CN208860395U - Auxiliary device for concrete and reinforcing bar inspection - Google Patents

Abstract

The utility model discloses a kind of auxiliary devices for concrete and reinforcing bar inspection, it is related to concrete and reinforcing bar inspection technical field, its key points of the technical solution are that including pedestal and multiple idler wheels, transverse-moving mechanism is provided on pedestal, transverse-moving mechanism includes horizontal support, cross slide and traversing driving assembly；Vertical shift mechanism is installed, vertical shift mechanism includes longitudinal carrier, longitudinal slide and vertical shift driving assembly on cross slide；Vertical shift mechanism is provided on longitudinal slide, vertical shift mechanism includes vertical supports, vertical slide and vertical shift driving assembly；Vertical slide is connected with mounting plate far from the side of vertical supports, and the fixed mechanism for fixed test sensor is provided on mounting plate.The utility model solves the problems, such as that detection sensor is damaged because from falling off on hand for testing staff, has achieved the effect that will test sensor fixes.

Description

Auxiliary device for concrete and reinforcing bar inspection

Technical field

The utility model relates to concrete and reinforcing bar inspection technical fields, more specifically, it is related to one kind for coagulation The auxiliary device of native reinforced bar detection instrument.

Background technique

Concrete and reinforcing bar inspection is to reinforcing bar in construction of structures (building and structures are collectively referred to as) concrete component Detection comprising inside concrete bar diameter, position, distribution, concrete cover to reinforcement thickness and reinforcing bar corrosion journey The functions such as degree.

The prior art can refer to the Chinese utility model patent that Authorization Notice No. is CN203940880U, and it discloses one kind Portable reinforcing steel bar concrete NDT instrument, including processor and armored concrete detection sensor, armored concrete detection sensor Data transmission be will test to processor, the processor is smart phone or portable computer；The portable computer is notes This computer or tablet computer.

As shown in Figure 1, a kind of armored concrete detector 1, including processor 11 and detection sensor 12.

It is typically now by operator but when armored concrete detector detects the reinforcing bar in wall Hand-held detection sensor carries out, and is detected by hand-held detection sensor to the intracorporal reinforcing bar of wall, detection sensor may It falls off from manpower, is likely to result in the damage of detection sensor in this way.

Utility model content

It is detected in view of the deficienciess of the prior art, the purpose of this utility model is to provide one kind for concrete reinforcement The auxiliary device of instrument can be fixed detection sensor and detection sensor can be driven to survey the different location of wall Amount, can fall to ground in this way to avoid detection sensor, thus can reduce a possibility that detection sensor is damaged.

To achieve the above object, the utility model provides following technical solution: one kind is for concrete and reinforcing bar inspection Auxiliary device, including pedestal and be installed on multiple idler wheels of pedestal, be provided with transverse-moving mechanism on the pedestal, it is described traversing Mechanism include the horizontal support for being fixed in pedestal, along pedestal length direction sliding be connected to horizontal support cross slide and The traversing driving assembly for driving cross slide mobile；Vertical shift mechanism is installed, the vertical shift mechanism includes on the cross slide It is fixed in the longitudinal carrier of cross slide, is connected to longitudinal slide and the driving of longitudinal carrier along the width direction sliding of pedestal The mobile vertical shift driving assembly of longitudinal slide；Vertical shift mechanism is provided on the longitudinal direction slide, the vertical shift mechanism includes vertical It is fixed in the vertical supports of longitudinal slide, vertically slides the vertical slide for being connected to vertical supports and the vertical slide shifting of driving Dynamic vertical shift driving assembly；The vertical slide is connected with mounting plate far from the side of vertical supports, is arranged on the mounting plate There is the fixed mechanism for fixed test sensor.

By using above-mentioned technical proposal, sensor will test by fixed mechanism and fix；It is driven by traversing driving assembly Dynamic cross slide is moved along the length direction of pedestal, and cross slide is moved along the length direction of pedestal drives detection sensor the bottom of along The length direction of seat is mobile；Longitudinal slide is driven to move along the width direction of pedestal by vertical shift driving assembly, longitudinal slide edge The width direction of pedestal is mobile to drive detection sensor to move along the width direction of pedestal；It is vertical by the driving of vertical shift driving assembly Slide vertically moves, and vertical slide is vertically mobile to drive detection sensor vertically to move；In conclusion can be to detection Sensor is fixed and detection sensor can be driven to measure the different location of wall, thus can reduce detection sensing A possibility that device is damaged.

The utility model is further arranged to: the traversing driving assembly includes being respectively and fixedly connected with the both ends inside horizontal support Cross slide way, be rotationally connected with horizontal support horizontal leading screw and driving horizontal leading screw rotation the first handwheel；The cross Direction guiding rail is horizontally disposed and is arranged along the length direction of pedestal；Two cross slide ways extend through the two of cross slide End, the both ends of the cross slide slide respectively is connected to two cross slide ways；The horizontal leading screw is threadedly connected to lateral cunning Seat.

By using above-mentioned technical proposal, by rotating the first hand wheel rotating horizontal leading screw, horizontal leading screw rotate driving is horizontal Length direction to slide along pedestal moves, and cross slide is moved along the length direction of pedestal drives detection sensor along pedestal Length direction is mobile, the movement of detection sensor can be made more accurate in this way.

The utility model is further arranged to: the vertical shift driving assembly includes being respectively and fixedly connected with the both ends inside longitudinal carrier Longitudinal rail, be rotationally connected with longitudinal carrier longitudinal leadscrew and driving longitudinal leadscrew rotation the second handwheel；It is described vertical Direction guiding rail is horizontally disposed and is arranged along the width direction of pedestal；Two longitudinal rails extend through the two of longitudinal slide End, the both ends of the longitudinal direction slide slide respectively is connected to two longitudinal rails；The longitudinal leadscrew is threadedly connected to longitudinal cunning Seat.

By using above-mentioned technical proposal, by rotating the second hand wheel rotating longitudinal leadscrew, longitudinal leadscrew rotate driving is vertical Width direction to slide along pedestal moves, and longitudinal slide is moved along the width direction of pedestal drives detection sensor along pedestal Width direction is mobile, the movement of detection sensor can be made more accurate in this way.

The utility model is further arranged to: the vertical shift driving assembly includes being respectively and fixedly connected with the both ends inside vertical supports Vertical guide, the vertical lead screw for being rotationally connected with vertical supports and the third handwheel of driving vertical lead screw rotation；It is described perpendicular Direction guiding rail is vertically arranged；Two vertical guides extend through the both ends of vertical slide, the both ends difference of the vertical slide Sliding is connected to two vertical guides；The vertical threads of lead screw is connected to vertical slide.

By using above-mentioned technical proposal, by rotating the vertical lead screw of third hand wheel rotating, vertical lead screw rotate driving is perpendicular It is vertically moved to slide, vertical slide is vertically mobile to drive detection sensor vertically to move, and detection can in this way passed The movement of sensor is more accurate.

The utility model is further arranged to: the fixed mechanism includes being fixed in level board at the top of mounting plate, respectively Vertically it is fixed in the riser at both ends and the fixation kit for detection sensor to be fixed at the top of level board.

By using above-mentioned technical proposal, it will test sensor and put between two risers, will test by fixation kit Sensor is fixed, and can reduce a possibility that detection sensor is damaged because falling to ground in this way.

The utility model is further arranged to: the fixation kit include along level board length direction sliding be connected to water The pull rod of plate, is fixed in the handle of the pull rod other end and is socketed on the spring of pull rod the abutting block for being fixed in pull rod one end； The abutting block is between two risers, and the abutting block is connected to level board along the length direction sliding of level board； The both ends of the spring are respectively and fixedly connected in abutting block and riser.

By using above-mentioned technical proposal, by pulling handle to drive pull rod to mobile close to the direction of riser, pull rod to It is mobile close to the mobile direction for driving abutting block to close riser in the direction of riser, spring can be compressed in this way, at this time Spring is in confined state, then will test sensor and is put between two risers, release handle, and spring, which pushes, at this time abuts Block will test sensor compression, just will test sensor in this way and fixes.

The utility model is further arranged to: offered on the riser for pull rod along level board length direction slide First sliding groove.

By using above-mentioned technical proposal, first sliding groove has guiding role to pull rod, can reduce pull rod in this way on edge A possibility that deviateing in the length direction slipping of level board.

The utility model is further arranged to: the bottom for abutting block is connected with sliding block, offers on the level board The second sliding slot slid for sliding block along the length direction of level board.

By using above-mentioned technical proposal, second sliding slot has guiding role to sliding block, can reduce abutting block in this way and exist A possibility that deviateing along the length direction slipping of level board.

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

1. will test sensor by fixed mechanism to fix；Drive cross slide along the length of pedestal by traversing driving assembly It is mobile to spend direction, cross slide is moved along the length direction of pedestal drives detection sensor to move along the length direction of pedestal；It is logical Crossing vertical shift driving assembly drives longitudinal slide to move along the width direction of pedestal, and longitudinal slide moves band along the width direction of pedestal Dynamic detection sensor is moved along the width direction of pedestal；Vertical slide is driven vertically to move by vertical shift driving assembly, vertically Slide is vertically mobile to drive detection sensor vertically to move；In conclusion detection sensor can be fixed and can Driving detection sensor measures the different location of wall, thus can reduce the possibility that detection sensor is damaged Property；

2. pull rod is to close to the mobile band in the direction of riser by pulling handle to drive pull rod to close to the movement of the direction of riser The dynamic block that abuts can compress spring, spring is in confined state at this time, so in this way to close to the movement of the direction of riser After will test sensor and be put between two risers, release handle, spring, which pushes, at this time abuts block and will test sensor compression, this Sample just will test sensor and fix；

3. second sliding slot has guiding role to sliding block, it is sliding in the length direction along level board that abutting block can be reduced in this way A possibility that deviateing during moving.

Detailed description of the invention

Fig. 1 is the structural schematic diagram of armored concrete detector；

Fig. 2 is the overall structure diagram of embodiment；

Fig. 3 is the structural schematic diagram that transverse-moving mechanism, vertical shift mechanism and vertical shift mechanism are highlighted in embodiment；

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

In figure: 1, armored concrete detector；11, processor；12, detection sensor；2, pedestal；21, idler wheel；3, traversing Mechanism；31, horizontal support；32, cross slide；33, traversing driving assembly；331, cross slide way；332, horizontal leading screw；333, One handwheel；4, vertical shift mechanism；41, longitudinal carrier；42, longitudinal slide；43, vertical shift driving assembly；431, longitudinal rail；432, it indulges To lead screw；433, the second handwheel；5, vertical shift mechanism；51, vertical supports；52, vertical slide；53, vertical shift driving assembly；531, it erects Direction guiding rail；532, vertical lead screw；533, third handwheel；6, mounting plate；7, fixed mechanism；71, level board；711, second sliding slot； 72, riser；721, first sliding groove；73, fixation kit；731, pull rod；732, block is abutted；7321, sliding block；733, handle；734, Spring.

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 auxiliary device for concrete and reinforcing bar inspection, as shown in Fig. 2, including pedestal 2, being installed on Multiple idler wheels 21, transverse-moving mechanism 3, vertical shift mechanism 4, vertical shift mechanism 5 and the fixed mechanism 7 of pedestal 2；It will by fixed mechanism 7 Detection sensor 12 is fixed, then drives detection sensor 12 to move along the length direction of pedestal 2 by transverse-moving mechanism 3, vertical shift The driving of mechanism 4 detection sensor 12 is moved along the width direction of pedestal 2 and vertical shift mechanism 5 drives detection sensor 12 vertically It is mobile, detection sensor 12 can be fixed in this way and detection sensor 12 can be driven to survey the different location of wall Amount, thus a possibility that detection sensor 12 is damaged because falling to ground can be reduced.

As shown in figure 3, transverse-moving mechanism 3 includes the horizontal support 31 for being fixed in pedestal 2, the length direction sliding along pedestal 2 It is connected to the cross slide 32 of horizontal support 31 and the traversing driving assembly 33 that driving cross slide 32 is mobile；Traversing driving group Part 33 includes the transverse direction for being respectively and fixedly connected with the cross slide way 331 in 31 inside both ends of horizontal support, being rotationally connected with horizontal support 31 The first handwheel 333 that lead screw 332 and driving horizontal leading screw 332 rotate；Cross slide way 331 is horizontally disposed and along pedestal 2 Length direction setting；Two cross slide ways 331 extend through the both ends of cross slide 32, and the both ends of cross slide 32 slide respectively It is connected to two cross slide ways 331；Horizontal leading screw 332 is threadedly connected to cross slide 32.Pass through rotation the first handwheel 333 rotation Horizontal leading screw 332,332 rotate driving cross slide 32 of horizontal leading screw are moved along the length direction of pedestal 2, and cross slide 32 is the bottom of along The length direction of seat 2 is mobile to drive detection sensor 12 to move along the length direction of pedestal 2, can make detection sensor 12 in this way Movement it is more accurate.

As shown in figure 3, being equipped with vertical shift mechanism 4 on cross slide 32, vertical shift mechanism 4 includes being fixed in cross slide 32 Longitudinal carrier 41, the longitudinal slide 42 and the longitudinal slide of driving that longitudinal carrier 41 is connected to along the width direction sliding of pedestal 2 42 mobile vertical shift driving assemblies 43；Vertical shift driving assembly 43 includes being respectively and fixedly connected with to lead in the longitudinal direction at 41 inside both ends of longitudinal carrier The second handwheel 433 that rail 431, the longitudinal leadscrew 432 for being rotationally connected with longitudinal carrier 41 and driving longitudinal leadscrew 432 rotate； Longitudinal rail 431 is horizontally disposed and is arranged along the width direction of pedestal 2；Two longitudinal rails 431 extend through longitudinal slide 42 both ends, the both ends of longitudinal slide 42 slide respectively is connected to two longitudinal rails 431；Longitudinal leadscrew 432 is threadedly connected to Longitudinal slide 42.Longitudinal leadscrew 432,432 rotate driving longitudinal direction slide of longitudinal leadscrew, 42 edge are rotated by the second handwheel 433 of rotation The width direction of pedestal 2 is mobile, and longitudinal slide 42 is moved along the width direction of pedestal 2 drives detection sensor 12 along pedestal 2 Width direction is mobile, the movement of detection sensor 12 can be made more accurate in this way.

As shown in figure 3, being provided with vertical shift mechanism 5 on longitudinal slide 42, vertical shift mechanism 5 includes vertically being fixed in longitudinal slide 42 vertical supports 51, vertically sliding are connected to the vertical slide 52 of vertical supports 51 and drive the vertical movement of slide 52 Vertical shift driving assembly 53；Vertical shift driving assembly 53 includes being respectively and fixedly connected with the vertical guide 531 in 51 inside both ends of vertical supports, turning The third handwheel 533 that the dynamic vertical lead screw 532 for being connected to vertical supports 51 and the vertical lead screw 532 of driving rotate；Vertical guide 531 are vertically arranged；Two vertical guides 531 extend through the both ends of vertical slide 52, and the both ends of vertical slide 52 slide respectively It is connected to two vertical guides 531；Vertical lead screw 532 is threadedly connected to vertical slide 52.It is rotated by rotation third handwheel 533 Vertical lead screw 532, the vertical vertical slide 52 of 532 rotate driving of lead screw vertically move, and vertical slide 52 is vertically mobile to be driven Detection sensor 12 vertically moves, and the movement of detection sensor 12 can be made more accurate in this way.

As shown in Figure 2 and Figure 4, vertical slide 52 is connected with mounting plate 6 far from the side of vertical supports 51, on mounting plate 6 It is provided with the fixed mechanism 7 for fixed test sensor 12；Fixed mechanism 7 includes the level board for being fixed in 6 top of mounting plate 71, the riser 72 for being fixed in 71 top both ends of level board and the fixation for detection sensor 12 to be fixed are respectively perpendicular Component 73；Fixation kit 73 include along level board 71 length direction sliding be connected to level board 71 pull rod 731, be fixed in drawing The abutting block 732 of 731 one end of bar is fixed in the handle 733 of 731 other end of pull rod and is socketed on the spring 734 of pull rod 731； The first sliding groove 721 slid for pull rod 731 along the length direction of level board 71 is offered on riser 72；It abuts block 732 and is in two Between a riser 72, and abuts block 732 and be connected to level board 71 along the length direction sliding of level board 71；The two of spring 734 End is respectively and fixedly connected in abutting block 732 and riser 72.By pulling handle 733 that pull rod 731 is driven to move to the direction close to riser 72 Dynamic, pull rod 731 abuts block 732 to mobile close to the direction of riser 72 to close to mobile drive in the direction of riser 72, in this way can be with Spring 734 is compressed, spring 734 is in confined state at this time, then will test sensor 12 and is put into two risers 72 Between, release handle 733, spring 734 pushes abutting block 732 to will test the compression of sensor 12 at this time, just will test sensing in this way Device 12 is fixed.

As shown in figure 4, the bottom for abutting block 732 is connected with sliding block 7321, offered on level board 71 for 7321 edge of sliding block The second sliding slot 711 of the length direction sliding of level board 71.Second sliding slot 711 has guiding role to sliding block 7321, in this way may be used A possibility that block 732 deviates in the length direction slipping along level board 71 is abutted to reduce.

Application method of this kind for the auxiliary device of concrete and reinforcing bar inspection:

By pulling handle 733 to drive pull rod 731 to close to the movement of the direction of riser 72, pull rod 731 is to close to riser 72 Mobile drive in direction abut block 732 to mobile close to the direction of riser 72, spring 734 can be compressed in this way, at this time Spring 734 is in confined state, then will test sensor 12 and is put between two risers 72, release handle 733, at this time bullet Spring 734 pushes abutting block 732 to will test the compression of sensor 12, and it is fixed just to will test sensor 12 in this way；When detection sensor 12 After being fixed, horizontal leading screw 332 is rotated by the first handwheel 333 of rotation, 332 rotate driving cross slide 32 of horizontal leading screw is the bottom of along The length direction of seat 2 is mobile, and cross slide 32 moves the length for driving detection sensor 12 along pedestal 2 along the length direction of pedestal 2 It is mobile to spend direction；Longitudinal leadscrew 432,432 rotate driving longitudinal direction slide of longitudinal leadscrew, 42 edge are rotated by the second handwheel 433 of rotation The width direction of pedestal 2 is mobile, and longitudinal slide 42 is moved along the width direction of pedestal 2 drives detection sensor 12 along pedestal 2 Width direction is mobile；Vertical lead screw 532, the vertical vertical slide 52 of 532 rotate driving of lead screw are rotated by rotating third handwheel 533 It vertically moves, vertical slide 52 is vertically mobile to drive detection sensor 12 vertically to move；It can make detection sensor in this way The different location of 12 pairs of walls detects.

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 auxiliary device for concrete and reinforcing bar inspection, including pedestal (2) and it is installed on multiple rollings of pedestal (2) It takes turns (21), it is characterised in that: be provided with transverse-moving mechanism (3) on the pedestal (2), the transverse-moving mechanism (3) includes being fixed in bottom The horizontal support (31) of seat (2), along pedestal (2) length direction sliding be connected to the cross slides (32) of horizontal support (31) with And the traversing driving assembly (33) that driving cross slide (32) is mobile；Vertical shift mechanism (4) are installed on the cross slide (32), The vertical shift mechanism (4) includes the longitudinal carrier (41) for being fixed in cross slide (32), the width direction sliding company along pedestal (2) The vertical shift driving assembly (43) for being connected to longitudinal slide (42) of longitudinal carrier (41) and driving longitudinal slide (42) mobile；It is described It is provided with vertical shift mechanism (5) on longitudinal slide (42), the vertical shift mechanism (5) includes vertically being fixed in erecting for longitudinal slide (42) To bracket (51), vertically slide vertical slide (52) and vertical slide (52) movement of driving for being connected to vertical supports (51) Vertical shift driving assembly (53)；The vertical slide (52) is connected with mounting plate (6) far from the side of vertical supports (51), described The fixed mechanism (7) for fixed test sensor (12) is provided on mounting plate (6).

2. the auxiliary device according to claim 1 for concrete and reinforcing bar inspection, it is characterised in that: the traversing drive Dynamic component (33) include being respectively and fixedly connected with the cross slide way (331) in the internal both ends of horizontal support (31), being rotationally connected with lateral branch The horizontal leading screw (332) of frame (31) and the first handwheel (333) of driving horizontal leading screw (332) rotation；The cross slide way (331) it is horizontally disposed with and is arranged along the length direction of pedestal (2)；Two cross slide ways (331) extend through lateral cunning The both ends of seat (32), the both ends of the cross slide (32) slide respectively is connected to two cross slide ways (331)；The transverse wire Thick stick (332) is threadedly connected to cross slide (32).

3. the auxiliary device according to claim 1 for concrete and reinforcing bar inspection, it is characterised in that: the vertical shift is driven Dynamic component (43) include being respectively and fixedly connected with the longitudinal rail (431) in the internal both ends of longitudinal carrier (41), being rotationally connected with longitudinal branch The longitudinal leadscrew (432) of frame (41) and the second handwheel (433) of driving longitudinal leadscrew (432) rotation；The longitudinal rail (431) it is horizontally disposed with and is arranged along the width direction of pedestal (2)；Two longitudinal rails (431) extend through longitudinal cunning The both ends of seat (42), the both ends of the longitudinal direction slide (42) slide respectively is connected to two longitudinal rails (431)；The longitudinal direction silk Thick stick (432) is threadedly connected to longitudinal slide (42).

4. the auxiliary device according to claim 1 for concrete and reinforcing bar inspection, it is characterised in that: the vertical shift is driven Dynamic component (53) include being respectively and fixedly connected with the vertical guide (531) in the internal both ends of vertical supports (51), being rotationally connected with vertical branch The vertical lead screw (532) of frame (51) and the third handwheel (533) of vertical lead screw (532) rotation of driving；The vertical guide (531) it is vertically arranged；Two vertical guides (531) extend through the both ends of vertical slide (52), the vertical slide (52) both ends slide respectively is connected to two vertical guides (531)；The vertical lead screw (532) is threadedly connected to vertical slide (52)。

5. the auxiliary device according to claim 1 for concrete and reinforcing bar inspection, it is characterised in that: the fixed machine Structure (7) includes being fixed in level board (71) at the top of mounting plate (6), being respectively perpendicular and be fixed in the perpendicular of both ends at the top of level board (71) Plate (72) and the fixation kit (73) for being used to that detection sensor (12) to be fixed.

6. the auxiliary device according to claim 5 for concrete and reinforcing bar inspection, it is characterised in that: described fixed group Part (73) include along level board (71) length direction sliding be connected to level board (71) pull rod (731), be fixed in pull rod (731) the abutting block (732) of one end, be fixed in the handle (733) of pull rod (731) other end and be socketed on pull rod (731) Spring (734)；The abutting block (732) is between two risers (72), and the abutting block (732) is along level board (71) Length direction sliding be connected to level board (71)；The both ends of the spring (734) are respectively and fixedly connected in abutting block (732) and riser (72)。

7. the auxiliary device according to claim 6 for concrete and reinforcing bar inspection, it is characterised in that: the riser (72) first sliding groove (721) slid for pull rod (731) along the length direction of level board (71) is offered on.

8. the auxiliary device according to claim 7 for concrete and reinforcing bar inspection, it is characterised in that: the abutting block (732) bottom is connected with sliding block (7321), is offered for sliding block (7321) on the level board (71) along level board (71) The second sliding slot (711) of length direction sliding.