CN103353049B - Clamping structure of ultrasonic scanning probe and probe clamping method using same - Google Patents

Abstract

The invention relates to a clamping structure of an ultrasonic scanning probe and a probe clamping method using the same, wherein the clamping structure comprises: the fixed clamping block is connected with a movable clamping block through a first pivot, and the movable clamping block can swing relative to the fixed clamping block by taking the first pivot as an axis; the other end of the fixed clamping block relative to the first pivot is connected with the movable clamping block through a connecting piece; a first groove is formed between the first pivot and the connecting piece on the fixed clamping block, a second groove corresponding to the first groove is formed in the movable clamping block, the shape formed by the first groove and the second groove in a surrounding mode is matched with the outer diameter of the sleeve and used for being clamped into the sleeve, and the sleeve is used for being sleeved with the probe. According to the clamping structure of the ultrasonic scanning probe and the probe clamping method using the same, the fixed clamping block, the movable clamping block capable of swinging relative to the fixed clamping block, the first groove and the second groove are arranged, so that a sleeve sleeved with the probe can be clamped and fixed conveniently, an operator can replace the probe conveniently, and damage to the probe is reduced.

Description

The clamping structure of ultrasound probe and apply its probe clip clamping method

Technical field

The invention belongs to field tests, the clamping structure relating to a kind of ultrasound probe and the probe clip clamping method applying it.

Background technology

In prior art, many based on monoblock type fixture block to the clamping structure of the ultrasound probe of ultrasound probe, monoblock type fixture block is provided with the external diameter with ultrasound probe or the inner chamber corresponding with the sleeve of ultrasound probe socket.Owing to the model of ultrasound probe is different, such as probe outside dimension has φ 18.8mm, the sizes such as φ 35mm, the fixed form generally for the probe of above-mentioned outside dimension is for large-sized probe, directly will pop one's head in from the upper end of monoblock type fixture block down through monoblock type fixture block inner chamber；Fix usually for small size probe, probe put in probe sleeve, then by probe sleeve from the upper end of monoblock type fixture block down through monoblock type fixture block inner chamber.This picking and placeing inconvenience by what probe penetrated the fixed form of monoblock type fixture block causes probe from the top down, easily damage probe in fetching process, the Effect on Detecting of impact probe, also probe is replaced by inconvenience.

Summary of the invention

The clamping structure that it is an object of the invention to provide a kind of ultrasound probe and the probe clip clamping method applying it, it is simple to probe fixing and probe is carried out loading or unloading operation, and convenient probe ground is replaced.

For solving foregoing invention purpose, the invention provides the clamping structure of a kind of ultrasound probe, including clamp block, described clamp block pivotally connected has fixture block by first, and described dynamic fixture block can swing relative to described clamp block with described first pivot for axle；

Described clamp block is connected with described dynamic fixture block by connector relative to the other end of described first pivot；

It is provided with the first groove between described first pivot and described connector on described clamp block, second groove corresponding with described first groove it is provided with on described dynamic fixture block, the shape that described first groove and described second groove are surrounded matches with the external diameter of sleeve, for snapping in described sleeve, described sleeve is for being socketed with probe.

Preferred as technique scheme, described connector and described clamp block are pivotally connected by second, described connector can swing relative to described clamp block with described second pivot for axle, on described dynamic fixture block, the opposite end of described first pivot is provided with the 3rd groove matched with described connector external diameter, and described 3rd groove is used for snapping in described connector.

Preferred as technique scheme, described connector is shaft-like, described shaft-like the opposite end of described second pivot is provided with block.

Preferred as technique scheme, described block is adjustable along the position, body of rod direction of described connector.

Preferred as technique scheme, described block is handle.

Preferred as technique scheme, the clamping structure of described ultrasound probe also includes: pedestal, and described clamp block is arranged on described pedestal.

Present invention also offers the probe clip clamping method of a kind of clamping structure applying ultrasound probe described above, including:

Step 11: probe is socketed with sleeve；

Step 12: described sleeve is positioned over the first groove of clamp block；

Step 13: swing dynamic fixture block, be close to described sleeve；

Step 14: utilize connector described clamp block and described dynamic fixture block to be connected.

Present invention also offers the clamping structure of a kind of ultrasound probe, including clamp block, described clamp block pivotally connected has fixture block by first, and described dynamic fixture block can swing relative to described clamp block with described first pivot for axle；

Described clamp block is connected with described dynamic fixture block by connector relative to the other end of described first pivot；

It is provided with the first groove between described first pivot and described connector on described clamp block, second groove corresponding with described first groove it is provided with on described dynamic fixture block, the shape that described first groove and described second groove are surrounded matches with the external diameter of the held end of probe, for snapping in the held end of described probe.

Present invention also offers the probe clip clamping method of a kind of clamping structure applying ultrasound probe described above, including:

Step 21: the held end of probe is positioned over the first groove of clamp block；

Step 22: swing dynamic fixture block, be close to the held end of described probe；

Step 23: utilize connector described clamp block and described dynamic fixture block to be connected.

Effect of the invention is that:

The clamping structure of ultrasound probe that the present invention provides and apply its probe clip clamping method, by arranging clamp block and the dynamic fixture block that can swing relative to it, and the first groove and the second groove are set, it is easy to the gripping of sleeve with probe socket, facilitate operator's replacing to probe, and decrease the damage to probe.

Accompanying drawing explanation

By the description carried out its exemplary embodiment below in conjunction with the accompanying drawings, features described above of the present invention and advantage will become apparent with easy to understand.

The structural representation of the clamping structure of a kind of ultrasound probe that Fig. 1 provides for the embodiment of the present invention one；

Fig. 2 is probe and the structural representation of sleeve combination；

Fig. 3 is the position relationship in Fig. 1 between probe and tube-in-tube structure and the clamping structure of ultrasound probe；

Fig. 4 is the view in Fig. 1 after dynamic fixture block Guan Bi；

Fig. 5 is the structural representation that probe sleeve combination sandwiches in Fig. 1 after the clamping structure of ultrasound probe；

Fig. 6 has the structural representation of the clamping structure of the ultrasound probe of pedestal for the connection that the embodiment of the present invention one provides；

The schematic flow sheet of the clamping means of the ultrasound probe that Fig. 7 provides for the embodiment of the present invention two；

Fig. 8 has the structural representation of the clamping structure of the ultrasound probe of pedestal for the connection that the embodiment of the present invention three provides；

The schematic flow sheet of the clamping means of the ultrasound probe that Fig. 9 provides for the embodiment of the present invention four；

Wherein, 1-clamp block；11-the first pivot；12-the first groove；13-the second pivot；2-moves fixture block；21-the second groove；22-the 3rd groove；3-connector；31-block；The little probe of 4-；5-sleeve；6-pedestal；The big probe of 7-.

Detailed description of the invention

Below in conjunction with the accompanying drawings the present invention is described in further detail.

Embodiment one

The structural representation of the clamping structure of a kind of ultrasound probe that Fig. 1 provides for the embodiment of the present invention one；Fig. 2 is probe and the structural representation of sleeve combination；Fig. 3 is the position relationship in Fig. 1 between probe and tube-in-tube structure and the clamping structure of ultrasound probe；Fig. 4 is the view in Fig. 1 after dynamic fixture block Guan Bi；Fig. 5 is the structural representation that probe sleeve combination sandwiches in Fig. 1 after the clamping structure of ultrasound probe；In conjunction with Fig. 1 to shown in 5, the clamping structure of a kind of ultrasound probe that the present embodiment provides, including: clamp block 1, clamp block 1 is connected by the first pivot 11 fixture block 2, and dynamic fixture block 2 can swing relative to clamp block 1 with the first pivot 11 for axle.By arranging clamp block 1 and can its dynamic fixture block 2 swung relatively, it is possible to achieve the dynamic fixture block 2 of operation realizes the clamping to the sleeve 5 being socketed with little probe 4.Selecting method of clamping to fix sleeve 5, it is more convenient to operate, and cannot be easily caused the damage to probe.Probe in the present embodiment is as a example by reflective probe, and other pop one's head in the most applicable accordingly.Probe in the present embodiment is little probe, generally use this ultrasonic scanning time, need to this kind little probe sheath female connector cylinder, such as outside dimension is the probe of φ 18.8mm, need to be socketed with sleeve.

Clamp block 1 is connected with dynamic fixture block 2 by connector 3 relative to the other end of the first pivot 11.This concrete connector can be bolt, can be buckle structure, as long as the structure that clamp block 1 realizes being connected with dynamic fixture block 2 can be all applicable to the embodiment of the present invention.

The first groove 12 it is provided with between first pivot 11 and connector 3 on clamp block 1, it is provided with second groove 21 corresponding with the first groove 12 on dynamic fixture block 2, the shape that first groove 12 and the second groove 21 are surrounded matches with the external diameter of sleeve 5, for snapping in sleeve 5, sleeve 5 is for being socketed with little probe 4.Outside diameter structure with the sleeve 5 of little probe 4 socket is column type under normal circumstances, so accordingly, the cross sectional shape that in the present embodiment, the first groove 12 and the second groove 21 are formed is circular, it is achieved the clamping to sleeve 5.If sleeve 5 is polygonal prism for cross section, then the cross sectional shape that the first groove 12 is formed with the second groove 21 is corresponding polygon.

Can be by such as threadeding between the medium and small probe of prior art 4 and sleeve 5, when installing fixing little probe 4, first screwing in matched sleeve 5 by little probe 4, the hole axle between sleeve 5 with little probe 4 is connected, and little probe 4 can move axially relative to sleeve 5, radial rotating.Certainly, socket can also be realized by corresponding notch between this little probe 4 and sleeve 5, such as corresponding groove is set on sleeve diameter, and the key of projection is set on the external diameter of little probe 4, as long as the structure being applicable to socket is all adaptable to the present embodiment, do not repeat them here.The most again sleeve 5 is sandwiched in the first groove 12 between clamp block 1 and dynamic fixture block 2 and the second groove 21, fix clamp block 1 and dynamic fixture block 2 by connector 3, thus realize the clamping to sleeve 5, be also achieved that fixing little probe 4.

The clamping structure of the ultrasound probe that the present embodiment provides, by arranging clamp block and the dynamic fixture block that can swing relative to it, and the first groove and the second groove are set, it is simple to the gripping of sleeve with probe socket, facilitate operator's replacing to probe, and decrease the damage to probe.

Preferred as technique scheme, connector 3 is connected by the second pivot 13 with clamp block 1, connector 3 can swing relative to clamp block 1 with the second pivot 13 for axle, on dynamic fixture block 2, the opposite end of the first pivot 11 is provided with the 3rd groove 22 matched with connector 3 external diameter, and the 3rd groove 22 is for snap-fit connection members 3.The connector 3 selecting oscillating-type can convenient operate compared to connectors such as bolts.When dynamic fixture block 2 is fixed by needs, first dynamic fixture block 2 is swung to the position corresponding with clamp block 1, in closure state between i.e. first groove 12 and the second groove 21, then connector 3 is swung, make it snap in the 3rd groove being positioned on dynamic fixture block 2, due to the existence of block 31, make fixture block 2 to be subjected to displacement again, thus realize fixing dynamic fixture block 2, namely gripping the sleeve 5 in clamp block 1 and dynamic fixture block 2.As it is shown on figure 3, show in Fig. 3 is the end-state gripping sleeve 5.

Preferred as technique scheme, connector 3 is shaft-like, shaft-like the opposite end of the second pivot 13 is provided with block 31.Shown in Fig. 1 and Fig. 3, this rod shape connector 3 is by swinging relative to clamp block 1 using the second pivot 13 as axle, can just embed the 3rd groove 22 that the dynamic relative position of fixture block 2 is arranged, again owing to there is block 31, make fixture block 2 well and clamp block 1 is fixed together thus is clamped fixing to the sleeve 5 between the first groove 11 and the second groove 21.Preferably this connector can be elastic rod member, such as spring, elastic strip etc..During accordingly even when the diameter of sleeve 5 changes, such as big relative to the space between intrinsic first groove 11 and the second groove 21, due to the elasticity of connector 3, sleeve 5 can be clamped.

Preferred as technique scheme, block 31 is adjustable along the position, body of rod direction of connector 3.Such as be threaded connection between block 31 and the body of rod of connector, or slide fastener connects, then block 31 can be adjustable relative to the position, body of rod direction of connector 3.So can be so that little probe 4 be different due to model, its external diameter size changes, thus when the outside dimension of the sleeve 5 being socketed with it also changes, by regulation block 31 relative to the position of the body of rod of connector 3, adapts to the little probe 4 of different model.

Preferred as technique scheme, block 31 is handle.Select handle as block, both effectively dynamic fixture block 2 can be fixed, and be allowed to swing, thus fixing sleeve 5；Meanwhile, handle meets human engineering, facilitates operator to grasp, and improves operability when fixing probe and sleeve thereof.

Fig. 6 has the structural representation of the clamping structure clamping probe of the ultrasound probe of pedestal for the connection that the embodiment of the present invention one provides；Shown in Fig. 6, preferred as technique scheme, little probe 4 clamping structure also includes: pedestal 6, and clamp block 1 is arranged on pedestal 6.Can be fixedly connected by the such as attachment structure such as screw, rivet between clamp block 1 and pedestal 6.

Embodiment two

The schematic flow sheet of the clamping means of the ultrasound probe that Fig. 7 provides for the embodiment of the present invention two, as it is shown in fig. 7, present invention also offers the probe clip clamping method of a kind of clamping structure applying ultrasound probe described above, including:

Step 11: probe is socketed with sleeve；

Step 12: sleeve is positioned over the first groove of clamp block；

Step 13: swing dynamic fixture block, be close to sleeve；

Step 14: utilize connector clamp block and dynamic fixture block to be connected.

Concrete operating procedure may refer to Fig. 3-Fig. 5, and above-described embodiment, and here is omitted.

Embodiment three

The embodiment of the present invention three provides the clamping structure of a kind of ultrasound probe, Fig. 8 has the structural representation of the clamping structure of the ultrasound probe of pedestal for the connection that the embodiment of the present invention three provides, shown in Fig. 8, including: clamp block 1, clamp block 1 pivotally connected has fixture block 2 by first, and dynamic fixture block 2 can swing relative to clamp block 1 with the first pivot for axle；Clamp block 1 is connected with dynamic fixture block 2 by connector 3 relative to the other end of the first pivot；The first groove it is provided with between first pivot and connector 3 on clamp block 1, it is provided with second groove corresponding with the first groove on dynamic fixture block 2, the shape that first groove and the second groove are surrounded matches with the external diameter of the held end of big probe 7, for snapping in the held end of big probe 7.

In the use of actual big probe 7, owing to the external diameter after external diameter and the little probe sheath female connector cylinder of big probe itself is similar, so the clamping structure of the ultrasound probe that can directly be provided by the present embodiment when probe is for big probe is fixed, it is not necessary to through the socket of sleeve.The clamping structure of the ultrasound probe that concrete the present embodiment provides is identical with embodiment one to the clamping of big probe 7, can be found in the description to this clamping process in embodiment one, does not repeats them here.

Embodiment four

The schematic flow sheet of the clamping means of the ultrasound probe that Fig. 9 provides for the embodiment of the present invention four, shown in Fig. 9, yet another embodiment of the invention additionally provides the probe clip clamping method of a kind of clamping structure applying above-mentioned ultrasound probe, including:

Step 21: the held end of probe is positioned over the first groove of clamp block；

Step 22: swing dynamic fixture block, be close to the held end of probe；

Step 23: utilize connector clamp block and dynamic fixture block to be connected.

Concrete implementation process, the present embodiment is identical with the clamping means of ultrasonic scanning probe in embodiment two to the clamping process of big probe, may refer to the description of embodiment two, does not repeats them here.

Above-described embodiment not detailed description of the invention exhaustive; also can there is other embodiment; above-described embodiment is intended to indicate that the present invention, rather than limits the scope of the invention, and all application come by simple change of the present invention all fall within protection scope of the present invention.

This patent specification uses example to go to show the present invention, including optimal mode, and makes those of ordinary skill in the art manufacture and uses the present invention.This invents detailed description of the invention and the content of other embodiments that delegatable scope includes in the content of claims and description.These other examples also should belong to the scope of claims of the present invention, as long as they contain the technical characteristic described by the identical written language of claim, or they include with claim without the technical characteristic described by the similar literal language of essence difference.

The full content of all patents, patent application and other list of references should be incorporated by reference into present specification.But if a term in the application conflicts mutually with the term including list of references in, the term with the application is preferential.

All scopes disclosed herein all include between end points, and end points it being to combine independently of one another.

It should be noted that " first ", " second " or similar vocabulary are not offered as any order, quality or importance, are used only to distinguish different technical characteristics.The implication that the qualifier " about " that combined amount uses comprises described value and content context is specified.(such as: it includes error when measuring specific quantity)

What diameter or the little probe of probe of what model, what is big probe, is preferably illustrated, only not to be perfectly clear for size.

Claims (7)

1. the clamping structure of a ultrasound probe, it is characterised in that including: clamp block, described clamp block pivotally connected has fixture block by first, and described dynamic fixture block can swing relative to described clamp block with described first pivot for axle；

Described clamp block is connected with described dynamic fixture block by connector relative to the other end of described first pivot；

It is provided with the first groove between described first pivot and described connector on described clamp block, second groove corresponding with described first groove it is provided with on described dynamic fixture block, the shape that described first groove and described second groove are surrounded matches with the external diameter of sleeve, for snapping in described sleeve, described sleeve is for being socketed with probe；

The clamping structure of described ultrasound probe also includes: pedestal, and described clamp block is arranged on described pedestal；

Described connector and described clamp block are pivotally connected by second, described connector can swing relative to described clamp block with described second pivot for axle, on described dynamic fixture block, the opposite end of described first pivot is provided with the 3rd groove matched with described connector external diameter, and described 3rd groove is used for snapping in described connector.

The clamping structure of ultrasound probe the most according to claim 1, it is characterised in that described connector is shaft-like, described shaft-like is provided with block relative to the opposite end of described second pivot.

The clamping structure of ultrasound probe the most according to claim 2, it is characterised in that described block is adjustable along the position, body of rod direction of described connector.

The clamping structure of ultrasound probe the most according to claim 2, it is characterised in that described block is handle.

5. the probe clip clamping method of the clamping structure applying ultrasound probe according to any one of Claims 1-4, it is characterised in that including:

Step 11: probe is socketed with sleeve；

Step 12: described sleeve is positioned over the first groove of clamp block；

Step 13: swing dynamic fixture block, be close to described sleeve；

Step 14: utilize connector described clamp block and described dynamic fixture block to be connected.

6. the clamping structure of a ultrasound probe, it is characterised in that including: clamp block, described clamp block pivotally connected has fixture block by first, and described dynamic fixture block can swing relative to described clamp block with described first pivot for axle；

Described clamp block is connected with described dynamic fixture block by connector relative to the other end of described first pivot；

It is provided with the first groove between described first pivot and described connector on described clamp block, second groove corresponding with described first groove it is provided with on described dynamic fixture block, the shape that described first groove and described second groove are surrounded matches with the external diameter of the held end of probe, for snapping in the held end of described probe.

7. the probe clip clamping method of the clamping structure applying ultrasound probe described in claim 6, it is characterised in that including:

Step 21: the held end of probe is positioned over the first groove of clamp block；

Step 22: swing dynamic fixture block, be close to the held end of described probe；

Step 23: utilize connector described clamp block and described dynamic fixture block to be connected.