CN204666559U - A kind of non-destructive detection device - Google Patents

Abstract

The utility model relates to a kind of non-destructive detection device, comprise ultrasonic transmitter-receiver, travel mechanism, Poewr transmission mechanism, liquid tank and monitor station, described monitor station is arranged in liquid tank, travel mechanism is arranged on monitor station top, ultrasonic transmitter-receiver is arranged in travel mechanism, Poewr transmission mechanism is connected with travel mechanism, and described travel mechanism comprises and moves axially assembly and move radially assembly, and described Poewr transmission mechanism comprises connecting elements and gear assembly, connecting elements with described in move axially assembly and be connected, gear assembly is connected with connecting elements. Non-destructive detection device of the present utility model can make ultrasonic transmitter-receiver in axis and moving radially, and detected material rotation can be driven simultaneously, thus does not need extra power drive detected material, simplifies the structure, reduces manufacturing cost.

Description

A kind of non-destructive detection device

Technical field

The utility model relates to a kind of failure detector, particularly a kind of non-destructive detection device.

Background technology

Nondestructive inspection is to utilize the characteristics such as sound, light, magnetic and electricity, do not damaging or do not affecting under the prerequisite of checked object serviceability, whether detect in checked object existing defects or inhomogeneities, the information such as the size, position, character and the quantity that provide defect, and then judge that whether checked object is qualified. Ultrasonic examination is to utilize hyperacoustic character to judge a kind of physical means of fault in material and exception, the existing equipment that ultrasonic examination carried out to cylindrical detected material normally utilizes ultrasonic receiving device to detect detected material, detected material is comprehensively detected axially and radially mobile by making ultrasonic receiving device. But the checkout gear of prior art is when realizing detected material rotation, and need other power source, thus complex structure, manufacturing cost is higher; Also the device having adopts manual operation, although simplify the structure and cost, detection efficiency and accuracy are lower.

Utility model content

The utility model, in order to address the deficiencies of the prior art, provides a kind of structure simple, the non-destructive detection device that manufacturing cost is lower and accuracy of detection is higher.

The technical solution of the utility model is: a kind of non-destructive detection device, comprise ultrasonic transmitter-receiver, travel mechanism, Poewr transmission mechanism, liquid tank and monitor station, described monitor station is arranged in liquid tank, travel mechanism is arranged on monitor station top, ultrasonic transmitter-receiver is arranged in travel mechanism, Poewr transmission mechanism is connected with travel mechanism, described travel mechanism comprises and moves axially assembly and move radially assembly, described Poewr transmission mechanism comprises connecting elements and gear assembly, connecting elements with described in move axially assembly and be connected, gear assembly is connected with connecting elements.

It is below attached technical scheme of the present utility model.

Described gear assembly comprises gear and tooth bar, and gear and tooth bar engagement, described gear is arranged in the rotating shaft of detected material, and the joint diameter of a circle of described gear is identical with the diameter of detected material.

Described connecting elements is connected by universal joint with the rotating shaft of detected material.

The described assembly that moves axially comprises sliding part, axial trajectory and drive motors, and sliding part is arranged in axial trajectory, and sliding part is driven by drive motors.

The described assembly that moves radially comprises radial track, radial track track perpendicular to axial direction.

Technique effect of the present utility model: non-destructive detection device of the present utility model can make ultrasonic transmitter-receiver in axis and moving radially, detected material rotation can be driven simultaneously, thus do not need extra power drive detected material, simplify the structure, reduce manufacturing cost.

Accompanying drawing explanation

Fig. 1 is the schematic diagram of the utility model embodiment non-destructive detection device.

Fig. 2 is another schematic diagram of the utility model embodiment non-destructive detection device.

Fig. 3 is the schematic diagram of the Poewr transmission mechanism of the utility model embodiment non-destructive detection device.

Detailed description of the invention

Below, in conjunction with example, substantive distinguishing features of the present utility model and advantage are further described, but the utility model is not limited to listed embodiment.

As shown in Figure 1 to Figure 3, the non-destructive detection device 1 of the present embodiment, comprise ultrasonic transmitter-receiver 12, travel mechanism 13, Poewr transmission mechanism 14, liquid tank 10 and monitor station 11, described monitor station 11 is arranged in liquid tank 10, travel mechanism 13 is arranged on monitor station 11 top, ultrasonic transmitter-receiver 12 is arranged in travel mechanism 13, Poewr transmission mechanism 14 is connected with travel mechanism 13, described travel mechanism 13 comprises and moves axially assembly 20 and move radially assembly 21, described Poewr transmission mechanism 14 comprises connecting elements 50 and gear assembly 51, connecting elements 50 with described in move axially assembly 20 and be connected, gear assembly 51 is connected with connecting elements 50. described ultrasonic transmitter-receiver 12 is mobile along X-direction (axis) by moving axially assembly 20, can be moved in Y direction (radially) by moving radially assembly 21 and move axially assembly 20, thus ultrasonic transmitter-receiver 12 can be moved along X-axis and Y-axis, therefore this device can be utilized to detect a flaw to tabular detected material, expand the scope of application, secondly, the rotating shaft 80 of detected material 81 is connected with connecting elements 50, makes the rotary motion that moves through Poewr transmission mechanism 14 and convert to rotating shaft 80 of the Y-direction of ultrasonic transmitter-receiver 12, thus detected material 81 can be driven to rotate. therefore not needing to arrange in addition power source makes detected material rotate again, thus simplified structure, reduces manufacturing cost. described travel mechanism 13 is controlled by controller 15,

Preferably, as a kind of embodiment, described gear assembly comprises gear 60 and tooth bar 61, and gear 60 and tooth bar 61 engage, and described gear 60 is arranged in the rotating shaft 80 of detected material 81, and described tooth bar 61 is arranged on monitor station 11 along Y direction. The rotary distance that better detected material 81 must be able to be controlled by gear and tooth bar. The joint diameter of a circle of described gear is identical with the diameter of detected material, and therefore moving radially apart from identical with the surperficial rotary distance of detected material of ultrasonic transmitter-receiver 12, detects thus realize more accurately.

Preferably, as a kind of embodiment, described connecting elements 50 is connected by universal joint 52 with the rotating shaft 80 of detected material, universal joint 52 can make connecting elements 50 rotate around rotating shaft 80, owing to there is gap between rotating shaft 80 and connecting elements 50, position when making rotating shaft and connecting elements 50 fixing coordinates and becomes simple.

Preferably, as a kind of embodiment, described in move axially assembly 20 and comprise sliding part 30, axial trajectory 31 and drive motors 32, described sliding part 30 is arranged at axial trajectory 31, and axial trajectory 31 extends along X-direction. Sliding part 30 is driven by drive motors 32, and axial trajectory 31 moves, and the length of axial trajectory 31 is greater than the length of monitor station 11.

Preferably, as a kind of embodiment, described in move radially assembly 21 and comprise radial track 40, radial track 40 track 31 perpendicular to axial direction. Described non-destructive detection device 1 also comprises controller 15, it is for controlling the motion of ultrasonic transmitter-receiver 12 and travel mechanism 13, the signal that ultrasonic transmitter-receiver 12 receives is exported to controller 15, by controller 15, signal is analyzed, thus judges whether detected material has flaw. Described controller 15 can be the electronic equipments such as computer.

The non-destructive detection device of the present embodiment can make ultrasonic transmitter-receiver in axis and moving radially, and detected material rotation can be driven simultaneously, thus does not need extra power drive detected material, simplifies the structure, reduces manufacturing cost.

The above is only preferred embodiment of the present utility model; it should be pointed out that for those skilled in the art, under the prerequisite that does not depart from the utility model principle; some improvements and modifications can also be made, and these improvements and modifications also should be considered as protection domain of the present utility model.

Claims (5)

1. a non-destructive detection device, comprise ultrasonic transmitter-receiver, travel mechanism, Poewr transmission mechanism, liquid tank and monitor station, described monitor station is arranged in liquid tank, travel mechanism is arranged on monitor station top, ultrasonic transmitter-receiver is arranged in travel mechanism, Poewr transmission mechanism is connected with travel mechanism, it is characterized in that: described travel mechanism comprises and moves axially assembly and move radially assembly, and described Poewr transmission mechanism comprises connecting elements and gear assembly, connecting elements with described in move axially assembly and be connected, gear assembly is connected with connecting elements.

2. non-destructive detection device as claimed in claim 1, is characterized in that: described gear assembly comprises gear and tooth bar, and gear and tooth bar engagement, described gear is arranged in the rotating shaft of detected material, and the joint diameter of a circle of described gear is identical with the diameter of detected material.

3. non-destructive detection device as claimed in claim 2, is characterized in that: described connecting elements is connected by universal joint with the rotating shaft of detected material.

4. non-destructive detection device as claimed in claim 3, is characterized in that: described in move axially assembly and comprise sliding part, axial trajectory and drive motors, sliding part is arranged in axial trajectory, and sliding part is driven by drive motors.

5. non-destructive detection device as claimed in claim 4, is characterized in that: described in move radially assembly and comprise radial track, radial track track perpendicular to axial direction.