CN103353048A - 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. The transmission-type probe clamping structure comprises a substrate, a transmission-type transmitting probe clamping unit and a transmission-type receiving probe clamping unit, wherein the transmission-type transmitting probe clamping unit and the transmission-type receiving probe clamping unit are fixed on the substrate. The transmission-type transmitting probe clamping unit comprises a sliding table connected with the substrate. A movable sliding board which can slide relative to the sliding table is connected to the sliding table. One end, in the sliding direction, of the movable sliding board is provided with a clamping mechanism used for clamping a transmission-type transmitting probe. The transmission-type receiving probe clamping unit is located on the other side of the substrate. The transmission-type receiving probe clamping unit comprises an upper sleeve and a lower sleeve, wherein the direction of the upper sleeve is the same with the sliding direction of the movable sliding board, the lower sleeve is connected with the upper sleeve in a sleeved mode, and a sealing mechanism used for loading of a transmission-type receiving probe is connected to the other end of the lower sleeve. Due to the fact that the movable sliding board and the two-level sleeve structure are additionally arranged, alignment regulation on the transmission-type transmitting probe and the transmission-type receiving probe is increased, meanwhile, the transmission-type receiving probe is loaded through the sealing mechanism, and corrosion of media on the transmission-type receiving probe is reduced.

Description

Transmission type probe clip locking structure and separated 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 separated type double transmission formula probe clip locking structure.

 

Background technique

In the prior art, probe clip locking structure to the transmission type probe is simple holding device, for example, after the transmission type transmitting probe is fixing by holding device, the transmission type receiving transducer is also fixed by simple holding device, and the transmission type receiving transducer only can carry out angle and axial bidimensional adjustment, thereby the accurate aligning adjustment of transmission type transmitting probe and transmission type receiving transducer is restricted, even can't finish the aligning of transmission type transmitting probe and transmission type receiving transducer.

In addition, because when the transmission type receiving transducer is in the working state of measurement, usually need to be arranged in the coupling medium, and common coupling medium is deionized water, the transmission type receiving transducer is exposed in the water substantially like this, anticorrosion, rustless property is poor, because corrosion corrosion etc. affects measurement effect to transmission type receiving transducer injury.

For this reason, need to provide a kind of transmission type probe clip locking structure, be convenient to transmission type emission, receiving transducer are aimed at adjustment, reduce simultaneously medium to the corrosion of transmission type receiving transducer.

 

Summary of the invention

The purpose of this invention is to provide a kind of transmission type probe clip locking structure and separated type double transmission formula probe clip locking structure, be convenient to transmission type emission, receiving transducer are aimed at adjustment, reduce simultaneously medium to the corrosion of transmission type receiving transducer.

For solving the foregoing invention purpose, the invention provides a kind of transmission type probe clip locking structure, comprising: pedestal and be fixed thereon transmission type transmitting probe grip unit and transmission type receiving transducer grip unit;

Described transmission type transmitting probe grip unit comprises the slide unit that is connected with described pedestal; Being connected with on the described slide unit can be with respect to the moving slide plate of its slip, and described moving slide plate is provided with clamping device along an end of its glide direction, and described clamping device is used for clamping transmission type transmitting probe;

Described transmission type receiving transducer grip unit is positioned on the pedestal position corresponding to opposite side with respect to described transmission type transmitting probe grip unit; Described transmission type receiving transducer grip unit comprises the upper bush that is equidirectional with the slidably direction of described moving slide plate, reach the lower sleeve with described upper bush socket, the other end of described lower sleeve is connected with the sealing mechanism vertical with described lower sleeve, described sealing mechanism is used for loading the transmission type receiving transducer, and described sealing mechanism is corresponding with the end position that described clamping device is used for clamping transmission type transmitting probe for an end that loads the transmission type receiving transducer.

Preferred as technique scheme, described sealing mechanism comprises be used to the lock sleeve that is socketed on outside the described transmission type receiving transducer, the other end of described lock sleeve is socketed with flat axle, the external diameter of described lock sleeve is vertebral body structure, be connected for hole axle construction between the interior vertebral body structure of the internal diameter of described flat axle for being complementary with described lock sleeve, the other end of described flat axle and described lower sleeve.

The middle part, position that preferred as technique scheme, described lock sleeve are used for being socketed described transmission type receiving transducer is provided with radially grooving, and with the axial grooving that the middle part of described radially grooving is connected, described axial grooving penetrates into the edge of described lock sleeve.

The end that preferred as technique scheme, described lock sleeve are used for being socketed described transmission type receiving transducer also is provided with locking nut.

Preferred as technique scheme, described lock sleeve and described transmission type receiving transducer be connected the end that flat axle is connected and be respectively arranged with seal ring.

Preferred as technique scheme, the socket between described upper bush and the lower sleeve is by arranging the groove structure at upper bush or lower sleeve and positioning with the lock screw of described groove structure to coupling.

Preferred as technique scheme, described transmission type probe clip locking structure also comprises: straight-through quick inserting joint, described straight-through quick inserting joint is connected respectively to the end that described flat axle is connected with described lower sleeve, and is used for stretching into the hole of described transmission type receiving transducer signaling line on the described pedestal; Connect by flexible pipe between two described straight-through quick inserting joints, described flexible pipe is used for wrapping up described transmission receiving transducer signaling line.

Preferred as technique scheme, described clamping device comprises the clamp piece, and described clamp piece pivotally connectedly has a fixture block by first, and described moving fixture block can swing with respect to described clamp piece take described the first pivot as axle;

Described clamp piece is connected with described moving fixture block by link with respect to the other end of described the first pivot;

Be provided with the first groove between the above first pivot of described clamp piece and the described link, be provided with second groove corresponding with described the first groove on the described moving fixture block, the shape that described the first groove and described the second groove surround and the external diameter of described transmission type transmitting probe are complementary, and are used for snapping in described transmission type transmitting probe.

The present invention also provides a kind of separated type double transmission formula probe clip locking structure, comprising: pedestal and two transmission type transmitting probe grip unit and two transmission type receiving transducer grip unit of being fixed thereon;

Two described transmission type transmitting probe grip unit comprise respectively the slide unit that is connected with described pedestal for be arrangeding in parallel; Also being connected with on the described slide unit can be with respect to the moving slide plate of its slip, and described moving slide plate is provided with clamping device along an end of its glide direction, and described clamping device is used for clamping transmission type transmitting probe;

Two described transmission type receiving transducer grip unit are for be arrangeding in parallel, are positioned on the pedestal position corresponding to opposite side with respect to two described transmission type transmitting probe grip unit; Described transmission type receiving transducer grip unit comprises the upper bush that is equidirectional with the slidably direction of described moving slide plate, reach the lower sleeve with described upper bush socket, the other end of described lower sleeve is connected with the sealing mechanism vertical with described lower sleeve, described sealing mechanism is used for loading the transmission type receiving transducer, and described sealing mechanism is corresponding with the end position that described clamping device is used for clamping transmission type transmitting probe for an end that loads the transmission type receiving transducer.

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

Effect of the present invention is:

Transmission type probe clip locking structure provided by the invention and separated type double transmission formula probe clip locking structure, this mechanism is by arranging pedestal and being fixed thereon transmission type transmitting probe grip unit and transmission type receiving transducer grip unit; By increasing moving slide plate and two-stage tube-in-tube structure, increased the scope of transmission type emission, receiving transducer being aimed at adjustment, select simultaneously sealing mechanism that the transmission type receiving transducer is loaded, reduce simultaneously medium to the corrosion of transmission type receiving transducer.

 

Description of drawings

By the description of its exemplary embodiment being carried out below in conjunction with accompanying drawing, the above-mentioned feature and advantage of the present invention will become apparent and easily understand.

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

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

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

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

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

The Facad structure schematic diagram of a kind of separated type double transmission formula probe clip locking structure that Fig. 6 provides for the embodiment of the invention two;

Fig. 7 is the reverse side structural representation of separated type double transmission formula probe clip locking structure among Fig. 6;

Wherein, 1-pedestal; 2-transmission type transmitting probe grip unit; The 21-slide unit; 22-moves slide plate; The 23-clamping device; 231-clamp piece; 232-moves fixture block; The 233-link; 3-transmission type receiving transducer grip unit; The 31-upper bush; The 311-lock screw; The 312-lock screw; The 32-lower sleeve; The 33-sealing mechanism; The 331-lock sleeve; 3311-is grooving radially; The axial grooving of 3312-; The 3313-external cone; The flat axle of 332-; The 333-locking nut; The 334-seal ring; The 335-seal ring; 336-leads directly to the quick inserting joint attachment hole; 4-transmission type transmitting probe; 5-transmission type receiving transducer;

The 6-pedestal; 61-transmission type transmitting probe grip unit; The 611-slide unit; 612-moves slide plate; The 613-clamping device; 62-transmission type transmitting probe grip unit is moved slide plate; The 621-slide unit; 622-moves slide plate; The 623-clamping device; 63-transmission type receiving transducer grip unit; The 631-upper bush; The 632-lower sleeve; The 633-sealing mechanism; 64-transmission type receiving transducer grip unit; The 641-upper bush; The 642-lower sleeve; The 643-sealing mechanism; The 7-cap ned; 71-leads directly to the quick inserting joint attachment hole; The 72-mounting hole.

 

Embodiment

Below in conjunction with accompanying drawing 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 invention one, in conjunction with shown in Figure 1, the invention provides a kind of transmission type probe clip locking structure, comprising: pedestal 1 and be fixed thereon transmission type transmitting probe grip unit 2 and transmission type receiving transducer grip unit 3.Concrete pedestal 1 can be a slab construction, its both sides are respectively applied to fixed transmittance formula transmitting probe grip unit 2 and transmission type receiving transducer grip unit 3, can be the bending sheets of inverted trapezoidal for side as shown in fig. 1 also, its top arranges corresponding mounting hole, be convenient to this transmission type probe clip locking structure integral body is fixed, for example be fixed on a certain measurement basal plane.Transmission type transmitting probe grip unit 2 and transmission type receiving transducer grip unit 3 are respectively applied to transmission type transmitting probe 4 and transmission type receiving transducer 5 are carried out clamping.

Transmission type transmitting probe grip unit 2 comprises the slide unit 21 that is connected with pedestal 1; Being connected with on the slide unit 21 can be with respect to the moving slide plate 22 of its slip, and moving slide plate 22 is provided with clamping device 23 along an end of its glide direction, and clamping device 23 is used for clamping transmission type transmitting probe 4.Between slide unit 21 and the moving slide plate 22 corresponding slide rail is arranged, moving slide plate 22 both can be by manually handling, also can slide plate 22 being slided automatically with respect to slide unit 21 by connecting power equipment with respect to the slip of slide unit 21.Concrete power equipment can be electronic, pneumatic or hydraulic equipment.By being set, slide unit 21 and moving slide plate 22 structures can realize adjustment to the position of transmission type transmitting probe 4 on this glide direction of clamping in the clamping device 23 of moving slide plate 22 bottoms, elevating movement as shown in FIG..Concrete clamping device 23 can be clip, assembling set that is complementary with transmission type transmitting probe 4 external diameters etc.

Transmission type receiving transducer grip unit 3 is positioned on the pedestal 1 position corresponding to opposite side with respect to transmission type transmitting probe grip unit 2; Transmission type receiving transducer grip unit 3 comprises that the slidably direction with moving slide plate 22 is the upper bush 31 of equidirectional, reach the lower sleeve 32 with upper bush 31 sockets, the other end of lower sleeve 32 is connected with the sealing mechanism 33 vertical with lower sleeve 32, sealing mechanism 33 is used for loading transmission type receiving transducer 5, and sealing mechanism 33 is corresponding with the end position that clamping device 23 is used for clamping transmission type transmitting probe 4 for an end that loads transmission type receiving transducer 5.The working environment of transmission type receiving transducer 5 is in the pure water medium.Upper bush 31 can also carry out the slip of substantially horizontal with respect to pedestal 1 in addition, and as can sliding-groove being set at pedestal 1, and the top of upper bush 31 arranges corresponding slide block, realizes that finally upper bush 31 is with respect to the slip of pedestal 1.

In conjunction with shown in Figure 1, this transmission type receiving transducer grip unit 3 is positioned at the opposite side of pedestal 1.The direction of upper bush 31 is identical with the moving direction of moving slide plate 22, and upper bush 31 can pass through screw, rivet etc. and be connected with pedestal 1, also can corresponding linkage structure be set at pedestal 1, fixes with the top of upper bush 31.Be socket between lower sleeve 32 and the upper bush 31, concrete can be by worm structure being set or buckle structure is socketed, also can by upper bush 31 or under groove is set, and be fixed by fastening screw trip bolt etc., the sort of Placement no matter, lower sleeve 32 can be finely tuned with respect to the position of upper bush 31, realizes the fine setting that transmission type receiving transducer 5 makes progress the party.

In addition, be used for loading transmission type receiving transducer 5 sealing mechanisms 33 and vertically stretch out lower sleeve 32, make transmission type receiving transducer 5 corresponding with transmission type transmitting probe 4.Because when transmission type receiving transducer 4 is in the working state of measurement, usually need to be arranged in the coupling medium, and common coupling medium is deionized water, transmission type receiving transducer 5 is exposed in the water substantially like this, anticorrosion, rustless property is poor, because corrosion corrosions etc. affect measurement effect to transmission type receiving transducer injury.So in the present embodiment, transmission type receiving transducer 4 is placed sealing mechanism 33, reduced in the measuring phase water to the infringements such as corrosion corrosion that cause of transmission type transmitting probe 4.

The transmission type probe clip locking structure that the present embodiment provides is applied to ultrasonic scanning detection technique field by the clamping to transmission type transmitting probe and transmission type receiving transducer, realizes the non-destructive inspection to device.This mechanism is by arranging pedestal and being fixed thereon transmission type transmitting probe grip unit and transmission type receiving transducer grip unit; By increasing moving slide plate and two-stage tube-in-tube structure, increased the scope of transmission type emission, receiving transducer being aimed at adjustment, select simultaneously sealing mechanism that the transmission type receiving transducer is loaded, reduce simultaneously medium to the corrosion of transmission type receiving transducer.

Fig. 2 is the structural representation of sealing mechanism among Fig. 1, Fig. 3 is the structural representation of lock sleeve among Fig. 2, in conjunction with Fig. 2 and shown in Figure 3, preferred as technique scheme, sealing mechanism 33 comprises be used to the lock sleeve 331 that is socketed on outside the transmission type receiving transducer 5, the other end of lock sleeve 331 is socketed with flat axle 332, the external diameter of lock sleeve 331 is vertebral body structure, be connected for hole axle construction between the interior vertebral body structure of the internal diameter of flat axle 332 for being complementary with lock sleeve 331, the other end of flat axle 332 and lower sleeve 32.Usually lock sleeve 331 with transmission type receiving transducer 5 between the position that is connected can select the materials such as rubber, silica gel.Be socketed by the centrum shape between lock sleeve 331 and the flat axle 332, effectively realized its sealing effect.Simultaneously, can by rotating realization lock sleeve 331 with respect to the fine setting of flat axle 332 angles, also just realize the fine setting of transmission type receiving transducer 5 with respect to the angle of flat axle between lock sleeve 331 and the flat axle 332.And the hole axle construction of flat axle 332 and lower sleeve 32, preferably, bottom at lower sleeve 32 arranges the hole that is complementary with flat axle 332, flat axle 332 is inserted in this hole, by adjusting flat axle 332 with respect to the depth in hole, can realize the adjustment of transmission type receiving transducer 5 with respect to the position on transmission type transmitting probe 4 substantially horizontals.The hole can certainly be arranged on the termination of flat axle 332, the bottom of lower sleeve 32 is inserted in the hole, can swing so flat axle 332, realize the adjustment to transmission type receiving transducer 5 positions.Need to set up fastening screw trip bolt at the side in hole in addition, thereby realize fixing axle.

Preferred as technique scheme, in conjunction with shown in Figure 3, the middle part, position that lock sleeve 331 is used for socket transmission type receiving transducer 5 is provided with radially grooving 3311, the axial grooving 3312 that is connected with the middle part of grooving 3311 radially, and axially grooving 3312 penetrates into the edge of lock sleeve 331.Lock sleeve 331 comprises three features: external cone 3313, and axial grooving 3312, radially grooving 3311, and lock sleeve 331 is convenient to transmission type receiving transducer 5 is tightened and unclamp operation for having the opening sleeve structure of certain taper.

The end that lock sleeve 331 is used for socket transmission type receiving transducer 5 also is provided with locking nut 333.By adjusting locking nut 333 with respect to the position of lock sleeve 331, realize the chucking of transmission type receiving transducer 5 or loosen, to installation and the unloading of described transmission type receiving transducer 5.

Preferred as technique scheme, in order further to guarantee the sealability of sealing mechanism, lock sleeve 331 is respectively arranged with seal ring with the end that transmission type receiving transducer 5 peaceful axles 332 are connected.Seal ring 334 as shown in the figure, seal ring 335, seal ring 334 is interior O-ring seal, and seal ring 335 is interior O-ring seal, and the design of concrete seal ring can be set according to the number of seam.

Clamp method for the transmission type receiving transducer is specially, and transmission type receiving transducer 5 is put into lock sleeve 331; Again the osculum direction of lock sleeve 331 by internal cones in the flat axle 332 pushed, make internal cones phase fit in external cone and the flat axle 332 in the lock sleeve 331; 331 processes that screw by the fine thread mode of locking nut 333 and lock sleeve tighten the lock sleeve 331 opening conical surfaces, and realization is fixedly clamped to transmission type receiving transducer 5, and simultaneously interior O-ring seal and external sealed cushion rubber play waterproof and ooze effect; Unclamp the lock screw on the lower sleeve 32, not shown in the accompanying drawing, can adjust the angle of flat axle 332 integral body and axially fine setting, thus convenient the realization the angle of transmission type receiving transducer 5 and axially fine setting.

Fig. 4 is the structural representation that upper bush is connected with lower sleeve among Fig. 1, preferred as technique scheme, the socket between upper bush 31 and the lower sleeve 32 is by arranging the groove structure at upper bush 31 or lower sleeve 32 and positioning to the lock screw 311 and the lock screw 312 that mate with the groove structure.The number of lock screw is two in the present embodiment, in the reality can for one also can be for a plurality of, can according in fact between the lower sleeve length of position regulation arrange, if long then arrange a plurality of.

The transmission type probe clip locking structure shown in 1 to 5 by reference to the accompanying drawings, utilizing originally is the transmission type probe clip locking structure that provides of embodiment to the adjusting method in transmission type ultrasonic scanning detect probe orientation:

Step 1: by the technique testing requirement of ultrasonic scanning, adaptive transmission type transmitting probe 4 is threaded connection in the clamping device that mode screws in transmission type transmitting probe grip unit, and the launch site direction of transmission type transmitting probe 4 is swept away, namely towards the sealing mechanism that is used for loading transmission type receiving transducer 5;

Step 2: suitably unclamp the lock screw on the lower sleeve 32, flat axle 332 is carried out angle and axially adjustment, the launch site that the reception area of range estimation transmission type receiving transducer 5 rushed to and substantially aligned transmission type transmitting probe 4 gets final product;

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

Concrete inching comprises: the slip adjustment of the substantially horizontal of upper bush 31 relative pedestals 1, and transmission type receiving transducer 5 can carry out the one dimension adjustment with reference to transmission type transmitting probe 4; Suitably unclamp lock screw 311 and lock screw 312 on the upper bush 31, lower sleeve 32 can freely slide up and down and rotate relative to upper bush 31, and transmission type receiving transducer 5 can carry out the bidimensional adjustment with reference to transmission type transmitting probe 4; Suitably unclamp the lock screw on the lower sleeve 32, flat axle 332 is carried out angle and axially fine setting, transmission type receiving transducer 5 can carry out the bidimensional adjustment with reference to transmission type transmitting probe 4, until imaging effect meets technological requirement, this process is in the pure water media environment carries out.

Step 4: transmission type receiving transducer 5 is the screw threads for fastening mode with the connecting end of its signaling line, and signaling line is drawn by the interface on the pedestal through airtight inner chamber, as with the connecting port of corresponding control means.

Preferred as technique scheme, transmission type probe clip locking structure also comprises: straight-through quick inserting joint, straight-through quick inserting joint is connected respectively to the end that flat axle 332 is connected with lower sleeve 32, straight-through quick inserting joint attachment hole 336 as shown in Figure 2 leads directly between quick inserting joint and the straight-through quick inserting joint attachment hole 336 as being tightly connected.Be used for stretching into the hole of transmission type receiving transducer signaling line on the pedestal 1, this hole is not shown, and the position in this hole is positioned at the peripheral position of pedestal 1 and upper bush 31 link positions usually, and is same, leads directly between quick inserting joint and this pedestal hole also for being tightly connected.Connect by flexible pipe between two straight-through quick inserting joints, flexible pipe is used for wrapping up described transmission receiving transducer signaling line, flexible pipe is not shown among the figure, concrete flexible pipe can be selected PU, rubber or PVC, the plastic materials such as PE, flexible pipe can directly not insert in straight-through quick inserting joint attachment hole 336 and the pedestal hole by straight-through quick inserting joint yet, between flexible pipe and straight-through quick inserting joint attachment hole 336 and the pedestal hole seal arrangement is set, such as seal ring, seal ring etc.

Straight-through quick inserting joint is in the coupling medium---and play seal action in the deionized water, flexible pipe butts up against respectively straight-through quick inserting joint on the straight-through quick inserting joint attachment hole 336 and the straight-through quick inserting joint on the pedestal hole, and signaling line is socketed in the flexible pipe.Traditional and transmission type receiving transducer are the straight-through quick inserting joint of signaling line on straight-through quick inserting joint, flexible pipe and pedestal hole on the straight-through quick inserting joint attachment hole 336 that engage thread is connected and sequentially draw; Or anti-order direction is introduced.The signaling line that connects on the transmission type receiving transducer is the thread connecting mode of short screwing length; cause directly is exposed in the pure water medium and sealing is difficult to be guaranteed; directly have influence on the test effect; so cooperate flexible pipe to realize protection to signaling line by straight-through quick inserting joint; prevent aqueous medium to its impact that causes, guarantee the test effect.

Fig. 5 is the structural representation of clamping device among Fig. 1, and as shown in Figure 5, clamping device 23 comprises clamp piece 231, and clamp piece 231 pivotally connectedly has a fixture block 232 by first, and moving fixture block 232 can swing with respect to clamp piece 231 take the first pivot as axle; Clamp piece 231 is connected with moving fixture block 232 by link 233 with respect to the other end of the first pivot; Be provided with the first groove between the first pivot and the link 233 on the clamp piece 231, be provided with second groove corresponding with the first groove on the moving fixture block 232, the shape that the first groove and the second groove surround and the external diameter of transmission type transmitting probe are complementary, and are used for snapping in the transmission type transmitting probe.Adopt above-mentioned clamping device 23 simple operations, only need open link 233 when needs snap in transmission type transmitting probe 4 makes fixture block 232 be in opening state, transmission type transmitting probe 4 is placed into the first groove location of clamp piece 231, then merge moving fixture block 232, and link 233 and moving fixture block 232 closed up, just realized the clamping to transmission type transmitting probe 4.

Embodiment two

Usually in the nondestructive inspection process of reality, need one group of transmission type probe to carry out work, the present invention also provides a kind of separated type double transmission formula probe clip locking structure for this reason, the Facad structure schematic diagram of a kind of separated type double transmission formula probe clip locking structure that Fig. 6 provides for the embodiment of the invention two, Fig. 7 is the reverse side structural representation of separated type double transmission formula probe clip locking structure among Fig. 6, in conjunction with Figure 6 and Figure 7, it comprises: pedestal 6 and 61,62 and two the transmission type receiving transducer grip unit 63,64 of two transmission type transmitting probe grip unit that are fixed thereon;

Two transmission type transmitting probe grip unit 61,62 comprise respectively the slide unit 611,621 that is connected with pedestal 6 for be arrangeding in parallel; Also being connected with on the slide unit 611,621 can be with respect to the moving slide plate 612,622 of its slip, and moving slide plate 612,622 ends along its glide direction are provided with clamping device 613,623, and clamping device 613,623 is respectively applied to clamping transmission type transmitting probe 4;

Two transmission type receiving transducer grip unit 63,64 are for be arrangeding in parallel, are positioned on the pedestal 6 position corresponding to opposite side with respect to two transmission type transmitting probe grip unit 61,62; Transmission type receiving transducer grip unit 63,64 comprises the upper bush 631,641 that is equidirectional with moving slide plate 612,622 slidably direction, reach the lower sleeves 632,642 with upper bush 631,641 sockets, lower sleeve 632,642 the other end are connected with and lower sleeve 632,642 vertical sealing mechanisms 633,643, sealing mechanism 633,643 be used for to load transmission type receiving transducer 5, the end that sealing mechanism 633,643 is used for loading transmission type receiving transducer 5 and clamping device 613,623 corresponding for the end position of clamping transmission type transmitting probe 4.The adjustment of the position relationship between concrete annexation and transmission type transmitting probe 4, the transmission type receiving transducer 5 does not repeat them here referring to the description in above-described embodiment.

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

Corresponding with above-described embodiment one, because the transmission type receiving transducer is two groups in the present embodiment two, so the straight-through quick inserting joint of setting, flexible pipe, mounting hole etc. are two groups accordingly.Straight-through quick inserting joint is connected respectively to, and the straight-through quick inserting joint attachment hole 71 that flat axle as shown in Figure 7 and lower sleeve connecting end arrange, and the mounting hole 72 on the cap ned 7 only identify one group among Fig. 7, and another group is corresponding with it.Lead directly on quick inserting joint and straight-through quick inserting joint attachment hole 71 and the cap ned 7 for being sealing between the mounting hole 72 that stretches into transmission type receiving transducer signaling line.Connect by flexible pipe between two straight-through quick inserting joints, flexible pipe is not shown among the figure, concrete flexible pipe can be selected PU, rubber or PVC, the plastic materials such as PE, flexible pipe can directly not insert in the mounting hole 72 that leads directly on quick inserting joint attachment hole 71 and the cap ned 7 by straight-through quick inserting joint yet, between flexible pipe and straight-through quick inserting joint attachment hole 71 and the mounting hole 72 seal arrangement is set, such as seal ring, seal ring etc.

Be straight-through quick inserting joint on straight-through quick inserting joint attachment hole 71 of signaling line that engage thread is connected, penetrate in the flexible pipe with the transmission type receiving transducer, the straight-through quick inserting joint on the mounting hole 72 on the cap ned 7 is sequentially drawn again; Or anti-order direction is introduced.The signaling line that connects on traditional transmission type receiving transducer is the thread connecting mode of short screwing length; cause directly is exposed in the pure water medium and sealing is difficult to be guaranteed; directly have influence on the test effect; so cooperate flexible pipe to realize protection to signaling line by straight-through quick inserting joint; prevent aqueous medium to its impact that causes, guarantee the test effect.

The separated type double transmission formula probe clip locking structure that the present embodiment provides can be adjusted every group transmission type transmitting probe 4, the position relationship between the transmission type receiving transducer 5 respectively, has improved the detection efficeincy to device.

Separated type double transmission formula probe clip locking structure, the present transmission type receiving transducer of excrescence are easy to mounting or dismounting and change; Do not do the servo-actuated separate arrangement of lifting with the transmitting probe device, can accurately aim at adjustment by the regulative mode of five dimensions; Be in the working environment of pure water medium and can finely tune in real time easily operation; Full sealing apparatus plays good sealing effect; Promote the working efficiency of transmission type high-velocity scanning.

Above-described embodiment is not the exhaustive of embodiment; the embodiment that other also can be arranged; above-described embodiment purpose is to illustrate the present invention, and unrestricted protection scope of the present invention, all application that come by simple change of the present invention all drop in protection scope of the present invention.

This patent specification use-case goes to show the present invention, comprising optimal mode, and those of ordinary skill in the art are made and uses the present invention.This invents delegatable scope and comprises the content of claims and the embodiment in the specification and other embodiment's content.These other examples also should belong to the scope that patent right of the present invention requires, as long as they contain the described technical characteristics of the identical written language of claim, perhaps they include and the similar literal language described technical characteristics of claim without essence difference.

All patents, the full content of patent application and other reference should be incorporated present specification by reference into.If but a term among the application conflicts mutually with the term of including reference in, and is preferential with the application's term.

All scopes disclosed herein all comprise end points, and are to make up independently of one another between the end points.

It should be noted that " first ", " second " or similar vocabulary do not represent any order, and quality or significance just are used for distinguishing different technical characteristicss.The implication that comprises described value and content context appointment in conjunction with the qualifier " approximately " of quantity use.(for example: it includes the error when measuring specific quantity)

Claims (10)

1. a transmission type probe clip locking structure is characterized in that, comprising: pedestal and be fixed thereon transmission type transmitting probe grip unit and transmission type receiving transducer grip unit;

Described transmission type transmitting probe grip unit comprises the slide unit that is connected with described pedestal; Being connected with on the described slide unit can be with respect to the moving slide plate of its slip, and described moving slide plate is provided with clamping device along an end of its glide direction, and described clamping device is used for clamping transmission type transmitting probe;

Described transmission type receiving transducer grip unit is positioned on the pedestal position corresponding to opposite side with respect to described transmission type transmitting probe grip unit; Described transmission type receiving transducer grip unit comprises the upper bush that is equidirectional with the slidably direction of described moving slide plate, reach the lower sleeve with described upper bush socket, the other end of described lower sleeve is connected with the sealing mechanism vertical with described lower sleeve, described sealing mechanism is used for loading the transmission type receiving transducer, and described sealing mechanism is corresponding with the end position that described clamping device is used for clamping transmission type transmitting probe for an end that loads the transmission type receiving transducer.

2. transmission type probe clip locking structure according to claim 1, it is characterized in that, described sealing mechanism comprises be used to the lock sleeve that is socketed on outside the described transmission type receiving transducer, the other end of described lock sleeve is socketed with flat axle, the external diameter of described lock sleeve is vertebral body structure, be connected for hole axle construction between the interior vertebral body structure of the internal diameter of described flat axle for being complementary with described lock sleeve, the other end of described flat axle and described lower sleeve.

3. transmission type probe clip locking structure according to claim 2, it is characterized in that, described lock sleeve is provided with radially grooving for the middle part, position that is socketed described transmission type receiving transducer, with the axial grooving that the middle part of described radially grooving is connected, described axial grooving penetrates into the edge of described lock sleeve.

4. transmission type probe clip locking structure according to claim 2 is characterized in that, described lock sleeve also is provided with locking nut for the end that is socketed described transmission type receiving transducer.

5. transmission type probe clip locking structure according to claim 2 is characterized in that, described lock sleeve and described transmission type receiving transducer be connected the end that flat axle is connected and be respectively arranged with seal ring.

6. transmission type probe clip locking structure according to claim 1 is characterized in that, the socket between described upper bush and the lower sleeve is by arranging the groove structure and positioning with the lock screw of described groove structure to coupling at upper bush or lower sleeve.

7. transmission type probe clip locking structure according to claim 2, it is characterized in that, described transmission type probe clip locking structure also comprises: straight-through quick inserting joint, described straight-through quick inserting joint is connected respectively to the end that described flat axle is connected with described lower sleeve, and is used for stretching into the hole of described transmission type receiving transducer signaling line on the described pedestal; Connect by flexible pipe between two described straight-through quick inserting joints, described flexible pipe is used for wrapping up described transmission receiving transducer signaling line.

8. transmission type probe clip locking structure according to claim 1, it is characterized in that, described clamping device comprises the clamp piece, and described clamp piece pivotally connectedly has a fixture block by first, and described moving fixture block can swing with respect to described clamp piece take described the first pivot as axle;

Described clamp piece is connected with described moving fixture block by link with respect to the other end of described the first pivot;

Be provided with the first groove between the above first pivot of described clamp piece and the described link, be provided with second groove corresponding with described the first groove on the described moving fixture block, the shape that described the first groove and described the second groove surround and the external diameter of described transmission type transmitting probe are complementary, and are used for snapping in described transmission type transmitting probe.

9. a separated type double transmission formula probe clip locking structure is characterized in that, comprising: pedestal and two transmission type transmitting probe grip unit and two transmission type receiving transducer grip unit of being fixed thereon;

Two described transmission type transmitting probe grip unit comprise respectively the slide unit that is connected with described pedestal for be arrangeding in parallel; Also being connected with on the described slide unit can be with respect to the moving slide plate of its slip, and described moving slide plate is provided with clamping device along an end of its glide direction, and described clamping device is used for clamping transmission type transmitting probe;

Two described transmission type receiving transducer grip unit are for be arrangeding in parallel, are positioned on the pedestal position corresponding to opposite side with respect to two described transmission type transmitting probe grip unit; Described transmission type receiving transducer grip unit comprises the upper bush that is equidirectional with the slidably direction of described moving slide plate, reach the lower sleeve with described upper bush socket, the other end of described lower sleeve is connected with the sealing mechanism vertical with described lower sleeve, described sealing mechanism is used for loading the transmission type receiving transducer, and described sealing mechanism is corresponding with the end position that described clamping device is used for clamping transmission type transmitting probe for an end that loads the transmission type receiving transducer.

10. transmission type probe clip locking structure according to claim 9, it is characterized in that, two described transmission type receiving transducer grip unit are connected with described pedestal by cap ned, described pedestal is connected with the I shape top of cap ned, and two described transmission type receiving transducer grip unit connect respectively at the I shape bottom of cap ned.

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