CN110946614A - Ultrasonic imaging system and probe cable management device - Google Patents

Abstract

An ultrasound imaging system and probe cable management apparatus, the ultrasound imaging system comprising: the system comprises an ultrasonic host, an ultrasonic probe, a display and a probe cable management device; the probe cable management device comprises a support frame and a cantilever frame; the cantilever frame is rotatably arranged at the upper end of the supporting frame, and a wire hanging part is arranged on the cantilever frame. The wire hanging component is arranged on the cantilever frame, so that wires of the probe can be hung on the cantilever frame along the routing of the support frame, and a plurality of wires can be orderly placed on the support; in addition, the cantilever frame is rotatably arranged on the support frame, so that the cantilever frame positioned at the upper end of the support frame can horizontally swing, and a wire rod hung on the cantilever frame can swing along with the cantilever frame, thereby being convenient for doctors to use.

Description

Ultrasonic imaging system and probe cable management device

Technical Field

The application relates to the technical field of medical instruments, in particular to an ultrasonic imaging system and a probe cable management device.

Background

An ultrasound probe is a standard accessory for ultrasound machines. Multiple probes are typically deployed on each ultrasound machine. The cable of one probe is about 2 meters generally, and how to reasonably fix a plurality of 2-meter probe cables on the ultrasonic machine is a problem which needs to be solved.

To prevent the probe cable from dragging to the ground, hooks are currently arranged on the ultrasound machine, onto which the physician can arrange the probe cable. However, the disadvantages of using hooks to manage wires are evident:

the cable arrangement is time-consuming and labor-consuming, the distance from the ground is about 0.5-0.8 m when the cup sleeve is the lowest, and a cable with a length of 2 m of a probe needs to be turned back and forth for multiple times to avoid dragging the ground and waste time and labor;

the wire rod is in a jumble, even use the hook reason line, can not avoid the mixed and disorderly of wire rod yet, because many probe cables make a round trip to turn back and cross use, can twine each other inevitably and tie into a group, and is very chaotic.

Disclosure of Invention

An embodiment provides an ultrasound imaging system comprising:

the system comprises an ultrasonic host, an ultrasonic probe, a display and a probe cable management device, wherein the ultrasonic host, the ultrasonic probe and the display are in communication connection;

the ultrasonic probe transmits ultrasonic waves to a tested object and receives ultrasonic echoes returned from the tested object;

the ultrasonic host receives the ultrasonic echo from the ultrasonic probe and carries out ultrasonic imaging according to the ultrasonic echo so as to obtain an ultrasonic image of the tested object;

displaying the ultrasound image on the display;

the probe cable management device comprises a support frame and a cantilever frame;

the cantilever frame is rotatably arranged at the upper end of the supporting frame, and a wire hanging part is arranged on the cantilever frame.

In one embodiment there is provided a probe cable management device comprising:

a support frame;

the cantilever frame can be installed at the upper end of the supporting frame in a horizontally rotating mode, and a wire hanging component is arranged on the cantilever frame.

According to the ultrasonic imaging system and the probe cable management device of the embodiment, the probe cable management device comprises the support frame and the cantilever frame positioned at the upper end of the support frame, and the cantilever frame is provided with the wire hanging part, so that wires of the probe can be hung on the cantilever frame along the routing of the support frame in a hanging manner, and a plurality of wires can be orderly placed on the support frame; in addition, the cantilever frame is rotatably arranged on the support frame, so that the cantilever frame positioned at the upper end of the support frame can horizontally swing, and a wire rod hung on the cantilever frame can swing along with the cantilever frame, thereby being convenient for doctors to use.

Drawings

FIG. 1 is a schematic diagram of a probe cable management device in one embodiment;

FIG. 2 is an exploded view of the probe cable management device in one embodiment;

FIG. 3 is a schematic diagram of a folded stowed position of the probe cable management device in one embodiment;

fig. 4 is a schematic structural diagram of an ultrasonic imaging system in an embodiment.

Detailed Description

The probe cable management device provided in the embodiment of the application mainly comprises a support frame and a horizontally rotatable cantilever frame positioned at the upper end of the support frame, wherein the support frame is installed through a bottom plate in a ground mode or on ultrasonic equipment. The wire hanging component is arranged on the cantilever frame, and wires of the probe can crawl and be fixed along the wire arranging bracket. A plurality of wires and probes can be simultaneously fixed on the support frame and the cantilever frame for selection of doctors; in the using process, a plurality of commonly used probes and the bracket can be relatively fixed together, so that a doctor does not need to repeatedly detach the probes and repeatedly arrange wires; the wire is hung, the outlet of the probe wire is upward, the comfort level of a doctor is improved, and the comfort level of the doctor is obviously improved because the stress of the probe wire is transferred to the bracket instead of the wrist of the doctor; the wire rod crawls along the support, has also avoided the wire rod to drag ground, makes dirty the wire rod. Because the cantilever frame is a movable bracket, a doctor can pull the probe to a required position, and the usability is good.

Before describing the probe cable management device, the ultrasound imaging system 100 of the present application is described, as shown in fig. 4, and includes an ultrasound host 110, an ultrasound probe 120, a display 130, and a probe cable management device 140, wherein the ultrasound host 110 is communicatively connected to the ultrasound probe 120 and the display 130. Typically, the ultrasound host 110, the ultrasound probe 120, and the display 130 are communicatively coupled via an ultrasound cable. The display 130 may be a display disposed on the ultrasound host 110, or may be a display independent from the ultrasound host 110, which is not limited herein.

In implementation, the ultrasonic probe 120 transmits an ultrasonic wave to a test object, and receives an ultrasonic echo returned from the test object, where the test object may be a human or animal tissue or organ used for ultrasonic imaging, and the like, and is not limited herein. The ultrasound host 110 receives the ultrasound echo from the ultrasound probe 120, performs ultrasound imaging based on the ultrasound echo to acquire an ultrasound image of the object, and displays the ultrasound image on the display 130. The ultrasound image may be an ultrasound image with any dimension, such as two-dimensional, three-dimensional, four-dimensional, etc., and is not limited herein.

The probe cable management device 140 includes a support frame and a cantilever frame;

the cantilever frame is rotatably arranged at the upper end of the supporting frame, and a wire hanging part is arranged on the cantilever frame. The probe cable management device 140 can be referred to in the following description of the probe cable management device.

In one embodiment, as shown in fig. 1, the probe cable management device is a cable management bracket, and mainly includes a support frame 10 and a cantilever frame 20, where the support frame 10 is vertically installed on an ultrasound device, or directly installed on the ground, or installed on a patient bed, and is not limited herein. The fixing and the detachable installation can be realized through a clamping device or a screw, and the specific installation mode can be selected according to actual requirements. In order to better mount the support frame 10 and connect with the cantilever frame 20, the upper and lower ends of the support frame 10 are respectively provided with a mounting portion bent to be horizontal.

The boom housing 20 is horizontally disposed and can swing horizontally, and one end of the boom housing 20 is rotatably mounted on the upper end of the supporting frame 10 through a pin 30, and can rotate horizontally or turn over, which is not limited herein. A plurality of spaced apart wire suspension members 40 are mounted on boom housing 20. Preferably, the wire hanging component 40 is a hook, and the hook is hung and fixed below the cantilever frame 20 and is used for hanging the wire 60.

In other embodiments, the thread-hanging component 40 can also be a hanging ring or other limiting component with a thread hole.

In order to enable the wire to be more standard and tidy, a threading part (not shown in the figure) is installed on the support frame 10, the threading part is preferably a hanging ring, the hanging ring is horizontally installed on the support frame 10, the hanging ring is also provided with a plurality of hanging rings, the hanging rings are installed on the support frame 10 at intervals, the wire can be laid along the support frame 10 and penetrate through the hanging rings, and therefore the wire can be laid along the support frame 10 neatly. The threading part can also be a hook which is horizontally arranged, the hook limits the wire rod, and the wire rod is convenient to disassemble.

In this embodiment, the plurality of cup holders 50 are respectively installed on the supporting frame 10 and the cantilever frame 20, and the cup holders 50 are used for placing the probe end of the probe and the limiting wire 60, so as to facilitate the detection of a doctor. The arrangement of the cup sleeves 50 enables probe ends of a plurality of probes to be placed on the bracket at the same time, and doctors can place and use the probes according to using habits. The bottom of the cup sleeve 50 is provided with a threading hole, and the side surface of the cup sleeve is provided with an opening, so that a wire of the probe can be arranged in the cup sleeve 50 in a penetrating manner, and the opening is arranged to facilitate the use and the placement of the probe end of the probe.

In other embodiments, the sleeve 50 can be mounted on the supporting frame 10 or the cantilever frame 20 only, and the sleeve 50 is detachably mounted, so that the doctor can adjust the position of the sleeve 50 according to the use habit.

According to the cable management device for the probe, which is provided by the embodiment of the invention, the cable management device comprises the support frame 10 and the cantilever bracket 20 positioned at the upper end of the support frame 10, and the wire hanging part 40 is arranged on the cantilever bracket 20, so that wires of the probe can be hung on the cantilever bracket 20 along the routing of the support frame 10, and a plurality of wires can be neatly and orderly placed on the cable management device for the probe; in addition, the cantilever bracket 20 is rotatably mounted at the upper end of the support frame 10, so that the cantilever bracket 20 at the upper end of the support frame 10 can swing horizontally, and the wire 60 suspended on the cantilever bracket 20 can swing along with the cantilever bracket, thereby facilitating the use of a doctor.

In one embodiment, a probe cable management apparatus is provided that increases the flexibility and range of motion of boom housing 20 over the embodiments described above.

As shown in fig. 1 and 2, in one embodiment, the boom housing 20 includes a first boom housing 21 and a second boom housing 22, one end of the first boom housing 21 is rotatably mounted on the upper end of the supporting frame 10, for example, rotatably mounted on the upper end of the supporting frame 10 by a pin 30, one end of the second boom housing 22 is rotatably mounted on the end of the first boom housing 21 away from the supporting frame 10, for example, mounted on the end of the first boom housing 21 away from the supporting frame 10 by a pin 30, so that the first boom housing 21 can swing with respect to the supporting frame 10, the second boom housing 22 can swing with respect to the first boom housing 21, and the second boom housing 22 has a greater flexibility.

In one embodiment, boom housing 20 includes a first boom housing 21 and a second boom housing 22, with one end of the first boom housing 21 rotatably mounted to the upper end of support frame 10, for example, rotatably mounted to the upper end of support frame 10 by a pin 30. One end of the second suspension arm 22 is movably mounted on one end (not shown) of the first suspension arm 21 away from the supporting frame 10, for example, the end is movably connected to one end of the first suspension arm 21 away from the supporting frame 10 through a sliding component, where the sliding component may be a combination of a guide rail and a slider, and the sliding of the slider on the guide rail realizes the movement between the first suspension arm and the second suspension arm, and the specific arrangement manner of the slider and the guide rail is not limited. Of course, the sliding component may be other components, and is not limited herein.

At least one of the first cantilever bracket 21 and the second cantilever bracket 22 is provided with a plurality of wire hanging parts 40, a wire 60 extending from the support frame 10 is hung on the first cantilever bracket 21 and the second cantilever bracket 22 simultaneously, or is hung on the first cantilever bracket 21, and the wire 60 extending and hung on the second cantilever bracket 22 can swing to a larger range for use.

In the cable management device for a probe according to the present embodiment, the cantilever frame 20 includes a first cantilever frame 21 and a rotatable second cantilever frame 22 mounted on the first cantilever frame 21, and the single cantilever frame 20 is divided into two swing arms to form a structure similar to a mechanical arm, so that the device has greater flexibility, and the wire 60 has a wider traction movement area, thereby being more convenient for a doctor to use.

In one embodiment, a probe cable management apparatus is provided that adds the folding function of boom housing 20 to the embodiments described above.

In one embodiment, the end of the second boom housing 22 is rotatably mounted below the end of the first boom housing 21 by a pin 30. So that the second boom housing 22 is entirely located below the first boom housing 21; when not in use, the second cantilever bracket 22 can be folded to be below the first cantilever bracket 21 in a rotating way; when in use, the second cantilever frame 22 is rotated to be unfolded to be butted with the first cantilever frame 21 to form a straight rod or to be unfolded at a preset angle. As shown in fig. 3, the second boom housing 22 is folded and stored below the first boom housing 21.

In other embodiments, the end of the second cantilever frame 22 is installed above the end of the first cantilever frame 21, the second cantilever frame 22 is entirely located above the first cantilever frame 21, and the second cantilever frame 22 is also arranged in a staggered manner on the first cantilever frame 21, so that the second cantilever frame 22 can be rotated, folded, stored and unfolded for use.

In other embodiments, the first cantilever frame 21 and the second cantilever frame 22 are installed on the same horizontal plane and connected by a hinge with two installation pieces, so that the second cantilever frame 22 can be also rotated and folded to be parallel to and stored together with the first cantilever frame 21, and the second cantilever frame 22 can also be rotated and unfolded to be butted with the first cantilever frame 21 to form a straight rod or unfolded at a preset angle.

According to the probe cable management device provided by the embodiment, the first cantilever frame 21 and the second cantilever frame 22 are arranged in a vertically staggered manner, so that the second cantilever frame 22 can be folded and stored below the first cantilever frame 21, and when the probe cable management device is not used, the placement space can be saved.

In one embodiment, a probe cable management device is provided, which is added with the lifting function of the support frame 10 on the basis of any one of the above embodiments.

As shown in fig. 1 and 2, the support frame 10 includes a first support frame 11 and a second support frame 12, and the second support frame 12 is installed on the first support frame 11 in a liftable manner by a lifting member 70.

Specifically, the lower end of the first support frame 11 and the upper end of the second support frame 12 are both provided with mounting portions bent to be horizontal. The lifting component 70 comprises a lifting guide rail and a lifting slide block which is slidably installed on the lifting guide rail, damping setting is arranged between the lifting slide block and the lifting guide rail, the lifting slide block can slide under the drive of certain external force, so that the lifting component 70 has the functions of lifting and supporting, the lifting guide rail is installed on the first support frame 11, the second support frame 12 is installed on the lifting slide block, the second support frame 12 is installed on the first support frame 11 through the lifting component 70 in a liftable mode, and the second support frame 12 can move up and down along the lifting guide rail. Or, the lifting guide rail may also be installed on the second support frame 12, and the first support frame 11 is connected with the lifting slide block.

In other embodiments, a dovetail slide block is disposed on a side surface of the first support frame 11, a dovetail slide groove is disposed on a side surface of the second support frame 12, the dovetail slide groove of the second support frame 12 is slidably sleeved in the dovetail slide block of the first support frame 11, and the dovetail structure is configured to enable the second support frame 12 to slide up and down relative to the first support frame 11.

In other embodiments, the first support bracket 11 may be provided with a dovetail slide slot and the second support bracket 12 may be provided with a dovetail slide. Or, the first support frame 11 or the second support frame 12 is provided with a bent side plate, the side plate forms a sliding groove, the second support frame 12 or the first support frame 11 is inserted into the sliding groove, and the second support frame 12 can be installed on the first support frame 11 in a lifting manner.

In one embodiment, the support frame 10 includes a first support frame 11 and a second support frame 12, and the second support frame 12 is rotatably mounted on the first support frame 11. For example, one end of the second support frame 12 is rotatably connected to one end of the first support frame 11 by a pin, so that the first support frame and the second support frame can rotate or lift.

At least one of the first support frame 11 and the second support frame 12 is provided with a threading part, which may be a suspension loop or the like, and is not particularly limited herein.

The probe cable management device that this embodiment provided has increased raising and lowering functions on probe cable management device has the rotation and the basis of folding function of accomodating, further improvement probe cable management device's flexibility ratio, enlarged the pull range of wire rod 60 for the doctor can be at the nimble inspection of bigger within range.

In other embodiments, the lifting function can be added on the basis of one or combination of several functions of single-arm rotation, double-arm rotation and folding storage.

The present application has been described with reference to specific examples, which are provided only to aid understanding of the present application and are not intended to limit the present application. Variations of the above-described embodiments may occur to those of ordinary skill in the art in light of the teachings of this application.

Claims (24)

1. An ultrasound imaging system, comprising:

the system comprises an ultrasonic host, an ultrasonic probe, a display and a probe cable management device, wherein the ultrasonic host, the ultrasonic probe and the display are in communication connection;

the ultrasonic probe transmits ultrasonic waves to a tested object and receives ultrasonic echoes returned from the tested object;

the ultrasonic host receives the ultrasonic echo from the ultrasonic probe and carries out ultrasonic imaging according to the ultrasonic echo so as to obtain an ultrasonic image of the tested object;

displaying the ultrasound image on the display;

the probe cable management device comprises a support frame and a cantilever frame;

the cantilever frame is rotatably arranged at the upper end of the supporting frame, and a wire hanging part is arranged on the cantilever frame.

2. The ultrasound imaging system of claim 1, wherein a threading member is provided on the support frame, the threading member for assisting in routing a wire along the support frame.

3. The ultrasonic imaging system of claim 1, wherein at least one of the support frame and the cantilever frame has a plurality of cups mounted thereon for receiving the probe end of the probe.

4. The ultrasonic imaging system of any of claims 1 to 3, wherein the boom housing comprises a first boom housing and a second boom housing, one end of the first boom housing being rotatably mounted at an upper end of the support frame, one end of the second boom housing being rotatably mounted at an end of the first boom housing remote from the support frame; at least one of the first cantilever bracket and the second cantilever bracket is provided with a threading part.

5. The ultrasonic imaging system of any one of claims 1 to 3, wherein the boom housing comprises a first boom housing and a second boom housing, one end of the first boom housing being rotatably mounted at an upper end of the support frame, one end of the second boom housing being movably mounted at an end of the first boom housing remote from the support frame; at least one of the first cantilever bracket and the second cantilever bracket is provided with a threading part.

6. The ultrasonic imaging system of any one of claims 1 to 5, wherein the support frame comprises a first support frame and a second support frame, the second support frame is liftably mounted on the first support frame, the boom housing is mounted at an upper end of the second support frame, and at least one of the first support frame and the second support frame is provided with a threading member.

7. The ultrasonic imaging system of any one of claims 1 to 5, wherein the support frame comprises a first support frame and a second support frame, the second support frame being rotatably mounted on the first support frame, the cantilever mount being mounted at an upper end of the second support frame; at least one of the first support frame and the second support frame is provided with a threading part.

8. A probe cable management device, comprising:

a support frame;

the wire hanging device comprises a support frame, a cantilever frame, a wire hanging component and a wire connecting component, wherein the cantilever frame is rotatably arranged at the upper end of the support frame, and the wire hanging component is arranged on the cantilever frame.

9. The probe cable management apparatus of claim 8, wherein the wire hanging member is a hook or a loop, and the wire hanging member has a plurality of wire hanging members mounted on the cantilever mount in a spaced apart relationship.

10. The probe cable management device of claim 8, wherein a threading member is provided on the support frame, the threading member for assisting in routing wires along the support frame.

11. The probe cable management device of claim 8 wherein said threading member is a loop, said threading member having a plurality of spaced apart mounting members mounted to said support frame.

12. The probe cable management apparatus of claim 8 wherein at least one of the support frame and the cantilever frame has a plurality of cups mounted thereon for receiving probe ends of the probes.

13. The probe cable management device of claim 12 wherein the bottom of the sleeve has threading holes and the side of the sleeve has openings.

14. The probe cable management device of claim 8 wherein the upper and lower ends of the support frame are each provided with a horizontally bent mounting portion.

15. The probe cable management apparatus of any of claims 8 to 14, wherein the boom housing comprises a first boom housing and a second boom housing, one end of the first boom housing being rotatably mounted at an upper end of the support frame, one end of the second boom housing being rotatably mounted at an end of the first boom housing remote from the support frame; at least one of the first cantilever bracket and the second cantilever bracket is provided with a threading part.

16. The probe cable management apparatus of any of claims 8 to 14, wherein the boom housing comprises a first boom housing and a second boom housing, one end of the first boom housing being rotatably mounted at an upper end of the support frame, one end of the second boom housing being movably mounted at an end of the first boom housing remote from the support frame; at least one of the first cantilever bracket and the second cantilever bracket is provided with a threading part.

17. The probe cable management apparatus of claim 15, wherein the first boom is rotatably coupled at each end to the support frame and the second boom by a pin.

18. The probe cable management apparatus of claim 16, wherein an end of the first boom is rotatably coupled to the support frame via a pin and an end of the second boom is movably coupled to an end of the first boom distal from the support frame via a slide.

19. The probe cable management apparatus of claim 15, wherein an end of the second boom is rotatably mounted above or below an end of the first boom.

20. The probe cable management apparatus of any one of claims 8 to 14, wherein the support frame comprises a first support frame and a second support frame, the second support frame being elevatably mounted on the first support frame, the cantilever mount being mounted at an upper end of the second support frame, at least one of the first support frame and the second support frame being provided with a threading member.

21. The probe cable management apparatus of claim 20 wherein a lift assembly is disposed between the first support frame and the second support frame, the lift assembly including a lift rail and a lift block slidably mounted on the lift rail, the lift rail being mounted on the first support frame, the second support frame being mounted on the lift block.

22. The probe cable management device of claim 20, wherein the first support frame has a dovetail slide, the second support frame has a dovetail slide, and the dovetail slide of the second support frame slidably fits over the dovetail slide of the first support frame.

23. The probe cable management apparatus of any one of claims 8 to 14, wherein the support bracket comprises a first support bracket and a second support bracket, the second support bracket being rotatably mounted on the first support bracket, the cantilever bracket being mounted at an upper end of the second support bracket; at least one of the first support frame and the second support frame is provided with a threading part.

24. The probe cable management device of claim 23, wherein one end of the second support bracket is rotatably connected to one end of the first support bracket by a pin.

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