CN208688454U - The device of auxiliary ultrasonic thickness meter probe thickness measuring - Google Patents

Abstract

The utility model discloses a kind of devices of auxiliary ultrasonic thickness meter probe thickness measuring, it is related to sonigauge technical field, its key points of the technical solution are that including pedestal and being vertically fixed in the mounting rack of pedestal, connecting plate is provided in the mounting rack, the connecting plate vertically slides and is connected to mounting rack, is provided on the mounting rack and is drivingly connected the mobile actuator of plate；The fixed mechanism for fixed probe is provided on the connecting plate, the fixed mechanism includes the first fixture block and the second fixture block, and first fixture block and the second fixture block are connected to connecting plate along the length direction sliding of connecting plate；Be provided on the connecting plate driving the first fixture block and the second fixture block it is close to each other or far from sliding driving assembly.The utility model solves the problems, such as to cannot ensure that probe is vertical with testee, has achieved the effect that may insure that probe is vertical with testee.

Description

The device of auxiliary ultrasonic thickness meter probe thickness measuring

Technical field

The utility model relates to sonigauge technical fields, more specifically, it is related to a kind of auxiliary ultrasonic survey The device of thick instrument probe thickness measuring.

Background technique

Sonigauge is to carry out thickness measure according to Ultrasonic Pulse-Echo principle, when the ultrasound of probe transmitting When wave impulse reaches material interface by testee, pulse is reflected back toward probe and passes through precise measurement ultrasonic wave in the material The time of propagation determines the thickness of measured material.All a variety of materials that ultrasonic wave can be made to propagate inside it with a constant speed The measurement of this principle can be used.

The prior art can refer to the Chinese utility model patent that Authorization Notice No. is CN205246024U, and it discloses one kind Sonigauge, including body and two parts of popping one's head in, are provided with ultrasonic transmission device in the body；The ultrasound The end of wave transmitting device is connected to the top of probe；Needle tube type is set as at the top of the probe；The ultrasonic wave hair Ultrasonic probe, ultrasonic receiver is provided on the right side of injection device；The ultrasonic probe, ultrasonic receiver and ultrasonic transmission device is all connected to Singlechip chip；The periphery of the probe is provided with shield, and structure is simple, easy to use, easy to operate, production letter Single, long service life, amplified signal multiple increases susceptibility, reduces error, accuracy is high, strong antijamming capability.

As shown in Figure 1, a kind of probe 1 of sonigauge, including probe body 11 and interconnecting piece 12.

But above equipment is in thickness measuring, is mostly that man-hour manually hand-held probe carries out thickness measuring；Thickness measuring is being carried out using normal probe When, it is desirable that normal probe is perpendicular to tested surface；It is measured using artificial hand hold transducer, it is difficult to ensure that it is vertical with testee to pop one's head in Directly.

Utility model content

In view of the deficienciess of the prior art, the purpose of this utility model is to provide a kind of spies of auxiliary ultrasonic calibrator The device of head thickness measuring is not required to man-hour manually hand-held probe and measures, it can be ensured that probe is vertical with testee.

To achieve the above object, the utility model provides following technical solution: a kind of auxiliary ultrasonic thickness meter probe The device of thickness measuring is provided with connecting plate, the company in the mounting rack including pedestal and the vertical mounting rack for being fixed in pedestal Fishplate bar vertically slides and is connected to mounting rack, is provided on the mounting rack and is drivingly connected the mobile actuator of plate；The connection It is provided with the fixed mechanism for fixed probe on plate, the fixed mechanism includes the first fixture block and the second fixture block, and described first Fixture block and the second fixture block are connected to connecting plate along the length direction sliding of connecting plate；Driving first is provided on the connecting plate Fixture block and the second fixture block it is close to each other or far from sliding driving assembly.

By using above-mentioned technical proposal, object under test is put on pedestal, probe body is put into the first fixture block and It between two fixture blocks and abuts the interconnecting piece on probe with the roof of the first fixture block and the second fixture block respectively, is driven by driving assembly Dynamic first fixture block and the second fixture block are close to each other, probe body can be clamped, and can reduce that probe shakes in this way can It can property；After probe body is clamped, by actuator be drivingly connected plate move down, connecting plate move down drive probe to Lower movement, can be such that probe body contacts with object under test in this way；The top of interconnecting piece and the first fixture block and the second fixture block on probe Wall abuts, and after clamping device clamps probe body, probe body is just in a vertical state, may insure probe body in this way It is vertical with testee.

The utility model is further arranged to: the actuator is the first lead screw, and first threads of lead screw is connected to peace It shelves, the roof of one end protrusion mounting rack of first lead screw is arranged and is connected with the first handwheel；First lead screw is separate One end of first handwheel is through mounting rack and extension straight down is rotatablely connected with connecting plate.

By using above-mentioned technical proposal, by rotating first the first lead screw of hand wheel rotating, the first lead screw is in rotation process Middle drive connecting plate vertically moves, simple, convenient in this way.

The utility model is further arranged to: the driving component includes the fixed frame for being fixed in connecting plate roof, affixed In two guide rails in fixed frame and it is rotationally connected with the second lead screw of fixed frame；Second lead screw and two equal edges of guide rail The length direction of connecting plate is arranged, and first fixture block and the second fixture block are connected to two along the length direction sliding of connecting plate Guide rail；Second lead screw includes symmetrically arranged left-hand thread section and right-hand thread section, and first fixture block is threadedly connected to left spiral shell Line section, second fixture block are threadedly connected to right-hand thread section, and the side outer wall of fixed frame is run through simultaneously in one end of second lead screw And it is connected with the rotating member of driving the second lead screw rotation.

By using above-mentioned technical proposal, the second lead screw, the second lead screw rotate driving first are rotated by rotation rotating member Fixture block is mobile, meanwhile, second the second fixture block of lead screw rotate driving is mobile towards the direction opposite with the first fixture block, can make first in this way Fixture block and the second fixture block are close to each other or separate, the first fixture block and the second fixture block it is close to each other can by probe clamp, first Fixture block and the second fixture block are located remotely from each other and can remove probe, thus are easily installed and unload in this way probe.

The utility model is further arranged to: the first arc groove, corresponding first arc groove are offered on first fixture block The second arc groove is offered on the second fixture block.

By using above-mentioned technical proposal, the first arc groove and the second arc groove surround probe body rest area, so just In the placement of probe.

The utility model is further arranged to: being provided with protective layer on the first arc groove and the second arc groove.

By using above-mentioned technical proposal, protective layer can play protective action to probe body, can extend spy in this way The service life of head.

The utility model is further arranged to: two relative inners of the mounting rack offer sliding slot, the company respectively The both ends of fishplate bar have been respectively and fixedly connected with the first sliding block, and vertically sliding is connected to two sliding slots to two first sliding blocks respectively.

By using above-mentioned technical proposal, sliding slot has guiding role to the first sliding block, can reduce connecting plate in this way and exist A possibility that vertically deviateing in slipping.

The utility model is further arranged to: first fixture block is connected with second far from one end of the first arc groove and slides Block, second fixture block are connected with third sliding block far from one end of the second arc groove；Second sliding block and third sliding block cover Two guide rails are connected to, the both ends of second sliding block are connected to two guide rails along the length direction sliding of connecting plate respectively, described The both ends of third sliding block are connected to two guide rails along the length direction sliding of connecting plate respectively.

By using above-mentioned technical proposal, two guide rails have guiding role to the second sliding block and third sliding block, in this way may be used A possibility that being deviateed along the length direction slipping of connecting plate with the first fixture block of reduction and second clamping plate；Two guide rails There is position-limiting action to the second sliding block and third sliding block, can prevent the first fixture block and the second fixture block together with the second lead screw in this way Rotation.

The utility model is further arranged to: the rotating member is the second handwheel.

By using above-mentioned technical proposal, is rotated by the second lead screw of second-hand's wheel drive, operator can be reduced in this way The labor intensity of member.

In conclusion the utility model has the advantages that compared with the prior art

1. object under test is put on pedestal, probe body is put between the first fixture block and the second fixture block and is made on probe Interconnecting piece abutted respectively with the roof of the first fixture block and the second fixture block, pass through driving assembly and drive the first fixture block and the second fixture block It is close to each other, probe body can be clamped, a possibility that probe shakes can be reduced in this way；It is clamped when by probe body Afterwards, it is drivingly connected plate by actuator to move down, connecting plate moves down drive probe and moves down, and can make probe so originally Body is contacted with object under test；Interconnecting piece on probe is abutted with the roof of the first fixture block and the second fixture block, when clamping device will be visited After head ontology clamps, probe body is just in a vertical state, may insure that probe body is vertical with testee in this way；

2. rotating the second lead screw by rotation rotating member, second the first fixture block of lead screw rotate driving is mobile, meanwhile, second The second fixture block of thick stick rotate driving is mobile towards the direction opposite with the first fixture block, and the first fixture block and the second fixture block can so mutually leaned on It is close or separate, the first fixture block and the second fixture block it is close to each other can by probe clamp, the first fixture block and the second fixture block are mutually remote From can remove probe, thus it is easily installed and unloads in this way probe；

3. two guide rails have guiding role to the second sliding block and third sliding block, the first fixture block and second can be reduced in this way A possibility that clamping plate deviates along the length direction slipping of connecting plate；Two guide rails are to the second sliding block and third sliding block With position-limiting action, the first fixture block and the second fixture block can be prevented to rotate together with the second lead screw in this way.

Detailed description of the invention

Fig. 1 is the structural schematic diagram of probe；

Fig. 2 is the overall structure diagram of embodiment；

Fig. 3 is to highlight the structural schematic diagram that the first lead screw is connect with connecting plate in embodiment；

Fig. 4 is the structural schematic diagram that fixed mechanism is highlighted in embodiment；

Fig. 5 is the structural schematic diagram that the second lead screw is highlighted in embodiment.

In figure: 1, popping one's head in；11, probe body；12, interconnecting piece；2, pedestal；3, mounting rack；31, sliding slot；4, connecting plate； 41, the first sliding block；5, the first lead screw；51, the first handwheel；6, fixed mechanism；61, the first fixture block；611, the second sliding block；612, One arc groove；613, protective layer；62, the second fixture block；621, third sliding block；622, the second arc groove；63, driving assembly；631, Fixed frame；632, guide rail；633, the second lead screw；6331, left-hand thread section；6332, right-hand thread section；6333, the second handwheel.

Specific embodiment

The utility model is described in further detail with reference to the accompanying drawing.The wherein identical attached drawing of identical components Label indicates.It should be noted that word "front", "rear" used in the following description, "left", "right", "up" and "down" refer to It is the direction in attached drawing, word " bottom surface " and " top surface ", "inner" and "outside" are referred respectively to towards or away from particular elements geometry The direction at center.

Embodiment: a kind of device of auxiliary ultrasonic thickness meter probe thickness measuring, as shown in Fig. 2, including pedestal 2 and vertically It is fixed in the mounting rack 3 of pedestal 2, connecting plate 4 is provided in mounting rack 3, connecting plate 4 vertically slides and is connected to mounting rack 3, peace It shelves to be provided on 3 and is drivingly connected the mobile actuator of plate 4；The fixed mechanism 6 for fixed probe 1 is provided on connecting plate 4. Object under test is put on pedestal 2, clamped probe body 11 by fixed mechanism 6 and probe body 11 is made to be in vertical shape Then state is drivingly connected plate 4 by actuator and moves down, connecting plate 4, which moves down, can make probe body 11 and object under test Contact, can measure work in this way.

As shown in figure 3, actuator is the first lead screw 5, the first lead screw 5 is threadedly connected to mounting rack 3, the one of the first lead screw 5 The roof of end protrusion mounting rack 3 is arranged and is connected with the first handwheel 51；The one end of first lead screw 5 far from the first handwheel 51 is through peace It shelves 3 and extends straight down and be rotatablely connected with connecting plate 4.By rotation the first handwheel 51 rotate the first lead screw 5, first Thick stick 5 drives connecting plate 4 vertically to move during rotation, simple, convenient in this way.

As shown in figure 3, two relative inners of mounting rack 3 offer sliding slot 31 respectively, the both ends of connecting plate 4 are respectively and fixedly connected with There is the first sliding block 41, vertically sliding is connected to two sliding slots 31 to two the first sliding blocks 41 respectively.Sliding slot 31 is to the first sliding block 41 With guiding role, a possibility that connecting plate 4 deviates in vertically slipping can be reduced in this way.

As shown in figure 4, fixed mechanism 6 includes the first fixture block 61 and the second fixture block 62, the first fixture block 61 and the second fixture block 62 Connecting plate 4 is connected to along the length direction sliding of connecting plate 4；The first fixture block of driving 61 and the second folder are provided on connecting plate 4 Block 62 is close to each other or far from the driving assembly 63 slided.The first fixture block 61 and the second fixture block 62 are driven by driving assembly 63 It is close to each other, probe body 11 can be clamped, a possibility that probe 1 shakes can be reduced in this way.

As shown in Figure 4 and Figure 5, driving assembly 63 includes the fixed frame 631 for being fixed in 4 roof of connecting plate, is fixed in fixation Two guide rails 632 in frame 631 and the second lead screw 633 for being rotationally connected with fixed frame 631；Second lead screw 633 and two lead Rail 632 is arranged along the length direction of connecting plate 4, and the first fixture block 61 and the second fixture block 62 are sliding along the length direction of connecting plate 4 Shifting is connected to two guide rails 632；Second lead screw 633 include symmetrically arranged left-hand thread section 6331 and right-hand thread section 6332, first Fixture block 61 is threadedly connected to left-hand thread section 6331, and the second fixture block 62 is threadedly connected to right-hand thread section 6332, and the one of the second lead screw 633 End runs through the side outer wall of fixed frame 631 and is connected with the rotating member of driving the second lead screw 633 rotation, and rotating member is second-hand Wheel 6333.The second lead screw 633 is rotated by the second handwheel 6333 of rotation, 633 the first fixture block of rotate driving 61 of the second lead screw is mobile, Meanwhile 633 the second fixture block of rotate driving 62 of the second lead screw is mobile towards the direction opposite with the first fixture block 61, can make the first folder in this way Block 61 and the second fixture block 62 are close to each other or separate, the first fixture block 61 and the second fixture block 62 is close to each other can press from both sides probe 1 Tightly, the first fixture block 61 and the second fixture block 62 are located remotely from each other and can remove probe 1, thus are easily installed and unload in this way probe 1.

As shown in figure 4, the first fixture block 61 is connected with the second sliding block 611, the second fixture block far from one end of the first arc groove 612 62 one end far from the second arc groove 622 are connected with third sliding block 621；Second sliding block 611 and third sliding block 621 are socketed on two A guide rail 632, the both ends of the second sliding block 611 are connected to two guide rails 632, third along the length direction sliding of connecting plate 4 respectively The both ends of sliding block 621 are connected to two guide rails 632 along the length direction sliding of connecting plate 4 respectively.Two guide rails 632 are sliding to second Block 611 and third sliding block 621 have guiding role, can reduce the first fixture block 61 and second clamping plate in this way along the length of connecting plate 4 A possibility that deviateing in degree direction slipping；Two guide rails 632 have limit to the second sliding block 611 and third sliding block 621 Position effect, can prevent the first fixture block 61 and the second fixture block 62 from rotating together with the second lead screw 633 in this way.

As shown in figure 4, offering the first arc groove 612 on the first fixture block 61, corresponding first arc groove 612 is in the second fixture block The second arc groove 622 is offered on 62, the first arc groove 612 and the second arc groove 622 surround 11 rest area of probe body, in this way Convenient for the placement of probe 1.It is provided with protective layer 613 on first arc groove 612 and the second arc groove 622, protective layer 613 can be with Protective action is played to probe body 11, the service life of probe 1 can be extended in this way.

The application method of the device of this kind of auxiliary ultrasonic thickness meter probe thickness measuring is as follows:

Object under test is put on pedestal 2, probe body 11 is put between the first fixture block 61 and the second fixture block 62 and is made Interconnecting piece 12 on probe 1 is abutted with the roof of the first fixture block 61 and the second fixture block 62 respectively, by rotating the second handwheel 6333 Rotating the second lead screw 633,633 the first fixture block of rotate driving 61 of the second lead screw is mobile, meanwhile, 633 rotate driving of the second lead screw the Two fixture blocks 62 are moved towards the direction opposite with the first fixture block 61, can make the first fixture block 61 and the general close to each other of the second fixture block 62 in this way Probe 1 clamps；When will pop one's head in 1 clamp after, by rotation the first handwheel 51 rotate the first lead screw 5, the first lead screw 5 is in rotation process Middle drive connecting plate 4 moves down, and connecting plate 4 moves down drive probe and 1 moves down, can make in this way probe body 11 with to Object contact is surveyed, the interconnecting piece 12 on probe 1 is abutted with the roof of fixture block, after probe body 11 is clamped by clamping device, Probe body 11 is just in a vertical state, may insure that probe body 11 is vertical with testee in this way.

The above is only the preferred embodiment of the utility model, and the protection scope of the utility model is not limited merely to Above-described embodiment, technical solution belonging to the idea of the present invention belong to the protection scope of the utility model.It should refer to Out, for those skilled in the art, it is without departing from the principle of the utility model it is several improvement and Retouching, these improvements and modifications also should be regarded as the protection scope of the utility model.

Claims (8)

1. a kind of device of auxiliary ultrasonic thickness meter probe thickness measuring, it including pedestal (2) and is vertically fixed in the peace of pedestal (2) Shelve (3), it is characterised in that: be provided with connecting plate (4) in the mounting rack (3), the connecting plate (4) vertically slides connection Plate (4) mobile actuator is drivingly connected in being provided on mounting rack (3), the mounting rack (3)；It is set on the connecting plate (4) It is equipped with the fixed mechanism (6) for fixed probe (1), the fixed mechanism (6) includes the first fixture block (61) and the second fixture block (62), first fixture block (61) and the second fixture block (62) are connected to connecting plate along the length direction sliding of connecting plate (4) (4)；It is provided with driving the first fixture block (61) on the connecting plate (4) and the second fixture block (62) is close to each other or far from sliding Driving assembly (63).

2. the device of auxiliary ultrasonic thickness meter probe thickness measuring according to claim 1, it is characterised in that: the actuator For the first lead screw (5), first lead screw (5) is threadedly connected to mounting rack (3), and peace is protruded in one end of first lead screw (5) It shelves the roof setting of (3) and is connected with the first handwheel (51)；First lead screw (5) is passed through far from the one end of the first handwheel (51) It wears mounting rack (3) and extends straight down and be rotatablely connected with connecting plate (4).

3. the device of auxiliary ultrasonic thickness meter probe thickness measuring according to claim 1, it is characterised in that: the driving group Part (63) includes being fixed in the fixed frame (631) of connecting plate (4) roof, two guide rails (632) being fixed in fixed frame (631) And it is rotationally connected with the second lead screw (633) of fixed frame (631)；Second lead screw (633) and two equal edges of guide rail (632) The length direction of connecting plate (4) is arranged, and first fixture block (61) and the second fixture block (62) are along the length direction of connecting plate (4) Sliding is connected to two guide rails (632)；Second lead screw (633) includes symmetrically arranged left-hand thread section (6331) and right-hand thread Section (6332), first fixture block (61) are threadedly connected to left-hand thread section (6331), and second fixture block (62) is threadedly connected to Right-hand thread section (6332), one end of second lead screw (633) run through the side outer wall of fixed frame (631) and are connected with driving The rotating member of second lead screw (633) rotation.

4. the device of auxiliary ultrasonic thickness meter probe thickness measuring according to claim 3, it is characterised in that: first folder It is offered on block (61) the first arc groove (612), corresponding first arc groove (612) offer the second arc on the second fixture block (62) Shape slot (622).

5. the device of auxiliary ultrasonic thickness meter probe thickness measuring according to claim 4, it is characterised in that: first arc Protective layer (613) are provided on shape slot (612) and the second arc groove (622).

6. the device of auxiliary ultrasonic thickness meter probe thickness measuring according to claim 1, it is characterised in that: the mounting rack (3) two relative inners offer sliding slot (31) respectively, and the both ends of the connecting plate (4) have been respectively and fixedly connected with the first sliding block (41), vertically sliding is connected to two sliding slots (31) to two first sliding blocks (41) respectively.

7. the device of auxiliary ultrasonic thickness meter probe thickness measuring according to claim 3, it is characterised in that: first folder Block (61) is connected with the second sliding block (611) far from the one end of the first arc groove (612), and second fixture block (62) is far from the second arc One end of shape slot (622) is connected with third sliding block (621)；Second sliding block (611) and third sliding block (621) are socketed on two A guide rail (632), the both ends of second sliding block (611) are connected to two along the length direction sliding of connecting plate (4) respectively and lead Rail (632), the both ends of the third sliding block (621) are connected to two guide rails along the length direction sliding of connecting plate (4) respectively (632)。

8. the device of auxiliary ultrasonic thickness meter probe thickness measuring according to claim 3, it is characterised in that: the rotating member For the second handwheel (6333).