CN210834786U - Tool for ultrasonic flaw detection and rapid detection of shaft parts - Google Patents

Abstract

The utility model discloses a quick detection tool for ultrasonic flaw detection of shaft parts, which comprises a rack, wherein two linear slide rails and a positive and negative tooth drive screw are arranged on the rack in parallel, the positive and negative tooth drive screw is arranged between the two linear slide rails, two support frames are arranged in the vertical direction of the linear slide rails, the support frames are connected with the positive and negative tooth drive screw and are respectively positioned at two sides of the positive and negative tooth drive screw, and one end of the positive and negative tooth drive screw is connected with a hand wheel handle; two guide wheel frames are arranged above the supporting frame, one end of each guide wheel frame is connected with a second positive and negative tooth transmission screw rod and is respectively positioned on two sides of the second positive and negative tooth transmission screw rod, and one end of the second positive and negative tooth transmission screw rod is connected with a hand wheel handle. The device provides a support tool for shaft ultrasonic detection, which is portable, practical, easy and convenient to operate, high in production efficiency, low in cost, labor-saving, practical, wide in application range, long in service life, safe and reliable.

Description

Tool for ultrasonic flaw detection and rapid detection of shaft parts

Technical Field

The utility model relates to a support technical field of axle type test bench especially relates to an axle type part ultrasonic flaw detection frock for short-term test.

Background

Along with the development of the mechanical industry in recent years, the requirements of the mechanical industry on the support frame used in ultrasonic detection are higher and higher, and the novel and portable support frame also becomes an urgent need of people.

The defects of single mechanism, simple design, poor adjusting capability, inconvenience in movement and the like of the existing support frame are easily discovered. On one hand, the angle adjustment of the traditional support frame is very limited, the support frame which can be simultaneously applied to products with various specifications is very rare, and the flexible movement of the existing support frame is difficult to ensure due to the single connection mode on the test bed,

in summary, the following problems commonly exist in the support frame in the ultrasonic detection process of the shaft parts: 1) the angle adjustment of the existing support frame is limited, and X, Y, Z three angles of a product cannot be adjusted simultaneously; 2) the system is excessively dependent on a detection platform, cannot be flexibly moved, has high requirements on detection environment, and cannot meet the detection requirements of special conditions such as severe environment, outgoing detection and the like; 3) the structure is complicated, the rotation is carried out by depending on electric power, and safety accidents are easy to happen due to large durable loss of the electric wire during ultrasonic detection. Therefore, it is necessary to design a support frame which can realize the universality of various similar products with different specifications and can be flexibly moved.

SUMMERY OF THE UTILITY MODEL

In order to overcome the above shortcoming of prior art, the utility model provides an axle type part ultrasonic inspection frock for short-term test provides a portable practicality, easy and simple to handle, production efficiency is high, with low costs, laborsaving practical, application scope is wide, long service life and safe and reliable's axle type support for ultrasonic inspection.

In order to achieve the above purpose, the utility model adopts the technical scheme that: the tool for ultrasonic flaw detection and rapid detection of shaft parts comprises a rack, wherein two linear slide rails and a first positive and negative tooth transmission screw rod are arranged on the rack in parallel, the first positive and negative tooth transmission screw rod is arranged between the two linear slide rails, two support frames are arranged in the vertical direction of the linear slide rails, the support frames are connected with the first positive and negative tooth transmission screw rod and are respectively positioned on two sides of the first positive and negative tooth transmission screw rod, and one end of the first positive and negative tooth transmission screw rod is connected with a hand wheel handle; two guide wheel frames are arranged above the supporting frame respectively, one end of each guide wheel frame is connected with a second positive and negative tooth transmission screw rod and is located on two sides of the second positive and negative tooth transmission screw rod respectively, and one end of the second positive and negative tooth transmission screw rod is connected with a hand wheel handle.

Furthermore, a nut on the second positive and negative tooth transmission screw rod is connected with the guide wheel frame, and a nut of the first positive and negative tooth transmission screw rod is connected with the support frame.

Compared with the prior art, the beneficial effects of the utility model are that: the utility model realizes the regulation and control of products on the supporting frame in X, Y, Z three directions through the design of the rack, the supporting frame, the positive and negative tooth drive screws, the linear slide rail, the guide wheel frame and the hand wheel handle, meets the detection requirements of various different shaft products and improves the work detection work efficiency; firstly, two linear slide rails and a first positive and negative tooth transmission screw are arranged on a rack in parallel, two support frames are arranged in the direction vertical to the slide rails, the two support frames are connected with the first screw and are respectively arranged on the two sides of the positive and negative teeth, and the two support frames can be controlled to move in the X direction by rotating a hand wheel handle connected with the first screw; then two guide wheel frames and a second positive and negative tooth transmission screw rod are arranged on each supporting frame, the two guide wheel frames are connected with the second transmission screw rod and are respectively arranged on two sides of the positive and negative teeth, the two guide wheel frames can be controlled to move in the Y direction by rotating a hand wheel handle connected with the second transmission screw rod, when the guide wheel frames move in the Y direction, products are placed on the guide wheel frames due to the change of the distance between the guide wheel frames, the products can be pushed to move in the Z direction, and the products are placed on the guide wheel frames which are also placed on the supporting frame, so the products can move in three directions of X, Y, Z.

In a word, this novel cooperation through controlling two support frames and guide pulley frame can adapt to the ultrasonic detection work of the axle type part of various diameters, can effectively reduce operator intensity of labour, detects whole journey and need not power transmission, greatly reduced the emergence of the potential safety hazard in the ultrasonic detection process, and detect high-efficient no dead angle through this device, be suitable for marketing.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below.

Fig. 1 is a schematic structural diagram of the present invention.

Detailed Description

The following will be described in detail with reference to the technical solutions in the embodiments of the present invention:

referring to fig. 1, the tool for ultrasonic flaw detection and rapid detection of shaft parts comprises a rack 1, wherein two linear slide rails 2 and a first positive and negative tooth transmission screw rod 3 are installed on the rack 1 in parallel, the first positive and negative tooth transmission screw rod 3 is arranged between the two linear slide rails 2, two support frames 4 are installed on the linear slide rails 2 in the vertical direction, the support frames 4 are connected with nuts on the first positive and negative tooth transmission screw rod 3 and are respectively positioned on two sides of the first positive and negative tooth transmission screw rod 3, one end of the first positive and negative tooth transmission screw rod 3 is connected with a hand wheel handle 5, and when the hand wheel handle 5 is rotated, the nuts can be driven to rotate by the rotation of the first positive and negative tooth transmission screw rod 3, so that the support frames 4 are driven by the nuts to move back and; 4 tops of support frame are equipped with two guide wheel frames 6, No. two positive and negative tooth drive screw 7 are connected to the nut on the guide wheel frame 6, and are located No. two positive and negative tooth drive screw 7's both sides respectively, 7 one ends of No. two positive and negative tooth drive screw 5 are connected to the hand wheel handle, nut and guide wheel frame 6 on the No. two positive and negative tooth drive screw 7 are connected, and when rotating hand wheel handle 5, 7 rotations of No. two positive and negative tooth drive screw can drive the nut and rotate to drive guide wheel frame 6 back and forth movement on support frame 4 through the nut.

The utility model discloses a theory of operation:

when the utility model is used, firstly, two linear slide rails 2 and a positive and negative tooth drive screw 3 are installed on the rack 1 in parallel, two support frames 4 are installed in the direction perpendicular to the slide rails 2, the two support frames 4 are connected with the positive and negative tooth drive screw 3 and are respectively arranged on two sides of the positive and negative tooth drive screw 3, the movement in the X direction on the two support frames 4 can be controlled by rotating the hand wheel handle 5 connected with the positive and negative tooth drive screw 3, when the hand wheel handle 5 is rotated clockwise, the two support frames 4 move in opposite directions, and when the hand wheel handle 5 is rotated anticlockwise, the two support frames 4 move in opposite directions; then, two guide wheel frames 6 and a second positive and negative tooth transmission screw 7 are installed on each supporting frame 4, the two guide wheel frames 6 are connected with the second positive and negative tooth transmission screw 7 and are respectively arranged on two sides of the two guide wheel frames 6, the two guide wheel frames 6 can be controlled to move in the Y direction by rotating a hand wheel handle 5 connected with the second screw 7, when the guide wheel frames 6 move in the Y direction, the products are placed on the guide wheel frames 6 due to the change of the distance between the guide wheel frames 6, so that the products can be pushed to move in the Z direction, because the products are placed on the guide wheel frames 6, the guide wheel frames 6 are placed on the supporting frames 4, so that the products can move in X, Y, Z three directions, when the hand wheel handle 5 is rotated clockwise, the two guide wheel frames 6 move in opposite directions, and when the hand wheel handle 5 is rotated anticlockwise, the two guide wheel frames 6 move in; when the detection is started, an operator places a product on the guide wheel frame 6, the guide wheel frame 6 can support the product, when the operator rotates the product, the guide wheel frame 6 rotates with the product, the rotating speed and time of the product are determined by the detection requirement, and after the detection is finished, the product is moved away from the guide wheel frame 6, and the detection is finished.

The foregoing is directed to embodiments of the present application and it is understood that various modifications and enhancements may be made by those skilled in the art without departing from the principles of the application and are intended to be included within the scope of the application.

Claims (2)

1. The utility model provides an axle type part ultrasonic inspection frock for short-term test which characterized in that: the rack is provided with two linear slide rails and a first positive and negative tooth transmission screw rod in parallel, the first positive and negative tooth transmission screw rod is arranged between the two linear slide rails, two support frames are arranged in the vertical direction of the linear slide rails, the support frames are connected with the first positive and negative tooth transmission screw rod and are respectively positioned on two sides of the first positive and negative tooth transmission screw rod, and one end of the first positive and negative tooth transmission screw rod is connected with a hand wheel handle; two guide wheel frames are arranged above the supporting frame, one end of each guide wheel frame is connected with a second positive and negative tooth transmission screw rod and is respectively positioned on two sides of the second positive and negative tooth transmission screw rod, and one end of the second positive and negative tooth transmission screw rod is connected with a hand wheel handle.

2. The tool for ultrasonic flaw detection and rapid detection of shaft parts according to claim 1, characterized in that: and a nut on the second positive and negative tooth transmission screw rod is connected with the guide wheel frame, and a nut of the first positive and negative tooth transmission screw rod is connected with the support frame.

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