CN104622508A - Mammary gland ultrasonic machine and ultrasonic diagnosis system - Google Patents

Abstract

The invention relates to a mammary gland ultrasonic machine which comprises an ultrasonic transducer, an ultrasonic beam former, an ultrasonic transducer drive unit and a storage unit, wherein the ultrasonic beam former is connected with the ultrasonic transducer and used for synthesizing echo signals received by the transducer, the ultrasonic transducer drive unit is connected with the ultrasonic transducer and used for driving the ultrasonic transducer to move, and the storage unit is used for storing the position of the ultrasonic transducer. The mammary gland ultrasonic machine is characterized in that the ultrasonic transducer, the ultrasonic beam former, the ultrasonic transducer drive unit and the storage unit are located in the same shell.

Description

A kind of breast ultrasound machine and compuscan

Technical field

The present invention relates to a kind of ultrasonic device, particularly relate to a kind of breast ultrasound machine and compuscan.

Background technology

Existingly mainly contain two kinds for carrying out ultrasonographic equipment to mammary gland.

Be general ultrasonic machine and a linear array probe for configuration thereof, complete scanning by this probe of operator's manual operation.This general linear array probe can only scan a tangent plane, cannot be built into 3-D view by scanning the two dimensional image obtained.

Another kind is the ultrasonic machine being specifically designed to Breast ultrasonography or the Breast ultrasonography special part be connected with general ultrasonic main frame, the cost of this special breast ultrasound machine or special part is very high, volume and weight is also very large, and scanning speed slowly, therefore, such special equipment cannot meet the demand of the large hospital of daily check amount.

So, need to provide a kind of new breast ultrasound machine and corresponding compuscan, solve the problems referred to above.

Summary of the invention

An embodiment provides a kind of breast ultrasound machine, comprising: ultrasonic transducer; Ultrasound beamforming device, it is connected with ultrasonic transducer, synthesizes for the echo-signal received transducer; Ultrasonic transducer driver element, it is connected with ultrasonic transducer, moves for driving ultrasonic transducer; Memory element, for storing the position of ultrasonic transducer; Ultrasonic transducer, Ultrasound beamforming device, ultrasonic transducer driver element and memory element are positioned at same shell.

Another embodiment of the present invention provides a kind of compuscan, comprises at least one according to breast ultrasound machine of the present invention; And the server to be connected with breast ultrasound machine.

Accompanying drawing explanation

Be described for embodiments of the invention in conjunction with the drawings, the present invention may be better understood, in the accompanying drawings:

Figure 1 shows that the structural representation of an embodiment of breast ultrasound machine of the present invention;

Figure 2 shows that the structural representation of an embodiment of ultrasonic transducer driver element of the present invention;

Figure 3 shows that ultrasonic transducer schematic diagram along first direction movement under the driving of ultrasonic transducer driver element;

Figure 4 shows that ultrasonic transducer schematic diagram along the first and second direction movements under the driving of ultrasonic transducer driver element;

Figure 5 shows that the structural representation of an embodiment of compuscan of the present invention.

Detailed description of the invention

Below will describe the specific embodiment of the present invention, and it is pointed out that in the specific descriptions process of these embodiments, in order to carry out brief and concise description, this description can not all do detailed description to all features of the embodiment of reality.Should be understandable that; in the actual implementation process of any one embodiment; as in the process of any one engineering project or design object; in order to realize the objectives of developer; in order to meet that system is correlated with or that business is relevant restriction; usually can make various concrete decision-making, and this also can change to another kind of embodiment from a kind of embodiment.In addition, it will also be appreciated that, although the effort made in this development process may be complicated and tediously long, but for those of ordinary skill in the art relevant to content disclosed by the invention, some designs that the basis of the technology contents of disclosure exposure is carried out, manufacture or production etc. changes just conventional technological means, not should be understood to content of the present disclosure insufficient.

Unless otherwise defined, the technical term used in claims and description or scientific terminology should be in the technical field of the invention the ordinary meaning that the personage with general technical ability understands." first ", " second " that use in patent application specification of the present invention and claims and similar word do not represent any order, quantity or importance, and are only used to distinguish different ingredients.The similar word such as " one " or " one " does not represent that quantity limits, but represents to there is at least one." comprise " or the similar word such as " comprising " mean to appear at " comprising " or " comprising " before element or object contain the element or object and equivalent element thereof that appear at " comprising " or " comprising " presented hereinafter, do not get rid of other elements or object." connection " or " being connected " etc. similar word be not defined in physics or the connection of machinery, be also not limited to direct or indirectly connect.

Figure 1 shows that the structural representation of an embodiment of breast ultrasound machine 100 of the present invention.

In one embodiment of the invention, breast ultrasound machine 100 can comprise ultrasonic transducer 101, Beam-former 102, image generation unit 103, memory element 104, display unit 105, ultrasonic transducer driver element 107, power supply unit 108, data transmission unit 109 and shell 110.In order to make breast ultrasound machine 100 volume compact, be easy to mobile, ultrasonic transducer 101, Beam-former 102, image generation unit 103, memory element 104, display unit 105, ultrasonic transducer driver element 107, power supply unit 108, data transmission unit 109 all can be arranged in shell 110.

In an indefiniteness example, Beam-former 102 can adopt asic chip to realize, and can reduce the volume and weight of Beam-former 102 like this, also can reduce its power consumption.Image generation unit 103 can be to carry out the special of data image signal process or general dsp chip.Memory element 104 can adopt FLASH chip, RAM or various types of rom chip.Display unit 105 can adopt various types of panel display part, such as: LCD display part, light-emitting diode display part, OLED display device etc., can not only volume and weight be reduced like this, also be conducive to display unit 105 and miscellaneous part to be integrated together.Power supply unit 108 can comprise any rechargeable battery or not rechargeable battery, as lithium ion battery, lithium polymer battery, Ni-MH battery, Ni-Cr battery, general dry battery etc., power supply unit 108 can also comprise the interface circuit be connected with external communication or DC source, for be powered directly to breast ultrasound machine 100 by external communication or DC source and to the built-in above-mentioned rechargeable battery charging of breast ultrasound machine 100.Data transmission unit 109 can be that any wireless communication protocol that utilizes carries out the equipment of data transmission, as: WLAN transmission equipment, Bluetooth transmission equipment, Zigbee transmission equipment, infrared transmission equipment, 2G or 3G mobile communication transmission equipment etc.

In the breast ultrasound machine 100 shown in Fig. 1, ultrasonic transducer 101 is connected with Beam-former 102.When ultrasonic transducer 101 receives the ultrasonic echo that inspected object is reflected back, Beam-former 102 can synthesize to the signal of telecommunication that ultrasonic echo conversion exports the signal of telecommunication received according to each primitive (element) in ultrasonic transducer 101.

Image generation unit 103 can be connected with display unit 105 with Beam-former 102 respectively, and the image of generation can send to display unit 105 to show according to the output synthetic image of Beam-former 102 by it.In one embodiment of the invention, image generation unit 103 only can generate two dimensional image.In another embodiment of the present invention, image generation unit 103 first can generate two dimensional image, then utilizes two dimensional image generating three-dimensional figures picture and the tangent plane picture of generation.Because the requirement of generating three-dimensional figures picture to hardware performance is higher, power consumption is also comparatively large, and therefore image generation unit 103 only generates two dimensional image is the scheme more optimized.

Memory element 104 can be connected with image generation unit 103, after image generation unit 103 synthetic image, view data can be sent to memory element 104 and store.Memory element 104 can also be connected with display unit 105, when memory element 104 receives view data, the view data in memory element 104 and the interested data of some other user can be shown by display unit 105.

In one embodiment of the invention, when image generation unit 103 only generates two dimensional image, memory element 104 can store this two dimensional image, and display unit 105 can show this two dimensional image.In another embodiment of the present invention, when image generation unit 103 can generate two dimensional image and 3-D view and tangent plane picture, memory element 104 can store two dimensional image, 3-D view and tangent plane picture, and display unit 105 can show two dimensional image, 3-D view and tangent plane picture.

Ultrasonic transducer driver element 107 is connected with memory element 104 with ultrasonic transducer 101 respectively.When carrying out ultrasonic examination to mammary gland, ultrasonic transducer 101 can be driven to move along first direction by ultrasonic transducer driver element 107.Meanwhile, positional information current for ultrasonic transducer 101 can be sent to memory element 104 by ultrasonic transducer driver element 107.Like this, the position of the ultrasonic transducer 101 corresponding to the some width two dimensional images generated by image generation unit 103 and each width two dimensional image is just stored in memory element 104.

Power supply unit 108 provides electric energy for the unit in breast ultrasound machine.It can be arranged on the battery in shell 110, also can be the power supply circuits that can receive external power source, can also above-mentioned both.

Data transmission unit 109 transmits for the data between breast ultrasound machine 100 and the server be connected with breast ultrasound machine 100.Data transmission unit 109 is connected with display unit 105 with memory element 104 respectively, data in memory element 104 can be transferred to the server be connected with breast ultrasound machine 100 by it, such as: can send the position of ultrasonic transducer 101 corresponding to the two dimensional image stored in memory element 104 and each width two dimensional image to this server.Data transmission unit 109 can also receive the data from this server, is stored to memory element 104 and sends it to display unit 105 for display.In order to make breast ultrasound machine 100 removable, data transmission unit can adopt wireless mode to be connected with server.

In one embodiment of the invention, some buttons can being set on shell 110, controlling breast ultrasound machine 110 for being supplied to user operation.In another embodiment of the present invention, display unit 105 can be designed to touch equipment, and above-mentioned button is supplied to user in the mode of tangibly menu.

Figure 2 shows that the structural representation of an embodiment of ultrasonic transducer driver element 107 of the present invention.In one embodiment of the invention, ultrasonic transducer driver element 107 can comprise motor 201, leading screw 202 and coupling unit 203.When needs ultrasonic transducer 101 pairs of mammary gland carry out ultrasonic examination, leading screw 202 can be driven to rotate by motor 201, coupling unit 203 can be arranged on ultrasonic transducer 101, plays and to be coupled with leading screw 202 and ultrasonic transducer 101 can be driven along the effect of first direction movement with the rotation of leading screw 202.

Figure 3 shows that ultrasonic transducer schematic diagram along first direction movement under the driving of ultrasonic transducer driver element.In figure 3, arrow X direction is first direction, and ultrasonographic region is carried out for needs in the region in square frame 301.Check start time, if ultrasonic transducer 101 is positioned at high order end 302 place of above-mentioned zone, under the drive of ultrasonic transducer driver element 107, ultrasonic transducer 101 moves to low order end 303 place of above-mentioned zone along the direction of arrow X indication.Like this, because the aperture of ultrasonic transducer 101 is enough large, only need, along first direction from left to right or from right to left mobile ultrasonic transducer 101, just can complete ultrasonic examination.

When the aperture of ultrasonic transducer 101 is less, only all examine regions just cannot be checked through along the movement of first direction by above-mentioned.At this moment, as shown in Figure 2, ultrasonic transducer driver element 107 can also comprise second direction driver element 204, and this driver element can drive ultrasonic transducer 101 to move along the direction perpendicular to above-mentioned first direction.In one embodiment of the invention, second direction driver element 204 can comprise metrics calculation unit 205 and power unit 206.Metrics calculation unit 205 can calculate ultrasonic transducer 101 distance along second direction movement along the length of second direction and ultrasonic transducer 101 along the length of second direction according to region to be scanned.This distance is supplied to power unit 206 by metrics calculation unit 205, and power unit 206 is connected with ultrasonic transducer 101, according to the distance value that metrics calculation unit 205 provides, drives ultrasonic transducer 101 to move along second direction.

Figure 4 shows that ultrasonic transducer schematic diagram along the first and second direction movements under the driving of ultrasonic transducer driver element.In the diagram, arrow X direction is first direction, and arrow Y direction is second direction.Ultrasonographic region is carried out for needs in region in square frame 301.Check start time, if ultrasonic transducer 101 is positioned at most left upper end 401 place of above-mentioned zone, under the drive of ultrasonic transducer driver element 107, ultrasonic transducer 101 moves to most upper right side 402 place of above-mentioned zone along the direction of arrow X indication.Because the aperture of ultrasonic transducer 101 is less, the above-mentioned movement along first direction can only be checked through the examine region of a part, therefore, when ultrasonic transducer 101 moves to 402 place, the second direction driver element 204 in ultrasonic transducer driver element 107 is needed ultrasonic transducer 101 to be moved to most bottom righthand side 403 place of above-mentioned zone from most upper right side 402 402 place along the second direction shown in arrow Y.And then drive ultrasonic transducer 101 to move to 404 of most lower-left end along the direction of arrow X indication from most bottom righthand side 403 by ultrasonic transducer driver element 107, just complete the inspection to whole examine region.

Present invention also offers a kind of compuscan.Figure 5 shows that the structural representation of an embodiment of compuscan 400 of the present invention.

In one embodiment of the invention, compuscan 400 server 404 that can comprise at least one above-mentioned breast ultrasound machine and be connected with this breast ultrasound machine.Fig. 5 shows three breast ultrasound machines 401,402,403 exemplarily altogether.Breast ultrasound machine 401,402,403 is connected with server 404 by radio connection.Be described for breast ultrasound machine 401 below.

In one embodiment of the invention, server 404 can comprise 3-D view generation module 405 and memory element 406.After breast ultrasound machine 401 couples of patients carry out breast examination, the positional information of the ultrasonic transducer 101 corresponding to the two dimensional image of generation and each width two dimensional image can be sent to server 404, server 404 can utilize 3-D view generation unit 405 wherein by the positional information generating three-dimensional figures picture of the ultrasonic transducer 101 of this two dimensional image and correspondence thereof and tangent plane picture (as: the A tangent plane picture that obtains according to this 3-D view, B tangent plane picture, C tangent plane picture), and by these two dimensional images, positional information, the 3-D view generated and tangent plane picture are stored into memory element 406.

In one embodiment of the invention, the information that the 3-D view of generation, tangent plane picture and some other needs show on breast ultrasound machine 401 by the wireless connections between breast ultrasound machine 401, can be sent to breast ultrasound machine 401 by server 404.After receiving the information such as above-mentioned 3-D view and tangent plane picture generated by server 404, these images can be shown by display unit by breast ultrasound machine 401.

Equally, have for server 404 other breast ultrasound machines 402 and 403 be connected, aforesaid way also can be adopted to coordinate to the division of labor carried out between breast ultrasound machine and server.

In embodiments of the present invention, by the ultrasonic transducer of breast ultrasound machine, Beam-former, image generation unit, memory element, display unit, ultrasonic transducer driver element, power supply unit, data transmission unit is all integrated within a shell, forms a portable moveable breast ultrasound machine.Under the drive of ultrasonic transducer driver element, ultrasonic transducer moves in a certain direction, fast and effeciently can complete inspection.

And the generation etc. of 3-D view and tangent plane picture is needed to consume relatively high power and the function higher to hardware requirement, can be come by the server be connected with breast ultrasound machine.This server can also store the data of each the breast ultrasound machine transmission be attached thereto, and the information of the 3-D view of generation is issued corresponding breast ultrasound machine, shows on the display unit at breast ultrasound machine.

A set of breast ultrasound diagnostic system like this, power consumption is lower, be easy to one end that integrated assembly has been arranged on user's hand-held, and power consumption is comparatively large, the assembly higher to hardware requirement has been arranged on server end, just both reduced the cost of Breast ultrasonography special equipment, decrease its volume and weight, can also easily centralized stores and management Breast ultrasonography related data.

The foregoing is only embodiments of the invention, be not limited to the present invention, for a person skilled in the art, the present invention can have various modifications and variations.Within the spirit and principles in the present invention all, any amendment done, equivalent replacement, improvement etc., all should be included within right of the present invention.

Claims (21)

1. a breast ultrasound machine, comprising:

Ultrasonic transducer;

Ultrasound beamforming device, it is connected with described ultrasonic transducer, for described receive MUT to echo-signal synthesize;

Ultrasonic transducer driver element, it is connected with described ultrasonic transducer, moves for driving described ultrasonic transducer;

Memory element, for storing the position of described ultrasonic transducer;

It is characterized in that: described ultrasonic transducer, described Ultrasound beamforming device, described ultrasonic transducer driver element and described memory element are positioned at same shell.

2. breast ultrasound machine according to claim 1, is characterized in that, described ultrasonic transducer driver element comprises first direction driver element and second direction driver element.

3. breast ultrasound machine according to claim 2, is characterized in that, described first direction is perpendicular to second direction.

4. breast ultrasound machine according to claim 2, is characterized in that, described first direction driver element comprises:

Motor, for providing the power driving ultrasonic transducer movement;

Leading screw, its one end is connected with described motor, rotates under the drive of described motor;

Coupling unit, it is arranged on described ultrasonic transducer, is coupled with described leading screw, under the drive of described leading screw, described ultrasonic transducer is moved.

5. breast ultrasound machine according to claim 2, is characterized in that, described second direction driver element comprises:

Metrics calculation unit, for calculating the distance of described ultrasonic transducer along second direction movement;

Power unit, for providing the power making described ultrasonic transducer along second direction movement.

6. breast ultrasound machine according to claim 1, is characterized in that, also comprises in described shell:

Image generation unit, it is connected with described Beam-former, for the output synthetic image according to described Beam-former;

Display unit, for showing information to user;

Power supply unit, for powering to described breast ultrasound machine;

Wherein, described memory element is also connected with described display unit with described image generation unit respectively, for storing the image of described image generation unit generation and providing the information needed for display to described display unit.

7. breast ultrasound machine according to claim 6, is characterized in that, described image generation unit comprises: two dimensional image generation unit, generates two dimensional image for the output according to described Ultrasound beamforming device.

8. breast ultrasound machine according to claim 7, is characterized in that, described memory element stores described two dimensional image.

9. breast ultrasound machine according to claim 7, is characterized in that, described display unit shows described two dimensional image.

10. breast ultrasound machine according to claim 7, it is characterized in that, described image generation unit also comprises: 3-D view generation unit, for generating 3-D view and tangent plane picture according to the described two dimensional image of two dimensional image generation unit generation and the position of described ultrasonic transducer.

11. breast ultrasound machines according to claim 9, it is characterized in that, described memory element stores described 3-D view.

12. breast ultrasound machines according to claim 9, is characterized in that, described display unit shows described 3-D view and described tangent plane picture.

13. breast ultrasound machines according to any one in claim 1-12, it is characterized in that, also comprise in described shell: data transmission unit, it is connected with described memory element, transmits for the data between described breast ultrasound machine and the server be connected with described breast ultrasound machine.

14., according to breast ultrasound machine described in claim 11, is characterized in that, described data transmission adopts wireless mode.

15., according to breast ultrasound machine described in claim 11, is characterized in that, the data in described memory element are transferred to described server by described data transmission unit, and the data from described server received are stored into described memory element.

16. 1 kinds of compuscans, is characterized in that, comprising:

At least one the breast ultrasound machine according to any one in claim 1-15; And

The server be connected with described breast ultrasound machine.

17. compuscans according to claim 16, is characterized in that, described server comprises:

3-D view generation unit, the positional information for the described ultrasonic transducer corresponding to the two dimensional image from described breast ultrasound machine received and described two dimensional image generates 3-D view and tangent plane picture.

18. compuscans according to claim 17, is characterized in that, described server also comprises: memory element, for storing described two dimensional image, described positional information, described 3-D view and described tangent plane picture.

19. compuscans according to claim 17, is characterized in that, described server also comprises 3-D view transmitting element, and described 3-D view and described tangent plane picture are sent to described ultrasonic machine by it.

20. compuscans according to claim 19, is characterized in that, the display of described display unit is from the described 3-D view of described 3-D view transmitting element and described tangent plane picture.

21. compuscans according to any one in claim 16-20, is characterized in that: described connection is wireless connections.