CN115143370A

CN115143370A - Special base for flaw detector

Info

Publication number: CN115143370A
Application number: CN202211036786.3A
Authority: CN
Inventors: 王伟
Original assignee: Jiangsu Weili Nondestructive Testing Equipment Manufacturing Co ltd
Current assignee: Yancheng Jienuo Machinery Co ltd
Priority date: 2022-08-29
Filing date: 2022-08-29
Publication date: 2022-10-04
Anticipated expiration: 2042-08-29
Also published as: CN115143370B

Abstract

The invention provides a special base for a flaw detector, which relates to the field of flaw detector bases and comprises a base, wherein the base is integrally formed by welding a left longitudinal support ground contact rod and a right longitudinal support ground contact rod and two first cross support connecting rods which are symmetrically welded between the two longitudinal support ground contact rods in a front-back mode; all weld a driven gear on the bottom swivel of two said swing vaulting poles, and the symmetry rotates between two L form installation axles and two installation earrings and installs two intermediate gears, two driven gears and two scarce tooth gears correspond around being and two intermediate gear meshing transmissions, power transmission through two intermediate gears, the appearance body of detecting a flaw is when lasting upwards swinging and erectting and being applicable to the rainy day and using, can link the meshing and order about driven gear and two swing vaulting poles, control rain cover pendulum changes the overhead and implement rain-sheltering to the appearance body of detecting a flaw in the top of the appearance body of detecting a flaw, this saves the trouble that extra manual operation hides rain part pendulum and changes the receipts exhibition around rainy day uses.

Description

Special base for flaw detector

Technical Field

The invention relates to the technical field of flaw detector bases, in particular to a special base for a flaw detector.

Background

When the existing flaw detector is used for flaw detection, one hand is often used for holding the main machine of the flaw detector, the other hand is used for holding the probe for operation, the part which needs flaw detection operation usually has a relatively harsh environment and does not have a flat place, when the flaw detector needs to be placed at a flat position, for example, when the probe is replaced or the main machine of the flaw detector is operated, the main machine of the existing flaw detector can be hardly fixed at a certain position, and the flaw detector needs to be installed on a special base for auxiliary use in order to solve the problems.

At present, for the normal use that can realize the rainy day on the current appearance base of detecting a flaw mostly hides rain part for the appearance body is supporting, but hide rain part and need extra manual operation to switch between the idle and expansion user state of shrink mostly around using, the operation is used troublesome, hard and inconvenient, hide rain part in addition and mostly only have the simple function of hiding rain, can not realize implementing certain crashproof protection that shelters from to the appearance body of detecting a flaw when idle, the function is comparatively single.

Disclosure of Invention

In view of the above, the invention provides a special base for a flaw detector, which has two intermediate gears, and through power transmission of the two intermediate gears, when the flaw detector body is continuously swung upwards and erected for use in rainy days, the special base can be linked and meshed to drive a driven gear and two swinging support rods, and a rain shielding cover is controlled to swing and be arranged above the flaw detector body to shield rain, so that the trouble of swinging, folding and unfolding of a rain shielding part through additional manual operation before and after use in rainy days is eliminated.

The invention provides the purpose and the efficacy of a special base used by a flaw detector, which specifically comprises the following steps: the base is integrally formed by welding a left longitudinal support ground contact rod and a right longitudinal support ground contact rod and two first cross support connecting rods which are symmetrically welded between the two longitudinal support ground contact rods in a front-back mode, four vertical support positioning shafts are symmetrically welded at the top ends of the front side and the back side of the two longitudinal support ground contact rods, and one support bracket is slidably sleeved on the four vertical support positioning shafts through spring pushing; the supporting bracket is integrally formed by welding a left longitudinal supporting support rod and a right longitudinal supporting support rod and two second transverse supporting connecting rods which are welded between the two longitudinal supporting support rods at intervals in a front-back mode, wherein two mounting ear rings are symmetrically welded on the front end sections of the two longitudinal supporting support rods, and flaw detector bodies are rotatably mounted on the two mounting ear rings; the top end of the flaw detector body is connected with a probe through a flexible wire, the left side and the right side of the bottom section of the flaw detector body are symmetrically fixed with two rotating shafts through screw locking, and the two rotating shafts are correspondingly matched with the two mounting earrings in a penetrating and rotating manner; two L-shaped mounting shafts are symmetrically welded at the front positions of the two mounting ear rings on the rear end sections of the two longitudinal support bars, two swinging support bars are symmetrically and rotatably mounted on the two L-shaped mounting shafts, and one rain shade is supported on the top end sections of the two swinging support bars through screw locking; two driven gears are welded on the bottom rotating rings of the two swinging support rods, two tooth-lacking gears are symmetrically sleeved at the outer side ends of the two rotating shafts, two intermediate gears are symmetrically and rotatably arranged between the two L-shaped mounting shafts and the two mounting lug rings, and the two driven gears and the two tooth-lacking gears are in meshing transmission with the two intermediate gears in a front-back corresponding mode.

Furthermore, a magnetic suction plate with a round structure is welded and supported forwards on the middle section of the first cross brace connecting rod on the front side, and the probe is fixed on the magnetic suction plate in a magnetic suction mode when the device is not in use.

Furthermore, two magnetic blocks with a square structure are symmetrically welded upwards at the front ends of the two longitudinal supporting support rods, and when the two swinging support rods are horizontally inclined, the top end sections are correspondingly in magnetic attraction abutting contact with the two magnetic blocks.

Furthermore, two lug plates are welded on the rear end sections of the two longitudinal support rods in a bilateral symmetry manner, two positioning insertion frames are slidably installed on the two lug plates through spring pushing, and each positioning insertion frame is formed by welding a bottom cross support connecting shaft and two short insertion rods welded on the top end of the cross support connecting shaft in a bilateral symmetry manner.

Furthermore, two circles of positioning holes are formed in the circumferential outer ring of the two toothless gears in a penetrating mode, and two short insertion rods of the positioning insertion frame are correspondingly matched with the two circles of positioning holes in an inserting mode.

Furthermore, two swing rods are symmetrically welded on the two rotating shafts, and when the flaw detector body is horizontally tilted sideways, the two swing rods vertically support downwards.

Further, two L-shaped limiting rods are symmetrically welded to the back of the top end of the L-shaped mounting shaft, and when the flaw detector body swings, rotates and stands, the two swing rods are abutted and contacted with the two L-shaped limiting rods.

Further, when the flaw detector body swings and rotates vertically, the rain shade swings and rotates to push against and is arranged above the flaw detector body, and the rain shade is of a rectangular front and back two-side downward-inclined bending structure.

Has the advantages that:

1. according to the invention, the magnetic suction plate provides convenience for positioning and placing the probe when the probe is idle, the magnetic suction plate can stably and fixedly integrate the probe to be hidden between the base and the supporting bracket, no additional space is occupied, the carrying and transferring are convenient, and the probe can be prevented from shifting and mixing in the transferring process to influence the portable transferring.

2. According to the invention, the two magnetic blocks can magnetically attract and fix the two swing support rods in the horizontal side-falling state, so that the rain shade is kept in the side-falling idle state, and the influence on portable transfer caused by swinging and shaking of the rain shade in the transfer process is avoided.

3. According to the invention, the two L-shaped limiting rods can block and limit the two swing rods, so that the defect detector body is prevented from swinging beyond a vertical angle (90 degrees) in an interference manner, so that tooth sheets on two toothless gears are separated from two intermediate gears, the two swing supporting rods and the rain shade lose meshing retention force and are swung and reset by virtue of gravity, and the defect detector body is enabled to mesh the two swing supporting rods and the rain shade to drive the two swing supporting rods and the rain shade to stand up when rotating and resetting, so that the defect detector body drives the rain shade to move disorderly and fail in function by linkage.

4. According to the invention, the rain shade can shield the flaw detector body from rain in rainy days, so that the flaw detector body can be suitable for use in rainy days, and the rain shade can be in an idle contraction state, blocks and shields the flaw detector body in a side-falling state, can shield and protect the front side of the flaw detector body in the side-falling idle state, and further has the dual-purpose using effect.

5. According to the invention, through the power transmission of the two intermediate gears, the flaw detector body continuously swings upwards and is upright and suitable for being used in rainy days, the driven gears and the two swing support rods can be driven in a linkage and meshing manner, the rain shielding cover is controlled to swing and rotate to be arranged above the flaw detector body to shield rain, the trouble that a rain shielding part is additionally manually operated to swing, rotate, fold and unfold before and after the flaw detector body is used in rainy days is eliminated, the using and operating steps of the whole base in rainy days are simplified, and the use and operation of the flaw detector body in rainy days are convenient, time-saving and efficient.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings of the embodiments will be briefly described below.

The drawings in the following description relate to some embodiments of the invention only and are not intended to limit the invention.

In the drawings:

FIG. 1 is a view showing a state where a flaw detector main body is tilted horizontally on a dedicated base used for the flaw detector according to the embodiment of the present invention;

FIG. 2 is a view showing a state where a flaw detector main body is supported by tilting on a dedicated base used for the flaw detector according to the embodiment of the present invention;

FIG. 3 is a view showing a state where a flaw detector main body is supported upright on a dedicated base used for the flaw detector according to the embodiment of the present invention;

FIG. 4 is a view showing a state where a rain shade is supported and rain-shielded by a rain shade top on a dedicated base used in a flaw detector according to an embodiment of the present invention;

FIG. 5 is a schematic view showing a structure of a rain cover provided on a dedicated base for use in a flaw detector according to an embodiment of the present invention;

FIG. 6 is a schematic view of the structure of a supporting bracket on a special base for a flaw detector according to an embodiment of the present invention;

FIG. 7 is a schematic view of the bottom structure of the flaw detector body on a dedicated base for use with the flaw detector of the embodiment of the present invention;

fig. 8 is an enlarged structural view of a portion a in fig. 4 of a dedicated base used in a flaw detector according to an embodiment of the present invention.

List of reference numerals

1. A base; 101. a first cross brace connecting rod; 102. a vertical supporting positioning shaft; 103. a magnetic attraction plate; 2. a support bracket; 201. a magnetic block; 202. a second cross brace connecting rod; 203. installing an earring; 204. positioning the inserting frame; 205. an L-shaped mounting shaft; 206. an L-shaped limiting rod; 207. an intermediate gear; 3. a flaw detector body; 301. a rotating shaft; 302. a gear with missing teeth; 303. a probe; 304. a swing rod; 4. a swinging brace rod; 401. a driven gear; 5. a rain shade.

Detailed Description

In order to make the objects, solutions and advantages of the embodiments of the present invention clearer, the embodiments of the present invention will be described in detail and fully with reference to the accompanying drawings. Terms used herein have their ordinary meaning in the art, unless otherwise indicated, and like reference numerals in the figures refer to like parts.

Example (b): please refer to fig. 1 to 8:

the invention provides a special base for a flaw detector, which comprises a base 1, wherein the base 1 is integrally formed by welding a left longitudinal support ground contact rod and a right longitudinal support ground contact rod together with two first cross support connecting rods 101 which are symmetrically welded between the two longitudinal support ground contact rods in a front-back manner, four vertical support positioning shafts 102 are symmetrically welded at the top ends of the front side and the back side of the two longitudinal support ground contact rods, a support bracket 2 is slidably sleeved on the four vertical support positioning shafts 102 through spring pushing, and springs on the four vertical support positioning shafts 102 can implement floor impact buffer protection on the support bracket 2 and a flaw detector body 3 rotatably installed on the support bracket 2; the supporting bracket 2 is integrally formed by welding a left longitudinal supporting support rod, a right longitudinal supporting support rod and two second transverse supporting connecting rods 202 welded between the two longitudinal supporting support rods at intervals in a front-back mode, wherein two mounting ear rings 203 are symmetrically welded on the front end sections of the two longitudinal supporting support rods, and the flaw detector body 3 is rotatably mounted on the two mounting ear rings 203; the top end of the flaw detector body 3 is connected with a probe 303 through a flexible wire, the left side and the right side of the bottom section of the flaw detector body 3 are symmetrically fixed with two rotating shafts 301 through screw locking, and the two rotating shafts 301 are correspondingly matched with the two mounting earrings 203 in a penetrating and rotating manner; two L-shaped mounting shafts 205 are symmetrically welded at the front positions of the two mounting earrings 203 on the rear end sections of the two longitudinal support struts, two swing support struts 4 are symmetrically and rotatably mounted on the two L-shaped mounting shafts 205, and one rain shade 5 is supported on the top end sections of the two swing support struts 4 through screw locking; the driven gears 401 are welded on the bottom rotating rings of the two swing support rods 4, the outer ends of the two rotating shafts 301 are symmetrically sleeved with two toothless gears 302, two intermediate gears 207 are symmetrically and rotatably installed between the two L-shaped installation shafts 205 and the two installation ear rings 203, the two driven gears 401 and the two toothless gears 302 are in front-back corresponding meshing transmission with the two intermediate gears 207, the flaw detector body 3 can be rotatably and obliquely supported for use (refer to fig. 2) when in use, and after the angle of the flaw detector body 3 rotating and standing exceeds 65 degrees, the teeth on the flaw detector body start to be in meshing contact with the two intermediate gears 207, through the power transmission of the two intermediate gears 207, the flaw detector body 3 continuously swings upwards and stands for use in a rainy day, the driven gears 401 and the two swing support rods 4 can be driven in a linkage meshing manner, the rain shade 5 is controlled to swing and prop and be placed above the flaw detector body 3 to shield rain, the rain detector body 3 is saved, the trouble of additional manual operation of rain shielding parts before and after the rain use in a rainy day is saved, the base 1 is convenient to use, the whole operation step of the rain detection and the rain detection operation is simplified, and the operation steps are simplified in a rain day; two lug plates are welded on the rear end sections of the two longitudinal support rods in a bilateral symmetry manner, a positioning insertion frame 204 is slidably installed on the two lug plates through a spring in a pushing manner, and the positioning insertion frame 204 is formed by welding a bottom transverse support connecting shaft and two short insertion rods welded on the top end of the transverse support connecting shaft in a bilateral symmetry manner; two swing rods 304 are symmetrically welded on the two rotating shafts 301, and when the flaw detector body 3 falls horizontally, the two swing rods 304 are vertically supported downwards.

Wherein, weld forward on the interlude of the first stull connecting rod 101 of front side and support the magnetism suction disc 103 that has a circular structure, probe 303 magnetism is inhaled and is fixed in on the magnetism suction disc 103 when idle, it provides convenience to inhale the location of board 103 for probe 303 when idle to place, and magnetism suction disc 103 can hide the stable fixed integration of probe 303 between base 1 and bracketing frame 2, do not additionally take up space, portable shifts, and can prevent that probe 303 from shifting in the transfer process and scurrying in disorder, influence portable the transfer.

Wherein, the front end symmetry of two vertical stay die-pins upwards welds the magnetic path 201 of two prescription shape structures, and top end section corresponds and two magnetic paths 201 magnetism are inhaled to lean on the contact with two places magnetic path when two swing vaulting poles 4 horizontal side fall, and two magnetic paths 201 can inhale fixedly with two swing vaulting poles 4 magnetism of the state of falling of horizontal side, make rainshelter 5 keep falling idle state in the side, avoid swaing at transfer in-process rainshelter 5 and rock, influence portable transition.

Two circles of positioning holes are formed in the circumferential outer ring of the two toothless gears 302 in a penetrating manner, two short insertion rods of the positioning insertion frame 204 are correspondingly matched with the two circles of positioning holes in an inserting manner, and the two toothless gears 302 can be inserted and positioned in the positioning insertion frame 204 through the two short insertion rods, so that the flaw detector body 3 is kept at an adjusting angle of swinging and standing.

Two L-shaped limiting rods 206 are symmetrically welded backwards at the top ends of two L-shaped mounting shafts 205, when the flaw detector body 3 swings and erects, two swing rods 304 are abutted against and contacted with the two L-shaped limiting rods 206, the two L-shaped limiting rods 206 can block the two limiting swing rods 304, the flaw detector body 3 is prevented from swinging and exceeding the vertical erecting angle (90 degrees) in an interference manner, so that tooth sheets on two toothless gears 302 are separated from two intermediate gears 207, two swinging support rods 4 and a rain shade 5 lose meshing holding force and are reset by means of gravity, the flaw detector body 3 meshes the two swinging support rods 4 and the rain shade 5 to erect when being reset in a rotation manner, and the linkage of the flaw detector body 3 to the rain shade 5 is caused to drive the actions to be disordered and the functions to be invalid.

Wherein, when flaw detector body 3 pendulum is stood up, rain shade 5 pendulum changes the overhead in flaw detector body 3's top, and rain shade 5 is both sides downward sloping bending structure around the rectangle, rain shade 5 can be in the rainy day for flaw detector body 3 keeps off the rain, make flaw detector body 3 applicable in the rainy day use, and rain shade 5 is in idle shrink state, block to block and block in the place ahead of the flaw detector body 3 of the side fall state (refer to fig. 1), can implement to the front side of the flaw detector body 3 of the side fall idle state and shelter from the protection, and then rain shade 5 has a dual-purpose result of use.

The specific use mode and function of the embodiment are as follows: springs on the four vertical support positioning shafts 102 can implement floor impact buffering protection on the support bracket 2 and the flaw detector body 3 rotatably mounted on the support bracket, the rain shade 5 can shield the flaw detector body 3 from rain in rainy days, so that the flaw detector body 3 can be suitable for use in rainy days, when the flaw detector is idle, the probe 303 is fixed on the magnetic suction plate 103 in a magnetic suction manner, and the two magnetic blocks 201 can fix the two swing support rods 4 in a horizontal side-falling state in a magnetic suction manner, so that the rain shade 5 is kept in a side-falling idle state;

when the flaw detector body 3 is used, the flaw detector body 3 can be rotated and obliquely supported (refer to fig. 2), and after the flaw detector body 3 rotates and stands for an angle exceeding 65 degrees, the tooth sheets on the flaw detector body begin to be in meshing contact with the two intermediate gears 207, through the power transmission of the two intermediate gears 207, the flaw detector body 3 continuously swings upwards and stands for use in rainy days, the flaw detector body 3 can be linked and meshed to drive the driven gear 401 and the two swinging support rods 4, the rain shade 5 is controlled to swing and prop above the flaw detector body 3 to shade rain for the flaw detector body 3, and through the two short insert rods, the positioning insert frame 204 can be inserted and positioned with the two tooth-lacking gears 302, so that the flaw detector body 3 is kept at the adjustment angle of swinging and standing, the two L-shaped limiting rods 206 can block the two swing rods 304, and the interference swinging of the flaw detector body 3 is prevented from exceeding the vertical standing angle (90 degrees).

The above are exemplary embodiments of the invention only, and are not intended to limit the scope of the invention, which is defined by the appended claims.

Claims

1. The special base that the appearance of detecting a flaw used, its characterized in that includes: the base (1), the whole base (1) is formed by welding a left longitudinal support ground contacting rod and a right longitudinal support ground contacting rod together with two first cross support connecting rods (101) which are symmetrically welded between the two longitudinal support ground contacting rods in a front-back manner, four vertical support positioning shafts (102) are symmetrically welded at the top ends of the front side and the back side of the two longitudinal support ground contacting rods, and a support bracket (2) is slidably sleeved on the four vertical support positioning shafts (102) through spring pushing; the supporting bracket (2) is integrally formed by welding a left vertical supporting support rod, a right vertical supporting support rod and two second transverse supporting connecting rods (202) welded between the two vertical supporting support rods at intervals in a front-back mode, wherein two mounting ear rings (203) are symmetrically welded on the front end sections of the two vertical supporting support rods, and flaw detector bodies (3) are rotatably mounted on the two mounting ear rings (203); the top end of the flaw detector body (3) is connected with a probe (303) through a flexible wire, the left side and the right side of the bottom section of the flaw detector body (3) are symmetrically fixed with two rotating shafts (301) through screw locking, and the two rotating shafts (301) are correspondingly matched with the two mounting earrings (203) in a penetrating and rotating mode; two L-shaped mounting shafts (205) are symmetrically welded at the front side positions of two mounting earrings (203) on the rear end sections of the two longitudinal support rods, two swinging support rods (4) are symmetrically and rotatably mounted on the two L-shaped mounting shafts (205), and one rain shade (5) is supported on the top end sections of the two swinging support rods (4) through screw locking; two driven gears (401) are welded on bottom rotating rings of the two swing support rods (4), two toothless gears (302) are symmetrically sleeved at the outer side ends of the two rotating shafts (301), two intermediate gears (207) are symmetrically and rotatably installed between the two L-shaped installation shafts (205) and the two installation lug rings (203), and the two driven gears (401) and the two toothless gears (302) are in front-back corresponding meshing transmission with the two intermediate gears (207).

2. The special base for flaw detector as described in claim 1, wherein: the middle section of the first cross brace connecting rod (101) at the front side is forwards welded and supported with a magnetic suction plate (103) with a round structure, and the probe (303) is fixed on the magnetic suction plate (103) in a magnetic suction manner when the device is idle.

3. The specialized base for use with the flaw detector of claim 1, wherein: the front ends of the two longitudinal support rods are symmetrically and upwards welded with two magnetic blocks (201) with the prescription structure, and the top end sections of the two swinging support rods (4) are correspondingly in magnetic attraction abutting contact with the two magnetic blocks (201) when the two swinging support rods are horizontally tilted.

4. The specialized base for use with the flaw detector of claim 1, wherein: two lug plates are welded on the rear end sections of the two longitudinal support rods in a bilateral symmetry manner, two positioning insertion frames (204) are slidably installed on the two lug plates through spring pushing, and each positioning insertion frame (204) is formed by welding a bottom transverse support connecting shaft and two short insertion rods welded on the top end of the transverse support connecting shaft in a bilateral symmetry manner together.

5. The specialized base for use with the flaw detector of claim 4, wherein: two circles of positioning holes are arranged on the circumferential outer ring of the two gear-lacking gears (302) in a penetrating way, and two short insertion rods of the positioning insertion frame (204) are correspondingly matched with the two circles of positioning holes in an insertion way.

6. The specialized base for use with the flaw detector of claim 1, wherein: two swing rods (304) are symmetrically welded on the two rotating shafts (301), and when the flaw detector body (3) is horizontally tilted, the two swing rods (304) vertically support downwards.

7. The specialized base for flaw detector of claim 6, wherein: two L-shaped limiting rods (206) are symmetrically welded backwards at the top end of the L-shaped mounting shaft (205), and when the flaw detector body (3) is swung, rotated and erected, two swing rods (304) are abutted to and contacted with the two L-shaped limiting rods (206).

8. The special base for flaw detector as described in claim 1, wherein: when the flaw detector body (3) swings and stands vertically, the rain shade (5) swings and is arranged above the flaw detector body (3), and the rain shade (5) is of a rectangular front and back two-side downward-inclined bending structure.