CN216434103U - Metal material nondestructive test equipment - Google Patents

Abstract

The utility model discloses nondestructive testing equipment for a metal material, and relates to the technical field of nondestructive testing. The utility model comprises a detection table, wherein a conveying belt, a driven shaft and an auxiliary shaft are arranged on the detection table, a driven wheel is arranged on the driven shaft, an auxiliary wheel is arranged on the auxiliary shaft, the driven wheel and the auxiliary wheel are arranged in the detection table, the driven wheel and the auxiliary wheel are matched with the conveying belt, and a telescopic column is arranged on the lower surface of the detection table. According to the utility model, the driven wheel and the auxiliary wheel are arranged in the detection table, and are matched with the conveyor belt, so that the conveying speed of the metal material is effectively controlled, and the detection precision of the equipment is improved; the fixing seats are arranged on the conveying belt, so that the metal material is convenient to fix, and the inaccurate detection data caused by movement when entering the detection equipment is avoided; through set up flexible post and pulley examining test table lower surface, be convenient for adjust according to user's demand and examine test table height, and can remove in a flexible way and examine test table.

Description

Metal material nondestructive test equipment

Technical Field

The utility model belongs to the technical field of nondestructive testing, and particularly relates to nondestructive testing equipment for a metal material.

Background

The nondestructive testing is a method for inspecting and testing the structure, the property, the state and the type, the property, the quantity, the shape, the position, the size, the distribution and the change of the defects inside and on the surface of a test piece by taking a physical or chemical method as a means and by means of modern technology and equipment and by utilizing the change of the reaction of heat, sound, light, electricity, magnetism and the like caused by the abnormal structure or the existence of the defects of a material on the premise of not damaging or not influencing the service performance of the tested object and not damaging the internal tissue of the tested object. The existing nondestructive testing equipment cannot effectively control the conveying speed of the metal material, so that the testing precision of the equipment is reduced; the existing nondestructive testing equipment cannot adjust the height and flexibly move according to the requirements of users; the existing nondestructive testing device is not provided with a fixing device, and the movement of a metal material during testing can cause inaccurate tested data, so that the nondestructive testing equipment for the metal material is provided for solving the problems.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide nondestructive testing equipment for metal materials, which solves the problems that the existing nondestructive testing equipment cannot effectively control the conveying speed of the metal materials, cannot adjust the height according to the requirements of users, is flexible to move, has no fixing device, and causes inaccurate detection data due to the movement of the metal materials during detection.

In order to solve the technical problems, the utility model is realized by the following technical scheme:

the utility model relates to nondestructive testing equipment for a metal material, which comprises a testing table, wherein the testing table is of a box body structure, a testing shell is arranged on the upper surface of the testing table, a supporting table is arranged on the inner bottom surface of the testing table, an arc-shaped groove is arranged on one surface of the supporting table, a power shaft is arranged in the arc-shaped groove, a power wheel and a driving wheel are arranged on the peripheral side surface of the power shaft, the power wheel and the driving wheel are of the same structure, the other end of the power shaft penetrates through one side surface of the testing table and extends to the outside, a driving motor is arranged at one end of the power shaft, a supporting seat and a fixed seat are respectively arranged on two sides of the power shaft, the supporting table and the supporting seat are of similar structures to the fixed seat, a driven shaft is arranged in the supporting seat, a driven wheel is arranged at one end of the driven shaft, an adjusting disc is arranged at the other end of the driven shaft, and an auxiliary shaft is arranged in the fixed seat, the detection table is characterized in that an auxiliary wheel is arranged at one end of the auxiliary shaft, an auxiliary disc is arranged at the other end of the auxiliary shaft, an opening is formed in the upper surface of the detection table, a conveying belt is arranged in the opening, a plurality of protrusions and second protrusions are respectively arranged on two sides of one surface of the conveying belt, a plurality of fixing plates are arranged on the upper surface of the conveying belt and are oppositely and fixedly arranged, a groove is formed in one surface of each fixing plate, a compression spring is arranged in the groove, an extrusion plate is arranged at one end of the compression spring, an anti-skid layer is arranged on one surface of the extrusion plate, the friction force between the extrusion plate and a metal material is increased, and the situation that the detection data of the extrusion plate and the metal material are inaccurate due to the fact that clamping is not firm is avoided; the lower surface of the detection table is provided with a telescopic column, so that the height of the detection table can be adjusted conveniently according to requirements.

Furthermore, the position and the size of the driven wheel are both adapted to the power wheel, and the driven wheel is meshed with the power wheel.

Further, the position and the size of the auxiliary wheel are matched with those of the driving wheel, and the auxiliary wheel is meshed with the driving wheel.

Furthermore, protruding shape and size all adapt to from the driving wheel, protruding and follow the meshing between the driving wheel, be convenient for drive the conveyer belt and rotate.

Furthermore, the shape and the size of the second protrusion are matched with those of the auxiliary wheel, and the second protrusion is meshed with the auxiliary wheel, so that the conveying belt is driven to rotate conveniently.

Further, the protective housing is arranged on two sides of the opening, the protrusion and the second protrusion are both located in the protective housing, and damage caused by long-time exposure of the protrusion and the second protrusion is avoided.

Furthermore, flexible post one end is provided with the pulley seat, be provided with the pulley in the pulley seat, convenient nimble nondestructive test device that removes.

The utility model has the following beneficial effects:

according to the utility model, the driven wheel and the auxiliary wheel are arranged in the detection table, and the driven wheel, the auxiliary wheel and the conveyor belt are matched with each other, so that the conveying speed of the metal material is conveniently and effectively controlled, and the detection precision of the equipment is improved; the fixing seats are arranged on the conveying belt, so that the metal material is convenient to fix, and the inaccurate detection data caused by movement when entering the detection equipment is avoided; through set up flexible post and pulley examining test table lower surface, be convenient for adjust according to user's demand and examine test table height, and can remove in a flexible way and examine test table.

Of course, it is not necessary for any product in which the utility model is practiced to achieve all of the above-described advantages at the same time.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to the drawings without creative efforts.

FIG. 1 is a schematic view of the overall structure of a nondestructive testing apparatus for metal materials;

FIG. 2 is a front view of a nondestructive testing apparatus for metallic materials;

3 FIG. 33 3 is 3 a 3 cross 3- 3 sectional 3 view 3 taken 3 along 3 line 3 A 3- 3 A 3 of 3 FIG. 32 3; 3

FIG. 4 is a cross-sectional view taken along line B-B of FIG. 3;

FIG. 5 is a cross-sectional view taken along line C-C of FIG. 4;

fig. 6 is a cross-sectional view of D-D in fig. 5.

In the drawings, the components represented by the respective reference numerals are listed below:

1-detection table, 101-shell, 102-support table, 1021-arc-shaped groove, 1022-power shaft, 1023-power wheel, 1024-driving wheel, 1025-driving motor, 1026-support base, 1027-fixing base, 1028-driven shaft, 1029-driven wheel, 1030-adjusting disc, 1031-auxiliary shaft, 1032-auxiliary wheel, 1033-auxiliary disc, 104-opening, 1041-conveying belt, 1042-protrusion, 1043-second protrusion, 1044-protection shell, 1045-fixing plate, 1046-groove, 1047-compression spring, 1048-extrusion plate, 105-telescopic column, 1051-pulley base and 1052-pulley.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In the description of the present invention, it is to be understood that the terms "upper", "middle", "outer", "inner", and the like, indicate orientations or positional relationships, are used for convenience in describing the present invention and simplifying the description, but do not indicate or imply that the referenced components or elements must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention.

Referring to fig. 1-6, the present invention is a nondestructive testing apparatus for metal materials, including a testing table 1, the testing table 1 is a box structure, a testing housing 101 is disposed on the upper surface of the testing table 1, a supporting table 102 is disposed on the bottom surface of the testing table 1, an arc-shaped groove 1021 is disposed on one surface of the supporting table 102, a power shaft 1022 is disposed in the arc-shaped groove 1021, a power wheel 1023 and a driving wheel 1024 are disposed on the peripheral side of the power shaft 1022, the power wheel 1023 and the driving wheel 1024 are in the same structure, the other end of the power shaft 1022 penetrates through one side of the testing table 1 and extends to the outside, a driving motor 1025 is disposed at one end of the power shaft 1022, a supporting seat 1026 and a fixing seat 1027 are disposed on the two sides of the power shaft 1022, the supporting table 102 and the supporting seat 1026 are similar to the fixing seat 1027, a driven shaft 1028 is disposed in the supporting seat 1026, a driven wheel 1029 is disposed at one end of the driven shaft 1028, and an adjusting plate 1030 is disposed at the other end of the driven shaft, an auxiliary shaft 1031 is arranged in the fixed seat 1027, an auxiliary wheel 1032 is arranged at one end of the auxiliary shaft 1031, an auxiliary disk 1033 is arranged at the other end of the auxiliary shaft 1031, an opening 104 is arranged on the upper surface of the detection table 1, a conveyor belt 1041 is arranged in the opening 104, a plurality of protrusions 1042 and second protrusions 1043 are respectively arranged on two sides of one surface of the conveyor belt 1041, a plurality of fixing plates 1045 are arranged on the upper surface of the conveyor belt 1041, the two fixing plates 1045 are oppositely and fixedly arranged, a groove 1046 is arranged on one surface of the fixing plate 1045, a compression spring 1047 is arranged in the groove 1046, a squeezing plate 1048 is arranged at one end of the compression spring 1047, and an anti-skid layer is arranged on one surface of the squeezing plate 1048, so that the friction force between the squeezing plate 1048 and a metal material is increased, and inaccurate detection data caused by infirm clamping is avoided; the lower surface of the detection table 1 is provided with a telescopic column 105, so that the height of the detection table 1 can be conveniently adjusted according to requirements.

Driven wheel 1029 is matched with power wheel 1023 in position and size, and driven wheel 1029 is meshed with power wheel 1023.

The position and the size of the auxiliary wheel 1032 are both adapted to the driving wheel 1024, and the auxiliary wheel 1032 is meshed with the driving wheel 1024.

The shape and size of the protrusion 1042 are adapted to the driven wheel 1029, and the protrusion 1042 is engaged with the driven wheel 1029 to drive the transmission belt 1041 to rotate.

The shape and size of the second protrusion 1043 are adapted to the auxiliary wheel 1032, and the second protrusion 1043 is engaged with the auxiliary wheel 1032, so as to drive the conveyor belt 1041 to rotate.

The two sides of the opening 104 are provided with the protective shell 1044, and the protrusion 1042 and the second protrusion 1043 are both located in the protective shell 1044, so that the protrusion 1042 and the second protrusion 1043 are prevented from being exposed for a long time to cause damage.

Wherein, flexible post 105 one end is provided with pulley seat 1051, is provided with pulley 1052 in the pulley seat 1051, convenient nimble nondestructive test device that removes.

Referring to fig. 1-6, the present embodiment is a method for using a nondestructive testing apparatus for metal materials: when the metal material needs to be subjected to nondestructive testing, the metal material is placed between the two fixing plates 1045, and is clamped by the two extrusion plates 1048, so that the movement in the testing process is avoided, and the testing result is not standard; the detection speed of the metal material can be adjusted according to different metal materials, when the metal material needs to be quickly detected, the adjusting disc 1030 is only required to be pulled out, the driven wheel 1029 is separated from the protrusion 1042, a switch of the driving motor 1025 is turned on, the power shaft 1022 drives the auxiliary wheel 1032 to rotate, the auxiliary wheel 1032 drives the conveying belt 1041 to rotate, and the metal material passes through the detection table 1; when the metal material needs to be detected in a decelerating manner, the auxiliary disk 1033 is pulled outwards to separate the auxiliary wheel 1032 from the second protrusion 1043, the adjusting disk 1030 is pushed inwards to enable the driven wheel 1029 to be in contact with the protrusion 1042 for matching movement, and finally the conveying belt 1041 is driven to rotate to enable the metal material to pass through the detection table 1.

In the description herein, references to the description of "one embodiment," "an example," "a specific example" or the like are intended to mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the utility model. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The preferred embodiments of the utility model disclosed above are intended to be illustrative only. The preferred embodiments are not intended to be exhaustive or to limit the utility model to the precise embodiments disclosed. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the utility model and the practical application, to thereby enable others skilled in the art to best utilize the utility model. The utility model is limited only by the claims and their full scope and equivalents.

Claims (7)

1. The utility model provides a metal material nondestructive test equipment, is including examining test table (1), its characterized in that: the detection table (1) is of a box structure, a detection shell (101) is arranged on the upper surface of the detection table (1), a support table (102) is arranged on the inner bottom surface of the detection table (1), an arc-shaped groove (1021) is arranged on one surface of the support table (102), a power shaft (1022) is arranged in the arc-shaped groove (1021), a power wheel (1023) and a driving wheel (1024) are arranged on the peripheral side surface of the power shaft (1022), the power wheel (1023) and the driving wheel (1024) are of the same structure, the other end of the power shaft (1022) penetrates through one side surface of the detection table (1) and extends to the outside, a driving motor (1025) is arranged at one end of the power shaft (1022), a support base (1026) and a fixed base (1027) are respectively arranged on the two sides of the power shaft (1022), the support table (102) and the support base (1026) are similar in structure to the fixed base (1027), and a driven shaft (1028) is arranged in the support base (1026), a driven wheel (1029) is arranged at one end of the driven shaft (1028), an adjusting disc (1030) is arranged at the other end of the driven shaft (1028), an auxiliary shaft (1031) is arranged in the fixed seat (1027), an auxiliary wheel (1032) is arranged at one end of the auxiliary shaft (1031), an auxiliary disc (1033) is arranged at the other end of the auxiliary shaft (1031), an opening (104) is formed in the upper surface of the detection table (1), a conveying belt (1041) is arranged in the opening (104), a plurality of protrusions (1042) and second protrusions (1043) are respectively arranged on two sides of one surface of the conveying belt (1041), a plurality of fixing plates (1045) are arranged on the upper surface of the conveying belt (1041), the two fixing plates (1045) are oppositely and fixedly arranged, a groove (1046) is formed in one surface of the fixing plate (1045), a compression spring (1047) is arranged in the groove (1046), and a pressing plate (1048) is arranged at one end of the compression spring (1047), an anti-skid layer is arranged on one surface of the extrusion plate (1048), and a telescopic column (105) is arranged on the lower surface of the detection table (1).

2. The apparatus for nondestructive testing of metallic material according to claim 1 wherein said driven wheel (1029) is positioned and sized to accommodate a powered wheel (1023), said driven wheel (1029) being in meshing engagement with said powered wheel (1023).

3. The apparatus for nondestructive inspection of metallic material as set forth in claim 1 wherein said auxiliary wheel (1032) is adapted in position and size to said drive wheel (1024), said auxiliary wheel (1032) engaging said drive wheel (1024).

4. The apparatus for nondestructive testing of metal material as claimed in claim 1 wherein said projection (1042) is shaped and sized to conform to said follower (1029), said projection (1042) engaging said follower (1029).

5. The apparatus for nondestructive inspection of metallic material as set forth in claim 1 wherein said second protrusion (1043) is adapted in shape and size to said auxiliary wheel (1032), said second protrusion (1043) engaging with said auxiliary wheel (1032).

6. The nondestructive testing apparatus for metal materials according to claim 1, wherein a protective shell (1044) is disposed on two sides of the opening (104), and the protrusions (1042) and the second protrusions (1043) are both located in the protective shell (1044).

7. The nondestructive testing apparatus for metal material according to claim 1, wherein one end of the telescopic column (105) is provided with a pulley seat (1051), and a pulley (1052) is disposed in the pulley seat (1051).

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