CN103353048B - Transmission-type probe clamping structure and separated double-transmission-type probe clamping structure - Google Patents

Abstract

The invention relates to a transmission type probe clamping structure and a separated double-transmission type probe clamping structure, comprising: the transmission type transmitting probe clamping unit and the transmission type receiving probe clamping unit are fixed on the base; the transmission type emission probe clamping unit comprises a sliding table connected with the base; a movable sliding plate which can slide relative to the sliding table is connected to the sliding table, and a clamping mechanism for clamping the transmission type emission probe is arranged at one end of the movable sliding plate along the sliding direction of the movable sliding plate; the transmission type receiving probe clamping unit is positioned on the other side of the base; the transmission type receiving probe clamping unit comprises an upper sleeve in the same sliding direction as the movable sliding plate and a lower sleeve sleeved with the upper sleeve, and the other end of the lower sleeve is connected with a sealing mechanism used for loading the transmission type receiving probe. The mechanism increases the adjustment of aligning the transmission type transmitting and receiving probes by adding the movable sliding plate and the two-stage sleeve structure, and simultaneously loads the transmission type receiving probes by using the sealing mechanism, thereby reducing the corrosion of a medium to the transmission type receiving probes.

Description

Transmission-type probe clip locking structure and separate type double transmission formula probe clip locking structure

Technical field

The invention belongs to field tests, relate to a kind of transmission-type probe clip locking structure and the probe clamping of separate type double transmission formula Structure.

Background technology

In prior art, the probe clip locking structure to transmission-type probe is simple clamping device, and such as, transmission-type is launched Pop one's head in after being fixed by clamping device, transmission-type receiving transducer is fixed also by simple clamping device, and transmission-type receives Probe is only capable of carrying out angle and axial bidimensional adjusts, thus the most right to transmission-type transmitting probe and transmission-type receiving transducer Accurate adjustment is restricted, and even cannot complete transmission-type transmitting probe and the alignment of transmission-type receiving transducer.

During further, since transmission-type receiving transducer is in the duty of measurement, it usually needs be positioned in coupling media, and Common coupling media is deionized water, and such transmission-type receiving transducer is substantially exposed in water, and anticorrosion, rustless property are poor, by In corrosion corrosion etc., transmission-type receiving transducer is caused damage, affect measurement effect.

For this reason, it may be necessary to provide a kind of transmission-type probe clip locking structure, it is simple to launch transmission-type, receiving transducer is directed at Adjust, reduce the medium corrosion to transmission-type receiving transducer simultaneously.

Summary of the invention

It is an object of the invention to provide a kind of transmission-type probe clip locking structure and separate type double transmission formula probe clip locking structure, It is easy to transmission-type transmitting, receiving transducer are carried out alignment and adjusted, reduces the medium corrosion to transmission-type receiving transducer simultaneously.

For solving foregoing invention purpose, the invention provides a kind of transmission-type probe clip locking structure, including: pedestal and fixing Transmission-type transmitting probe grip unit thereon and transmission-type receiving transducer grip unit；

Described transmission-type transmitting probe grip unit includes the slide unit being connected with described pedestal；Connect on described slide unit that have can With the dynamic slide plate slided relative to slide unit, one end that described dynamic slide plate slides along direction is provided with clamping device, described clamping Mechanism is used for clamping transmission-type transmitting probe；

Described transmission-type receiving transducer grip unit is positioned on pedestal relative to described transmission-type transmitting probe grip unit Position corresponding to opposite side；Described transmission-type receiving transducer grip unit includes that the slidably direction with described dynamic slide plate is phase Equidirectional upper bush, and the lower sleeve being socketed with described upper bush, the other end of described lower sleeve connects to have traps with described The sealing mechanism that cylinder is vertical, described sealing mechanism is used for loading transmission-type receiving transducer, and described sealing mechanism is used for loading transmission The position of one end of formula receiving transducer and described clamping device one end for clamping transmission-type transmitting probe is corresponding.

Preferred as technique scheme, described sealing mechanism include for be socketed on described transmission-type receiving transducer it Outer lock sleeve, the other end of described lock sleeve is socketed with flat axle, and the external diameter of described lock sleeve is cone structure, described flat axle Internal diameter is the inner cone structure matched with described lock sleeve, ties for hole axle between the other end and the described lower sleeve of described flat axle Structure connects.

Preferred as technique scheme, described lock sleeve is for being socketed in the middle part of the position of described transmission-type receiving transducer Being provided with radially grooving, be connected with the middle part of described radial direction grooving is axial grooving, and described axial grooving penetrates into described The edge of lock sleeve.

Preferred as technique scheme, described lock sleeve also sets up for the end being socketed described transmission-type receiving transducer There is locking nut.

Preferred as technique scheme, the end that described lock sleeve is connected with described transmission-type receiving transducer is provided with close Seal, the end that described lock sleeve is connected with described flat axle is provided with sealing ring.

Preferred as technique scheme, the socket between described upper bush and lower sleeve is by arranging on lower sleeve Groove structure and the lock-screw being arranged on upper bush matched with described groove structure position.

Preferred as technique scheme, described transmission-type probe clip locking structure also includes: straight-through quick connector, two Described straight-through quick connector is connected respectively to one end that described flat axle is connected with described lower sleeve, and is used for stretching on described pedestal Enter the hole of transmission-type receiving transducer holding wire；By hose connection between two described straight-through quick connectors, described flexible pipe is used for Parcel transmission-type receiving transducer holding wire.

Preferred as technique scheme, described clamping device includes clamp block, and described clamp block passes through the first pivot Connecting and have fixture block, 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 on described clamp block between described first pivot and described connector, described dynamic fixture block sets It is equipped with shape and institute that second groove corresponding with described first groove, described first groove and described second groove are surrounded The external diameter stating transmission-type transmitting probe matches, and is used for snapping in described transmission-type transmitting probe.

Present invention also offers a kind of separate type double transmission formula probe clip locking structure, including: pedestal and be fixed thereon Two transmission-type transmitting probe grip unit and two transmission-type receiving transducer grip unit；

Two described transmission-type transmitting probe grip unit, for be arrangeding in parallel, include the cunning being connected with described pedestal respectively Platform；Being also associated with the dynamic slide plate that can slide relative to slide unit on described slide unit, described dynamic slide plate slides along the one end in direction Being provided with clamping device, described clamping device is used for clamping transmission-type transmitting probe；

Two described transmission-type receiving transducer grip unit, for be arrangeding in parallel, are positioned on pedestal relative to two described transmissions The position that the opposite side of formula transmitting probe grip unit is corresponding；Described transmission-type receiving transducer grip unit includes and described dynamic cunning The slidably direction of plate is the upper bush of equidirectional, and the lower sleeve being socketed with described upper bush, another of described lower sleeve End connects has the sealing mechanism vertical with described lower sleeve, described sealing mechanism to be used for loading transmission-type receiving transducer, described close Sealing mechanism is used for the one end loading transmission-type receiving transducer with described clamping device for clamping one end of transmission-type transmitting probe Position corresponding.

Preferred as technique scheme, two described transmission-type receiving transducer grip unit by cap ned with described Pedestal connects, and described pedestal is connected with the I shape top of cap ned, and two described transmission-type receiving transducer grip unit are respectively It is connected with the I shape bottom of cap ned.

Effect of the invention is that:

The transmission-type probe clip locking structure of present invention offer and separate type double transmission formula probe clip locking structure, this mechanism passes through Pedestal and the transmission-type transmitting probe grip unit being fixed thereon and transmission-type receiving transducer grip unit are set；By increasing Dynamic slide plate and two-stage tube-in-tube structure, add and transmission-type transmitting, receiving transducer carried out the scope that alignment adjusts, select close simultaneously Transmission-type receiving transducer is loaded by sealing mechanism, reduces the medium corrosion to transmission-type receiving transducer simultaneously.

Accompanying drawing explanation

Will be become by the description below in conjunction with the accompanying drawings its exemplary embodiment carried out, features described above of the present invention and advantage Obtain more clear and easy to understand.

The structural representation of a kind of transmission-type probe clip locking structure that Fig. 1 provides for the embodiment of the present invention one；

Fig. 2 is the structural representation of sealing mechanism in Fig. 1；

Fig. 3 is the structural representation of lock sleeve in Fig. 2；

Fig. 4 is the structural representation that in Fig. 1, upper bush is connected with lower sleeve；

Fig. 5 is the structural representation of clamping device in Fig. 1；

The Facad structure signal of a kind of separate type double transmission formula probe clip locking structure that Fig. 6 provides for the embodiment of the present invention two Figure；

Fig. 7 is the inverse layer structure schematic diagram of separate type double transmission formula probe clip locking structure in Fig. 6；

Wherein, 1-pedestal；2-transmission-type transmitting probe grip unit；21-slide unit；22-moves slide plate；23-clamping device； 231-clamp block；232-moves fixture block；233-connector；3-transmission-type receiving transducer grip unit；31-upper bush；311-locks Screw；312-lock-screw；32-lower sleeve；33-sealing mechanism；331-lock sleeve；3311-radially grooving；3312-axially cuts Groove；3313-Outer Taper；The flat axle of 332-；333-locking nut；334-sealing ring；335-sealing ring；336-leads directly to quick connector Connecting hole；4-transmission-type transmitting probe；5-transmission-type receiving transducer；

6-pedestal；61-transmission-type transmitting probe grip unit；611-slide unit；612-moves slide plate；613-clamping device；62- Transmission-type transmitting probe grip unit moves slide plate；621-slide unit；622-moves slide plate；623-clamping device；63-transmission-type receives to be visited Head grip unit；631-upper bush；632-lower sleeve；633-sealing mechanism；64-transmission-type receiving transducer grip unit；641- Upper bush；642-lower sleeve；643-sealing mechanism；7-cap ned；71-leads directly to quick connector connecting hole；72-installing hole.

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 a kind of transmission-type probe clip locking structure that Fig. 1 provides for the embodiment of the present invention one, in conjunction with Fig. 1 institute Show, the invention provides a kind of transmission-type probe clip locking structure, including: pedestal 1 and be fixed thereon transmission-type transmitting probe folder Hold unit 2 and transmission-type receiving transducer grip unit 3.Concrete pedestal 1 can be a slab construction, and its both sides are respectively used to solid Determine transmission-type transmitting probe grip unit 2 and transmission-type receiving transducer grip unit 3, it is also possible to for side as shown in Figure 1 For the bending sheets of inverted trapezoidal, its top arranges corresponding installing hole, it is simple to carry out this transmission-type probe clip locking structure entirety Fixing, such as it is fixed on a certain measurement basal plane.Transmission-type transmitting probe grip unit 2 and transmission-type receiving transducer grip unit 3 are respectively used to clamp transmission-type transmitting probe 4 and transmission-type receiving transducer 5.

Transmission-type transmitting probe grip unit 2 includes the slide unit 21 being connected with pedestal 1；Connect on slide unit 21 that have can be relative In the dynamic slide plate 22 that slide unit slides, one end that dynamic slide plate 22 slides along direction is provided with clamping device 23, and clamping device 23 is used In clamping transmission-type transmitting probe 4.Having corresponding slide rail between slide unit 21 with dynamic slide plate 22, dynamic slide plate 22 is relative to slide unit 21 Sliding both can be by manually handling, it is also possible to make slide plate 22 automatically relative to slide unit 21 by connecting power-equipment Slide.Concrete power-equipment can be electronic, pneumatically or hydraulically equipment.Permissible by arranging slide unit 21 and dynamic slide plate 22 structure Realize the tune of the transmission-type transmitting probe 4 of clamping position in this glide direction in the clamping device 23 of dynamic slide plate 22 bottom Whole, elevating movement as illustrated in the drawing.Concrete clamping device 23 can be clip, with transmission-type transmitting probe 4 external diameter phase The installed part etc. joined.

Transmission-type receiving transducer grip unit 3 is positioned on pedestal 1 relative to another of transmission-type transmitting probe grip unit 2 The position that side is corresponding；Transmission-type receiving transducer grip unit 3 includes that with the slidably direction moving slide plate 22 be the upper of equidirectional Sleeve 31, and the lower sleeve 32 being socketed with upper bush 31, the other end of lower sleeve 32 connects the sealing vertical with lower sleeve 32 Mechanism 33, sealing mechanism 33 is used for loading transmission-type receiving transducer 5, and sealing mechanism 33 is for loading transmission-type receiving transducer 5 One end is corresponding for the end position clamping transmission-type transmitting probe 4 with clamping device 23.The building ring of transmission-type receiving transducer 5 Border is in pure water medium.Additionally upper bush 31 can also carry out the slip of horizontal direction relative to pedestal 1, as can be at pedestal Sliding tray is set on 1, and the top of upper bush 31 arranges corresponding slide block, finally realize the upper bush 31 cunning relative to pedestal 1 Dynamic.

Shown in Fig. 1, this transmission-type receiving transducer grip unit 3 is positioned at the opposite side of pedestal 1.The direction of upper bush 31 Identical with the direction of motion of dynamic slide plate 22, upper bush 31 can be connected with pedestal 1 by screw, rivet etc., it is also possible at pedestal 1 On corresponding attachment structure is set, fix with the top of upper bush 31.For socket between lower sleeve 32 and upper bush 31, concrete Can be socketed by being threaded structure or buckle structure, it is also possible to by upper bush 31 or under groove is set, and pass through Trip bolts etc. are fixed, the most that connected mode, and lower sleeve 32 can be finely adjusted relative to the position of upper bush 31, Realize transmission-type receiving transducer 5 fine setting in the direction.

It addition, be used for loading transmission-type receiving transducer 5 sealing mechanism 33 to extend perpendicularly out lower sleeve 32, make transmission-type receive and visit 5 corresponding with transmission-type transmitting probe 4.When being in the duty of measurement due to transmission-type receiving transducer 4, it usually needs position In coupling media, and common coupling media is deionized water, and such transmission-type receiving transducer 5 is substantially exposed in water, anti- Rotten, rustless property is poor, owing to corroding corrosion etc., transmission-type receiving transducer is caused damage, affects measurement effect.So in this reality Executing in example, be placed in sealing mechanism 33 by transmission-type receiving transducer 4, during decreasing measurement, water is to transmission-type transmitting probe 4 The infringement such as the corrosion corrosion caused.

The transmission-type probe clip locking structure that the present embodiment provides is by transmission-type transmitting probe and transmission-type receiving transducer Clamping, be applied to ultrasonic scanning detection technique field, it is achieved the Non-Destructive Testing to device.This mechanism is by arranging pedestal and consolidating Due to transmission-type transmitting probe grip unit thereon and transmission-type receiving transducer grip unit；By increasing dynamic slide plate and two-stage Tube-in-tube structure, adds and transmission-type transmitting, receiving transducer is carried out the scope that alignment adjusts, select sealing mechanism to transmission simultaneously Formula receiving transducer is loaded, and reduces the medium corrosion to transmission-type receiving transducer simultaneously.

Fig. 2 is the structural representation of sealing mechanism in Fig. 1, and Fig. 3 is the structural representation of lock sleeve in Fig. 2, in conjunction with Fig. 2 and Shown in Fig. 3, preferred as technique scheme, sealing mechanism 33 includes outside being socketed on transmission-type receiving transducer 5 Lock sleeve 331, the other end of lock sleeve 331 is socketed with flat axle 332, and the external diameter of lock sleeve 331 is cone structure, flat axle 332 Internal diameter is the inner cone structure matched with lock sleeve 331, between the other end and the lower sleeve 32 of flat axle 332 for hole axle construction even Connect.Generally lock sleeve 331 can select the material such as rubber, silica gel with the position being connected between transmission-type receiving transducer 5.Locking It is socketed by cone shape between set 331 and flat axle 332, effectively achieves its sealing effectiveness.Meanwhile, lock sleeve 331 And the lock sleeve 331 fine setting relative to flat axle 332 angle can be realized by rotation between flat axle 332, also be achieved that transmission Formula receiving transducer 5 is relative to the fine setting of the angle of flat axle.And the hole axle construction of flat axle 332 and lower sleeve 32, it is preferred that trapping The bottom of cylinder 32 arranges the hole matched with flat axle 332, inserts in this hole by flat axle 332, by adjustment flat axle 332 relative to hole Depth, it is possible to achieve to transmission-type receiving transducer 5 relative to the adjustment of the position in transmission-type transmitting probe 4 horizontal direction. Hole can certainly be arranged on the termination of flat axle 332, the bottom of lower sleeve 32 is inserted in the hole, so can swing flat axle 332, it is achieved the adjustment to transmission-type receiving transducer 5 position.Additionally need the side in hole and set up trip bolt, thus realize right Fixing of axle.

Preferred as technique scheme, shown in Fig. 3, lock sleeve 331 is for being socketed transmission-type receiving transducer 5 Being provided with radially grooving 3311 in the middle part of position, be connected with the middle part of radial direction grooving 3311 is axial grooving 3312, axially cuts Groove 3312 penetrates into the edge of lock sleeve 331.Lock sleeve 331 comprises three features: Outer Taper 3313, axial grooving 3312, radially Grooving 3311, lock sleeve 331 is the opening sleeve structure with certain taper, it is simple to transmission-type receiving transducer 5 is carried out clamping and Unclamp operation.

Lock sleeve 331 is additionally provided with locking nut 333 for the end being socketed transmission-type receiving transducer 5.Locked by adjustment Nut 333 is relative to the position of lock sleeve 331, it is achieved to the clamping of transmission-type receiving transducer 5 or loosen, in order to described transmission Installing and uninstalling of formula receiving transducer 5.

Preferred as technique scheme, in order to be further ensured that the sealing property of sealing mechanism, lock sleeve 331 with thoroughly The end penetrating formula receiving transducer 5 peace axle 332 connection is respectively arranged with sealing ring.Sealing ring 334 as depicted, sealing ring 335, Sealing ring 334 is interior O-ring seal, and sealing ring 335 is interior O-ring seal, and the design of concrete sealing ring can be according to seam Number is set.

For the clamp method of transmission-type receiving transducer specifically, transmission-type receiving transducer 5 is put in lock sleeve 331； Again lock sleeve 331 is pushed by the osculum direction of inner cone in flat axle 332, make in the Outer Taper in lock sleeve 331 and flat axle 332 Inner cone phase fit；By the screwing operations of fine thread mode, lock sleeve 331 is opened between locking nut 333 and lock sleeve 331 Prostomum face is tightened, it is achieved to being fixedly clamped of transmission-type receiving transducer 5, and interior O-ring seal and external seal cushion rubber play Waterproof ooze effect；Unclamp the lock-screw on lower sleeve 32, not shown in accompanying drawing, can adjust flat axle 332 entirety angle and Axially fine setting, thus conveniently realize the angle to transmission-type receiving transducer 5 and axially finely tune.

Fig. 4 is the structural representation that in Fig. 1, upper bush is connected with lower sleeve, preferred as technique scheme, upper set Cylinder 31 and lower sleeve 32 between socket by arrange on lower sleeve 32 groove structure and with being arranged on that groove structure matches Lock-screw 311 and lock-screw 312 on sleeve position.In the present embodiment, the number of lock screw is two, actual In can be one and can also be configured according to the length of position adjustments between actually lower sleeve for multiple, as The most long, arrange multiple.

In conjunction with the transmission-type probe clip locking structure shown in accompanying drawing 1 to 5, utilization is originally the transmission-type probe clip that embodiment provides The locking structure method of adjustment to transmission-type ultrasonic scanning detection probe orientation:

Step one: by the fabrication evaluation requirement of ultrasonic scanning, by adaptive transmission-type transmitting probe 4 side of being threaded connection Formula screws in the clamping device of transmission-type transmitting probe grip unit, and makes the direction, launch site of transmission-type transmitting probe 4 sweep away, I.e. towards the sealing mechanism for loading transmission-type receiving transducer 5；

Step 2: suitably unclamp the lock-screw on lower sleeve 32, carries out angle and axially adjustable to flat axle 332, range estimation The reception area of transmission-type receiving transducer 5 rushes to and substantially aligns the launch site of transmission-type transmitting probe 4；

Step 3: need in real work to do inching again with reference to the imaging effect on configuration display；

Concrete inching includes: the slip of the horizontal direction of upper bush 31 opposite base 1 adjusts, transmission-type receiving transducer 5 can carry out one-dimensional adjustment with reference to transmission-type transmitting probe 4；Suitably unclamp the lock-screw 311 on upper bush 31 and lock-screw 312, lower sleeve 32 can freely slide up and down relative to upper bush 31 and rotate, and transmission-type receiving transducer 5 launches spy with reference to transmission-type 4 can carry out bidimensional adjustment；Suitably unclamp the lock-screw on lower sleeve 32, flat axle 332 is carried out angle and axially finely tunes, thoroughly Penetrate formula receiving transducer 5 and can carry out bidimensional adjustment, until imaging effect meets technological requirement, this mistake with reference to transmission-type transmitting probe 4 Journey is in pure water medium environment and carries out.

Step 4: transmission-type receiving transducer 5 is screw threads for fastening mode with the connection end of its holding wire, and holding wire is in airtight Chamber is drawn by the interface on pedestal, as the connectivity port with corresponding control device.

Preferred as technique scheme, transmission-type probe clip locking structure also includes: straight-through quick connector, straight-through fast inserts Joint is connected respectively to one end that flat axle 332 is connected with lower sleeve 32, the most straight-through quick connector connecting hole 336, lead directly between quick connector and straight-through quick connector connecting hole 336 as being tightly connected.It is used for stretching into transmission-type on pedestal 1 to connect Receiving the hole of probe signal line, this hole is not shown, and the generally position in this hole is positioned at the periphery of pedestal 1 and upper bush 31 link position Position, same, lead directly between quick connector and this base aperture also for being tightly connected.Flexible pipe is passed through between two straight-through quick connectors Connecting, flexible pipe is used for wrapping up transmission-type receiving transducer holding wire, and in figure, flexible pipe is not shown, and concrete flexible pipe can select PU, rubber Glue or PVC, the plastic material such as PE, flexible pipe can not also be inserted directly into straight-through quick connector connecting hole by straight-through quick connector 336 and base aperture in, between flexible pipe and straight-through quick connector connecting hole 336 and base aperture, sealing device is set, such as sealing ring, close Seal ring etc..

Straight-through quick connector is in coupling media deionized water and plays sealing function, and flexible pipe butts up against straight-through respectively Straight-through quick connector on quick connector connecting hole 336 and the straight-through quick connector in base aperture, holding wire is socketed in flexible pipe. Traditional is holding wire the leading directly to soon on straight-through quick connector connecting hole 336 that engagement thread is connected with transmission-type receiving transducer Straight-through quick connector order in connection-peg, flexible pipe and base aperture is drawn；Or reverse-order direction introduces.On transmission-type receiving transducer The thread connecting mode that holding wire is short screwing length connected, because being directly exposed in pure water medium and sealing is difficult to obtain Ensureing, directly influence test effect, so coordinating flexible pipe to realize the protection to holding wire by straight-through quick connector, preventing The impact that it is caused by aqueous medium, it is ensured that test effect.

Fig. 5 is the structural representation of clamping device in Fig. 1, as it is shown in figure 5, clamping device 23 includes clamp block 231, clamp Block 231 pivotally connected has fixture block 232 by first, and dynamic fixture block 232 can be put relative to clamp block 231 with the first pivot for axle Dynamic；Clamp block 231 is connected with dynamic fixture block 232 by connector 233 relative to the other end of the first pivot；On clamp block 231 It is provided with the first groove between one pivot and connector 233, dynamic fixture block 232 is provided with second corresponding with the first groove recessed The shape that groove, the first groove and the second groove are surrounded matches with the external diameter of transmission-type transmitting probe, is used for snapping in transmission-type Transmitting probe.Use above-mentioned clamping device 23 simple operation, only need when needs snap in transmission-type transmitting probe 4 to open connection Part 233 makes fixture block 232 be in opening, and transmission-type transmitting probe 4 is placed into the first groove location of clamp block 231, Then merge dynamic fixture block 232, and connector 233 is closed up with dynamic fixture block 232, be achieved that the folder to transmission-type transmitting probe 4 Hold.

Embodiment two

Generally need one group of transmission-type probe to be operated during actual nondestructive inspection, also provide for for this present invention A kind of separate type double transmission formula probe clip locking structure, a kind of separate type double transmission formula that Fig. 6 provides for the embodiment of the present invention two The Facad structure schematic diagram of probe clip locking structure, Fig. 7 is that in Fig. 6, the inverse layer structure of separate type double transmission formula probe clip locking structure shows It is intended to, shown in Fig. 6 and Fig. 7, comprising: pedestal 6 and two the transmission-type transmitting probe grip unit 61 being fixed thereon, 62 and two transmission-type receiving transducer grip unit 63,64；

Two transmission-type transmitting probe grip unit 61,62, for be arrangeding in parallel, include the slide unit being connected with pedestal 6 respectively 611、621；The dynamic slide plate 612,622 that can slide, dynamic slide plate 612,622 it is also associated with relative to slide unit on slide unit 611,621 The one end sliding along direction is provided with clamping device 613,623, and clamping device 613,623 is respectively used to clamp transmission-type and launches Probe 4；

Two transmission-type receiving transducer grip unit 63,64, for be arrangeding in parallel, are positioned on pedestal 6 relative to two transmission-types The position that the opposite side of transmitting probe grip unit 61,62 is corresponding；Transmission-type receiving transducer grip unit 63,64 includes sliding with dynamic The slidably direction of plate 612,622 is the upper bush 631,641 of equidirectional, and the lower sleeve being socketed with upper bush 631,641 632,642, the other end of lower sleeve 632,642 connects the sealing mechanism 633,643 vertical with lower sleeve 632,642, seals Mechanism 633,643 is used for loading transmission-type receiving transducer 5, and sealing mechanism 633,643 is for loading the one of transmission-type receiving transducer 5 Hold corresponding for the end position clamping transmission-type transmitting probe 4 with clamping device 613,623.Concrete annexation and transmission The adjustment of the position relationship between formula transmitting probe 4, transmission-type receiving transducer 5 sees the description in above-described embodiment, at this not Repeat again.

Preferred as technique scheme, two transmission-type receiving transducer grip unit 63,64 are by cap ned 7 and base Seat 6 connects, and pedestal 6 is connected with the I shape top of cap ned 7, two transmission-type receiving transducer grip unit 63,64 respectively with The I shape bottom of cap ned 7 connects, and the structure of concrete cap ned is shown in shown in Fig. 7.

Corresponding with above-described embodiment one, owing in the present embodiment two, transmission-type receiving transducer is two groups, so accordingly The straight-through quick connector of setting, flexible pipe, installing hole etc. be two groups.Straight-through quick connector is connected respectively to, as shown in Figure 7 Flat axle be connected the straight-through quick connector connecting hole 71 that end is arranged with lower sleeve, and the installing hole 72 on cap ned 7, in Fig. 7 only Identifying one group, another group is corresponding therewith.Straight-through quick connector is used for stretching on straight-through quick connector connecting hole 71 and cap ned 7 Enter and be sealing between the installing hole 72 of transmission-type receiving transducer holding wire.Between two straight-through quick connectors by flexible pipe even The plastic materials such as connecing, in figure, flexible pipe is not shown, and concrete flexible pipe can select PU, rubber or PVC, PE, flexible pipe can also be obstructed Crossing straight-through quick connector to be inserted directly in the installing hole 72 on straight-through quick connector connecting hole 71 and cap ned 7, flexible pipe is with straight-through Between quick connector connecting hole 71 and installing hole 72, sealing device is set, such as sealing ring, sealing ring etc..

It is holding wire the leading directly on straight-through quick connector connecting hole 71 that engagement thread is connected with transmission-type receiving transducer Quick connector, penetrate in flexible pipe, the more straight-through quick connector order on the installing hole 72 on cap ned 7 is drawn；Or reverse-order Direction introduces.The thread connecting mode that holding wire is short screwing length connected on traditional transmission-type receiving transducer, because of directly It is exposed in pure water medium and sealing is difficult to be guaranteed, directly influence test effect, so by straight-through quick connector Coordinate flexible pipe to realize the protection to holding wire, prevent the impact that it is caused by aqueous medium, it is ensured that test effect.

The transmission-type often organized can be launched spy by separate type double transmission formula probe clip locking structure that the present embodiment provides respectively 4, the position relationship between transmission-type receiving transducer 5 is adjusted, and improves the detection efficient to device.

Separate type double transmission formula probe clip locking structure, excrescence present transmission-type receiving transducer is prone to mounting or dismounting and changes；Not with Transmitting probe device does the separate arrangement that lifting is servo-actuated, can accurately carry out alignment by the regulative mode of five dimensions and adjust；It is in The working environment of pure water medium can be finely tuned operation the most in real time；Full sealing apparatus plays good sealing effectiveness；Carry Rise the work efficiency of transmission-type high-velocity scanning.

Above-described embodiment not detailed description of the invention exhaustive, also can have other embodiment, and above-described embodiment purpose exists In the explanation present invention, rather than limiting the scope of the invention, all application come by simple change of the present invention all fall within this In the protection domain of invention.

This patent specification uses example to go to show the present invention, including optimal mode, and makes to be familiar with this area Technical staff manufactures and uses the present invention.This invents in content and the description that delegatable scope includes claims Detailed description of the invention and the content of other embodiments.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 reality The technical characteristic described by similar literal language of matter difference.

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

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, It is used only to distinguish different technical characteristics.The qualifier " about " that combined amount uses comprises described value and content context refers to Fixed implication.(such as: it includes error when measuring specific quantity).

Claims (8)

1. a transmission-type probe clip locking structure, it is characterised in that including: pedestal and the transmission-type transmitting probe being fixed thereon Grip unit and transmission-type receiving transducer grip unit；

Described transmission-type transmitting probe grip unit includes the slide unit being connected with described pedestal；Connect on described slide unit that have can phase The dynamic slide plate slided for slide unit, one end that described dynamic slide plate slides along direction is provided with clamping device, described clamping device For clamping transmission-type transmitting probe；

Described transmission-type transmitting probe grip unit is positioned at the side of pedestal, and described transmission-type receiving transducer grip unit is positioned at base The opposite side of seat；Described transmission-type receiving transducer grip unit includes that the slidably direction with described dynamic slide plate is equidirectional Upper bush, and the lower sleeve being socketed with described upper bush, described upper bush is socketed on one end of described lower sleeve, described lower sleeve The other end connect have the sealing mechanism vertical with described lower sleeve, described sealing mechanism to be used for loading transmission-type receiving transducer, Described sealing mechanism is used for the one end loading transmission-type receiving transducer with described clamping device for clamping transmission-type transmitting probe The position of one end corresponding；Described sealing mechanism includes the lock sleeve outside being socketed on described transmission-type receiving transducer, Being socketed on one end of flat axle outside described lock sleeve, the external diameter of described lock sleeve is cone structure, the internal diameter of described flat axle be with The inner cone structure that described lock sleeve matches, is connected for hole axle construction between the other end of described flat axle and described lower sleeve；

Described transmission-type probe clip locking structure also includes: straight-through quick connector, two described straight-through quick connectors are connected respectively to One end that described flat axle is connected with described lower sleeve, and for stretching into transmission-type receiving transducer holding wire on described pedestal Hole；By hose connection between two described straight-through quick connectors, described flexible pipe is used for wrapping up transmission-type receiving transducer holding wire.

Transmission-type probe clip locking structure the most according to claim 1, it is characterised in that described lock sleeve is used for being socketed described Being provided with radially grooving in the middle part of the position of transmission-type receiving transducer, be connected with the middle part of described radial direction grooving is axially to cut Groove, described axial grooving penetrates into the edge of described lock sleeve.

Transmission-type probe clip locking structure the most according to claim 1, it is characterised in that described lock sleeve is used for being socketed described The end of transmission-type receiving transducer is additionally provided with locking nut.

Transmission-type probe clip locking structure the most according to claim 1, it is characterised in that described lock sleeve and described transmission-type The end that receiving transducer connects is provided with sealing ring, and the end that described lock sleeve is connected with described flat axle is provided with sealing ring.

Transmission-type probe clip locking structure the most according to claim 1, it is characterised in that between described upper bush and lower sleeve Socket by arranging groove structure and the lock-screw being arranged on upper bush matched with described groove structure on lower sleeve Position.

Transmission-type probe clip locking structure the most according to claim 1, it is characterised in that described clamping device includes clamp Block, pivotally connected there is fixture block one end of described clamp block by first, and described dynamic fixture block can be with described first pivot as axle Swing relative to described clamp block；

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 on described clamp block between described first pivot and described connector, described dynamic fixture block is provided with The shape that second groove corresponding with described first groove, described first groove and described second groove are surrounded is with described The external diameter penetrating formula transmitting probe matches, and is used for snapping in described transmission-type transmitting probe.

7. a separate type double transmission formula probe clip locking structure, it is characterised in that including: pedestal and be fixed thereon two are thoroughly Penetrate formula transmitting probe grip unit and two transmission-type receiving transducer grip unit；

Two described transmission-type transmitting probe grip unit, for be arrangeding in parallel, include the slide unit being connected with described pedestal respectively；Institute Stating the dynamic slide plate being also associated with can sliding relative to slide unit on slide unit, one end that described dynamic slide plate slides along direction is provided with Clamping device, described clamping device is used for clamping transmission-type transmitting probe；

Two described transmission-type transmitting probe grip unit are positioned at the side of pedestal, and two described transmission-type receiving transducer clampings are single Unit, for be arrangeding in parallel, is positioned at the opposite side of pedestal；Described transmission-type receiving transducer grip unit include with described dynamic slide plate can Glide direction is the upper bush of equidirectional, and the lower sleeve being socketed with described upper bush, described upper bush be socketed on described under One end of sleeve, the other end of described lower sleeve connects the sealing mechanism vertical with described lower sleeve, and described sealing mechanism is used In loading transmission-type receiving transducer, described sealing mechanism is used with described clamping device for the one end loading transmission-type receiving transducer Corresponding in the position of one end of clamping transmission-type transmitting probe.

Separate type double transmission formula probe clip locking structure the most according to claim 7, it is characterised in that two described transmission-types Receiving transducer grip unit is connected with described pedestal by cap ned, and described pedestal is connected with the I shape top of cap ned, and two Individual described transmission-type receiving transducer grip unit is connected with the I shape bottom of cap ned respectively.