to distinguish different usage scenarios, the separation component 33 emits different colors of light when used in different department scenarios, and presets a specific color of light in a specific department, and does not change color when used in a specific department to form a specific color scheme. If the ultrasound device is applied in a heart room, the separation assembly 33 emits orange light, forming an orange solution; if the ultrasonic device is applied to gynaecology and obstetrics, the separation component 33 emits pink light to form a pink scheme; if the ultrasound setup is applied to other departments, the separation assembly 33 emits light of other colors, creating a color scheme of other colors.

The separation assembly 33 may include light sources 332 that may emit different colors of light, the light sources 332 emitting preset colors of light using an ultrasonic device in a particular department.

The separation assembly 33 may also include a plurality of sub-separation assemblies for emitting different colors of light, respectively, and the ultrasonic device is used in a specific department to select the corresponding sub-separation assemblies to emit the light of the specific color.

In one embodiment, the separation assembly 33 may be disposed at other locations on the panel 31, such as where the separation assembly 33 is disposed at an edge of the panel 31; alternatively, the separation component 33 is disposed at other positions of the ultrasound apparatus, such as on the host 1 or the display device 2, and the separation component 33 is configured to emit light of different colors, so that different usage scenarios can be distinguished.

In one embodiment, the control panel 3 includes a panel 31, a key assembly 32 and a separation assembly 33, where the separation assembly 33 mainly plays a role of separating keys, and the separation assembly 33 may be a light-emitting or non-light-emitting structure, for example, the separation assembly 33 includes only an aperture disposed between the inner ring support 311 and the outer ring support 312, and does not include a light source, and the aperture may be a light-transmitting member or a non-light-transmitting member. The aperture separates a plurality of function buttons to facilitate the operation of doctors.

The key assembly 32 includes a first functional key, a second functional key and a track ball 322, the track ball 322 is disposed at a central position of an inner side of the aperture, the light transmitting member 331 is concentrically disposed with the track ball 322, a first key mounting area 31b is formed between the aperture and the track ball 322, and a second key mounting area 31c is formed on an outer side of the aperture away from the track ball 322. The first functional key and the second functional key have different functions, the first functional key may include a plurality of keys having similar functions, the second functional key may include a plurality of keys having similar functions, the first functional key is disposed in the first key mounting area 31b, and the second functional key is disposed in the second key mounting area 31c. The diaphragm sets up two kinds of buttons that the function is different separately, can improve doctor's efficiency of operating the button, can also avoid the maloperation.

The foregoing description of the utility model has been presented for purposes of illustration and description, and is not intended to be limiting. Several simple deductions, modifications or substitutions may also be made by a person skilled in the art to which the utility model pertains, based on the idea of the utility model.

Claims (27)

1. An ultrasound device, comprising:

the host computer is used for acquiring an ultrasonic echo signal obtained by scanning the probe and processing the ultrasonic echo signal into an ultrasonic image;

the display device is in signal connection with the host computer and is used for displaying the ultrasonic image; and

the control panel is in signal connection with the host computer and is used for inputting an operation instruction; the control panel comprises a key assembly and a separation assembly, the control panel is provided with an operation table surface, the key assembly and the separation assembly are arranged on the operation table surface, the key assembly comprises a plurality of functional keys, the separation assembly is arranged between and/or around the functional keys, and the separation assembly is used for illuminating the key assembly.

2. The ultrasonic apparatus of claim 1, wherein the operation table is provided with a first key mounting region and a second key mounting region, the second key mounting region surrounding or being close to the first key mounting region, the first key mounting region and the second key mounting region being respectively provided with the function keys; the separation component is arranged between the first key installation area and the second key installation area, and/or the separation component is arranged at the edge of the second key installation area far away from the first key installation area.

3. The ultrasonic device of claim 2, wherein the first key mounting region is a circular region, the separation member is a ring-shaped structure, and the separation member surrounds an edge of the first key mounting region.

4. The ultrasonic apparatus of claim 2, wherein a mounting gap is provided between the first key mounting region and the second key mounting region, the separation assembly being disposed within the mounting gap.

5. The ultrasonic apparatus of claim 4, wherein the control panel comprises an inner ring support and an outer ring support, the top surface of the inner ring support has the first key mounting area, the top surface of the outer ring support has the second key mounting area, the inner ring support and the outer ring support form the mounting gap therebetween, and the separation assembly is connected with the inner ring support and/or the outer ring support.

6. The ultrasound device of claim 1, wherein the key assembly further comprises a trackball, the plurality of function keys being disposed about the trackball, the separation assembly being disposed about the trackball.

7. The ultrasound device of claim 6, wherein the separation assembly is disposed between the trackball and the plurality of function keys.

8. The ultrasonic apparatus of any one of claims 1 to 7, wherein the separation assembly comprises a light transmissive member exposed to the operation table, and a light source located within the control panel for emitting light to the light transmissive member for transmitting light emitted by the light source.

9. The ultrasound device of claim 8, wherein the light transmissive element is a light homogenizing structure.

10. The ultrasonic apparatus of claim 8, wherein the light-transmitting member is provided with a first limiting portion, and the control panel is provided with a second limiting portion, the first limiting portion and the second limiting portion being connected to limit a degree of freedom in rotation of the light-transmitting member in a plane parallel to the operation table.

11. The ultrasound device of claim 8, wherein the separation assembly further comprises a light guide disposed between the light source and the light transmissive member, the light guide configured to transfer light emitted by the light source to the light transmissive member.

12. The ultrasonic device of claim 8, wherein a circuit board is arranged in the control panel, the circuit board is provided with a plurality of key triggering parts, and each key triggering part is correspondingly connected with one function key; the light source is arranged on the circuit board.

13. The ultrasonic device of claim 12, wherein the circuit board is covered with a silica gel key, and the function key is connected with the key triggering part through the silica gel key; and/or the silica gel key also covers the light source, and the silica gel key is of a semitransparent or transparent structure.

14. The ultrasonic apparatus of claim 5, wherein the separation assembly comprises a light transmissive member exposed to the operation table, and a light source located within the control panel for emitting light to the light transmissive member for transmitting light emitted by the light source; the light-transmitting piece and the inner ring support and/or the outer ring support are integrally formed.

15. The ultrasound device of claim 1, wherein the separation assembly is further configured to emit different colors of light to distinguish between different usage scenarios.

16. The ultrasound device of claim 15, wherein the separation assembly comprises a plurality of sub-separation assemblies each for emitting a different color of light.

17. An ultrasound device, comprising:

the host computer is used for acquiring an ultrasonic echo signal obtained by scanning the probe and processing the ultrasonic echo signal into an ultrasonic image;

the display device is in signal connection with the host computer and is used for displaying the ultrasonic image; and

the control panel is in signal connection with the host computer and is used for inputting an operation instruction; the control panel comprises a key assembly and a separation assembly, the control panel is provided with an operation table surface, the key assembly and the separation assembly are arranged on the operation table surface, and the separation assembly is used for emitting light with different colors so as to distinguish different use scenes.

18. The ultrasound device of claim 17, wherein the separation assembly comprises a plurality of sub-separation assemblies each for emitting a different color of light.

19. The ultrasonic apparatus of claim 17, wherein the separation assembly comprises a light transmissive member exposed to the operation table and a light source positioned within the panel, the light source configured to emit light to the light transmissive member, the light transmissive member configured to transmit light emitted by the light source.

20. The ultrasound device of claim 19, wherein the light transmissive element is a light homogenizing structure.

21. An ultrasound device, comprising:

the host computer is used for acquiring an ultrasonic echo signal obtained by scanning the probe and processing the ultrasonic echo signal into an ultrasonic image;

the display device is in signal connection with the host computer and is used for displaying the ultrasonic image; and

the control panel is in signal connection with the host computer and is used for inputting an operation instruction; the control panel comprises a key assembly and a separation assembly, the control panel is provided with an operation table surface, the key assembly and the separation assembly are arranged on the operation table surface, the key assembly comprises a first functional key, a second functional key and a track ball, the track ball is arranged at the center position of the inner side of the separation assembly, the first functional key and the second functional key are provided with different functions, the first functional key is arranged between the separation assembly and the track ball, and the second functional key is arranged on the outer side of the separation assembly.

22. The ultrasonic apparatus of claim 21, wherein the operation table is provided with a first key mounting region and a second key mounting region, the second key mounting region surrounding or being adjacent to the first key mounting region, the first function key being disposed in the first key mounting region, the second function key being disposed in the second key mounting region; the separation component is arranged between the first key installation area and the second key installation area.

23. The ultrasonic apparatus of claim 22, wherein a mounting gap is provided between the first key mounting region and the second key mounting region, the separation assembly being disposed within the mounting gap.

24. The ultrasonic device of claim 23, wherein the control panel comprises an inner ring support and an outer ring support, the top surface of the inner ring support having the first key mounting region, the top surface of the outer ring support having the second key mounting region, the inner ring support and the outer ring support defining the mounting gap therebetween, the separation assembly being coupled to the inner ring support and/or the outer ring support.

25. The ultrasonic device of any one of claims 21 to 24, wherein the separation assembly comprises a light transmissive member exposed to the operation table, and a light source located within the control panel for emitting light to the light transmissive member for transmitting light emitted by the light source; the separation assembly is configured to illuminate the key assembly when the ultrasound device is in operation.

26. The ultrasonic apparatus of claim 24, wherein the separation assembly comprises a light transmissive member exposed to the operation table and a light source located within the control panel for emitting light to the light transmissive member for transmitting light emitted by the light source; the light-transmitting piece and the inner ring support and/or the outer ring support are integrally formed.

27. The ultrasound device of claim 21, wherein the separation assembly is further configured to emit different colors of light to distinguish between different usage scenarios.