CN110161188A - Pipe testing apparatus test platform - Google Patents
Pipe testing apparatus test platform Download PDFInfo
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- CN110161188A CN110161188A CN201910517629.6A CN201910517629A CN110161188A CN 110161188 A CN110161188 A CN 110161188A CN 201910517629 A CN201910517629 A CN 201910517629A CN 110161188 A CN110161188 A CN 110161188A
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- 238000012360 testing method Methods 0.000 title claims abstract description 98
- 238000001514 detection method Methods 0.000 claims abstract description 109
- 230000033001 locomotion Effects 0.000 claims abstract description 46
- NJPPVKZQTLUDBO-UHFFFAOYSA-N novaluron Chemical compound C1=C(Cl)C(OC(F)(F)C(OC(F)(F)F)F)=CC=C1NC(=O)NC(=O)C1=C(F)C=CC=C1F NJPPVKZQTLUDBO-UHFFFAOYSA-N 0.000 claims abstract description 27
- 238000009434 installation Methods 0.000 claims description 40
- 230000005540 biological transmission Effects 0.000 claims description 14
- 230000007547 defect Effects 0.000 abstract description 12
- 238000010586 diagram Methods 0.000 description 3
- 239000012530 fluid Substances 0.000 description 3
- 238000007689 inspection Methods 0.000 description 3
- 238000005516 engineering process Methods 0.000 description 2
- 230000005484 gravity Effects 0.000 description 2
- 238000000034 method Methods 0.000 description 2
- 238000005299 abrasion Methods 0.000 description 1
- 239000000919 ceramic Substances 0.000 description 1
- 230000006835 compression Effects 0.000 description 1
- 238000007906 compression Methods 0.000 description 1
- 239000004020 conductor Substances 0.000 description 1
- 238000010276 construction Methods 0.000 description 1
- 239000007788 liquid Substances 0.000 description 1
- 238000005259 measurement Methods 0.000 description 1
- 239000002245 particle Substances 0.000 description 1
- 239000011347 resin Substances 0.000 description 1
- 229920005989 resin Polymers 0.000 description 1
- 238000004088 simulation Methods 0.000 description 1
- 239000007787 solid Substances 0.000 description 1
Classifications
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- G—PHYSICS
- G01—MEASURING; TESTING
- G01M—TESTING STATIC OR DYNAMIC BALANCE OF MACHINES OR STRUCTURES; TESTING OF STRUCTURES OR APPARATUS, NOT OTHERWISE PROVIDED FOR
- G01M13/00—Testing of machine parts
-
- G—PHYSICS
- G01—MEASURING; TESTING
- G01N—INVESTIGATING OR ANALYSING MATERIALS BY DETERMINING THEIR CHEMICAL OR PHYSICAL PROPERTIES
- G01N33/00—Investigating or analysing materials by specific methods not covered by groups G01N1/00 - G01N31/00
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- Analytical Chemistry (AREA)
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- General Health & Medical Sciences (AREA)
- Immunology (AREA)
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- Testing Of Devices, Machine Parts, Or Other Structures Thereof (AREA)
Abstract
The present invention provides a kind of pipe testing apparatus test platforms.Pipe testing apparatus test platform includes: base assembly, including pedestal and the first mounting structure, and the first mounting structure is for pipe laying detection device and is movably disposed in pedestal;Bracket component, it is set on the base, bracket component includes bracket and the second mounting structure for being arranged on bracket, second mounting structure is for installing pipeline to be detected and can reciprocatingly slide along the short transverse of bracket, with by making the second mounting structure relative to bracket slide and/or making the first mounting structure relative to base motions, to be adjusted to the distance between pipe detection device and pipeline to be detected.The problem of present invention efficiently solves the distance between pipe detection devices in the prior art and pipeline to be detected cannot be adjusted, and influences the detection accuracy and accuracy of pipeline defect detection.
Description
Technical field
The present invention relates to pipeline inspection technology fields, in particular to a kind of pipe testing apparatus test platform.
Background technique
Currently, pipeline is for conveying gas, liquid or the fluid with solid particle.Normally, fluid is through air blower, compression
After the pressurization such as machine, pump and boiler, flowed at low pressure from the high pressure of pipeline, pressure or the gravity that fluid itself can also be used are defeated
Send, pipeline applications are very wide, from ensure pipe safety operation aspect for, the accuracy of the detection of pipeline is most important, pipeline examine
The detection accuracy of measurement equipment needs the experimental rig by that can simulate field working conditions to carry out Experimental Calibration.
In the prior art, the distance between pipe detection device and pipeline are fixed and invariable, and cannot be adjusted, therefore not
Can accurate simulation field pipes detect operating condition, the detection accuracy of detector is demarcated difficult.
Summary of the invention
The main purpose of the present invention is to provide a kind of pipe testing apparatus test platforms, to solve pipeline in the prior art
The distance between detection device and pipeline to be detected cannot be adjusted, and influence the detection accuracy and accuracy of pipeline defect detection
Problem.
To achieve the goals above, the present invention provides a kind of pipe testing apparatus test platforms, comprising: base assembly,
Including pedestal and the first mounting structure, the first mounting structure is for pipe laying detection device and is movably disposed in pedestal
On;Bracket component is set on the base, and bracket component includes bracket and the second mounting structure for being arranged on bracket, the second peace
Assembling structure is for installing pipeline to be detected and can reciprocatingly slide along the short transverse of bracket, by keeping the second mounting structure opposite
In bracket slide and/or make the first mounting structure relative to base motions, between pipe detection device and pipeline to be detected
Distance be adjusted.
Further, bracket component be two, two bracket components be located at the two sides of pedestal with formed detection space,
The both ends that two the second mounting structures treat detection pipeline respectively are supported;Wherein, by keeping the second mounting structure opposite
In bracket slide and/or make the first mounting structure relative to base motions, to prolong to pipe detection device and pipeline to be detected
Direction institute is stretched angled to be adjusted.
Further, bracket component further include: first driving device is drivingly connected with the second mounting structure, to drive the
Two mounting structures reciprocatingly slide along the short transverse of bracket;And/or pipe testing apparatus test platform further include: the second driving dress
It sets, is drivingly connected with the first mounting structure, to drive the first mounting structure to transport along the first preset direction and/or the second preset direction
It is dynamic;Wherein, the short transverse of the first preset direction and bracket is mutually perpendicular to, and the short transverse of the second preset direction and bracket is mutual
In parallel.
Further, the second mounting structure includes: installation ontology, for installing pipeline to be detected;Insulating part, setting are being pacified
It fills on ontology, is isolated with treating detection pipeline and installation ontology.
Further, V-shaped ontology or U-shaped or W-shaped or Y shape are installed;Or there is installation ontology confession pipeline to be detected to wear
The mounting hole crossed.
Further, the second mounting structure further includes the movement portion being arranged on installation ontology, and bracket includes: bracket sheet
Body, including column, column have a sliding slot, and movement portion protrudes into sliding slot and can extending direction movement along the chute;Reinforce frame body, if
It sets on rack body.
Further, movement portion be it is multiple, column be it is multiple, multiple columns are arranged correspondingly with multiple movement portions.
Further, bracket component further includes first driving device, and first driving device and the driving of the second mounting structure connect
It connects, to drive the second mounting structure to reciprocatingly slide along the short transverse of bracket, bracket component further include: transmission component, with first
Driving device and the second mounting structure are all connected with, and first driving device drives the second mounting structure to move by transmission component.
Further, the second mounting structure further includes the extension connecting with installation ontology, and extension has threaded hole, is passed
Dynamic component includes: first gear structure, is connect with the power output end of first driving device;Drive screw, the one of drive screw
The second gear structure being meshed with first gear structure is provided on end, the other end of drive screw passes through threaded hole and and spiral shell
Pit is threadedly coupled;Wherein, the axis of first gear structure and the axis of second gear structure are arranged in angle.
Further, the first mounting structure includes the second mounting portion, and pedestal includes: base body, and bracket component setting exists
On base body;Sliding rail is arranged on base body, and sliding rail has auxiliary section, and the second mounting portion is matched with auxiliary section, so that
First mounting structure can be slided along the extending direction of sliding rail.
It applies the technical scheme of the present invention, the first mounting structure is for pipe laying detection device and is movably disposed in
On pedestal, the second mounting structure is for installing pipeline to be detected and can reciprocatingly slide along the short transverse of bracket.When needing to adjust
When the distance between pipe detection device and pipeline to be detected, staff make the second mounting structure relative to bracket slide and/
Or make the first mounting structure relative to base motions, so that the distance between the first mounting structure and the second mounting structure change
Become, the adjustment of the distance between pipe detection device and pipeline to be detected can be realized.In this way, being directed to various sizes of test tube to be checked
Road, staff operate pipe testing apparatus test platform, so that the second mounting structure and/or the first mounting structure are made
Corresponding movement out to realize that the distance between pipe detection device and pipeline to be detected adjust, and then solves the prior art
The distance between middle pipe detection device and pipeline to be detected cannot be adjusted, and influence the detection accuracy and standard of pipeline defect detection
The problem of exactness, improves the detection accuracy and accuracy of pipe detection device.
Detailed description of the invention
The accompanying drawings constituting a part of this application is used to provide further understanding of the present invention, and of the invention shows
Examples and descriptions thereof are used to explain the present invention for meaning property, does not constitute improper limitations of the present invention.In the accompanying drawings:
Fig. 1 shows the schematic perspective view of the embodiment one of pipe testing apparatus test platform according to the present invention;
Fig. 2 shows enlarged diagrams at the A of the pipe testing apparatus test platform in Fig. 1;
Fig. 3 shows the schematic perspective view of another angle of the pipe testing apparatus test platform in Fig. 1;
Fig. 4 shows enlarged diagram at the B of the pipe testing apparatus test platform in Fig. 3;
Fig. 5 shows the installation ontology of the pipe testing apparatus test platform in Fig. 1 and three-dimensional after extension assembly is tied
Structure schematic diagram;
Fig. 6 shows the installation ontology in Fig. 5 and the top view after extension assembly;
Fig. 7 shows the schematic perspective view of the bracket of the pipe testing apparatus test platform in Fig. 1;
Fig. 8 shows the top view of the bracket in Fig. 7;
Fig. 9 shows the schematic perspective view of the first mounting structure of the pipe testing apparatus test platform in Fig. 1;With
And
Figure 10 shows the side view of the first mounting structure in Fig. 9.
Wherein, the above drawings include the following reference numerals:
10, base assembly;11, pedestal;111, base body;112, sliding rail;12, the first mounting structure;121, the second peace
Dress portion;20, bracket component;21, bracket;211, rack body;211a, column;212, reinforce frame body;213, mounting lug;22,
Second mounting structure;221, ontology is installed;221a, mounting recess;222, insulating part;223, movement portion;224, extension;
224a, threaded hole;23, first driving device;24, transmission component;241, first gear structure;242, drive screw;243,
Two gear structures.
Specific embodiment
It should be noted that in the absence of conflict, the features in the embodiments and the embodiments of the present application can phase
Mutually combination.The present invention will be described in detail below with reference to the accompanying drawings and embodiments.
It should be pointed out that unless otherwise specified, all technical and scientific terms used in this application have and the application
The normally understood identical meanings of person of an ordinary skill in the technical field.
In the present invention, in the absence of explanation to the contrary, the noun of locality used is usually directed to attached drawing as " upper and lower "
Shown in for direction, or on vertical, vertical or gravity direction;Similarly, it for ease of understanding and retouches
It states, " left and right " is usually for shown in the drawings left and right;" inside and outside " refers to the inside and outside of the profile relative to each component itself,
But the above-mentioned noun of locality is not intended to restrict the invention.
It cannot be adjusted to solve the distance between pipe detection device and pipeline to be detected in the prior art, influence pipeline
The problem of detection accuracy of defects detection and accuracy, this application provides a kind of pipe testing apparatus test platforms.
Embodiment one
As shown in Figures 1 to 4, pipe testing apparatus test platform includes base assembly 10 and bracket component 20.Wherein, bottom
Holder assembly 10 includes pedestal 11 and the first mounting structure 12, and the first mounting structure 12 is for pipe laying detection device and movable
Ground is arranged on the pedestal 11.Bracket component 20 is arranged on the pedestal 11, and bracket component 20 includes bracket 21 and is arranged in bracket 21
On the second mounting structure 22, the second mounting structure 22 be used for install pipeline to be detected and can along bracket 21 short transverse it is reciprocal
Sliding, with by make the second mounting structure 22 relative to bracket 21 slide, between pipe detection device and pipeline to be detected
Distance be adjusted.
Using the technical solution of the present embodiment, when needing to adjust the distance between pipe detection device and pipeline to be detected
When, staff slides the second mounting structure 22 relative to bracket 21, so that the first mounting structure 12 and the second mounting structure
The distance between 22 change, and the adjustment of the distance between pipe detection device and pipeline to be detected can be realized.In this way, being directed to
Various sizes of pipeline to be detected, staff operate pipe testing apparatus test platform, so that the second mounting structure
22 make corresponding movement, to realize that the distance between pipe detection device and pipeline to be detected adjust, and then solve existing
The distance between pipe detection device and pipeline to be detected cannot be adjusted in technology, influence the detection accuracy of pipeline defect detection
And the problem of accuracy, improve the detection accuracy and accuracy of pipe detection device.
In the present embodiment, pipe detection device is located at the lower section of pipeline to be detected, even if pipeline to be detected exists
Conductive material simultaneously generates vortex, will not influence the detection signal of pipe detection device, and then improve pipe detection device
Detection accuracy and accuracy.
As shown in figures 1 and 3, bracket component 20 be two, two bracket components 20 be located at the two sides of pedestal 11 with
Detection space is formed, the both ends that two the second mounting structures 22 treat detection pipeline respectively are supported.Wherein, by making
Two mounting structures 22 slide relative to bracket 21 and/or move the first mounting structure 12 relative to pedestal 11, to examine to pipeline
Survey the extending direction of device and pipeline to be detected angled be adjusted.In this way, two the second mounting structures 22 support respectively
It is placed to be checked so that pipeline to be detected is smoothly mounted on two the second mounting structures 22 at the both ends of pipeline to be detected
Test tube road shakes and influences testing result.Meanwhile staff can make two second installation knots according to detection demand
The supporting surface of structure 22 is not contour, then pipe testing apparatus test platform can simulate the detection path of pipe detection device with it is to be checked
The case where there are predetermined angles between test tube road.
In the present embodiment, the both ends that two bracket components 20 treat detection pipeline respectively are supported, and staff is logical
The bearing height of two bracket components 20 of adjustment is crossed, to realize the be in angle of extending direction of pipe detection device Yu pipeline to be detected
The adjustment of degree, to meet testing requirements.
Specifically, the first mounting structure 12 is slidably mounted on pedestal 11, and pipe detection device is placed on the first peace
On assembling structure 12, when the supporting surface of two the second mounting structures 22 is not contour, the both ends of pipeline to be detected are not contour.Work people
Member is slided by pushing or pull on the first mounting structure 12 along pedestal 11, so that between pipe detection device and pipeline to be detected
Distance is gradually increased or reduces, and is detected with treating the defect of detection pipeline.
As shown in Figure 2 and Figure 4, bracket component 20 further includes first driving device 23.Wherein, first driving device 23 and
Two mounting structures 22 are drivingly connected, to drive the second mounting structure 22 to reciprocatingly slide along the short transverse of bracket 21.In this way, passing through
First driving device 23 is operated, can be realized the continuous adjustment of distance between pipe detection device and pipeline to be detected, to meet
Different detection demands.
In the present embodiment, first driving device 23 is hand-operated wheel.Wherein, staff passes through rotation hand-operated wheel, so that
Second mounting structure 22 is moved towards or away from pipe detection device, and then is realized between pipeline and pipe detection device to be detected
The adjustment of distance operates convenient for staff, reduces operation difficulty.
It should be noted that the type of first driving device 23 is without being limited thereto.Optionally, first driving device 23 is motor
Or hydraulic cylinder or cylinder or electric cylinders.
As shown in Figure 2 and Figure 4, the second mounting structure 22 includes installation ontology 221 and insulating part 222.Wherein, ontology is installed
221 for installing pipeline to be detected.The setting of insulating part 222 is on installation ontology 221, to treat detection pipeline and installation ontology
221 are isolated.In this way, pipeline to be detected is placed on insulating part 222, will not directly be contacted with installation ontology 221, to prevent
Installation ontology 221 conducts electrical currents to the testing result on pipeline to be detected and influencing pipe detection device after charging, improve
Detect accuracy and accuracy.
In the present embodiment, insulating part 222 is bonded on installation ontology 221.In this way, above-mentioned setting is so that insulating part 222
Connection between installation ontology 221 is even closer, and insulating part 222 is prevented to be detached from from installation ontology 221.It needs to illustrate
It is that insulating part 222 and the connection type of installation ontology 221 are without being limited thereto.Optionally, insulating part 222 and installation 221 bind of ontology
Or clamping.
Optionally, insulating part 222 is formed by resin.It should be noted that the type of insulating part 222 is without being limited thereto.It is optional
Ground, insulating part 222 are made of rubber or ceramics.
As shown in Fig. 2, fig. 4 to fig. 6, installation ontology 221 is V-shaped.Specifically, insulating part 222 is and installation 221 shape of ontology
The identical v-shaped structure of shape, pipeline to be detected are fastened on the angle of v-shaped structure, to prevent pipeline to be detected from rotating.Together
When, the structure of above structure is simple, is easily worked, realizes, reduces the processing cost of the second mounting structure 22.
It should be noted that the shape of installation ontology 221 is without being limited thereto.Optionally, installation ontology 221 is in U-shape or W-shaped
Or Y shape.In this way, above structure can prevent pipeline to be detected from rotating, and structure is simple, is easily worked, and reduces second
The processing cost of mounting structure 22.
It should be noted that the structure of installation ontology 221 is without being limited thereto.Optionally, installation ontology 221 has for be detected
The mounting hole that pipeline passes through.In this way, one end of pipeline to be detected is protruded into mounting hole and is contacted with the hole wall of mounting hole, to prevent
Pipeline to be detected rotates and influences the testing result of pipe detection device.Meanwhile the structure of above structure is simple, is easy to add
Work, realization reduce the processing cost of the second mounting structure 22.
As shown in figure 4, the second mounting structure 22 further includes the movement portion 223 being arranged on installation ontology 221, bracket 21 is wrapped
It includes rack body 211 and reinforces frame body 212.Wherein, rack body 211 includes column 211a, and column 211a has sliding slot, movement
Portion 223 protrudes into sliding slot and can extending direction movement along the chute.Reinforce frame body 212 to be arranged on rack body 211.In this way,
First driving device 23 drive the second mounting structure 22 reciprocatingly slide along the short transverse of bracket 21 when, movement portion 223 along
The sliding slot of column 211a slides, so that the sliding of the second mounting structure 22 is more easier, is laborsaving, so that the second mounting structure
22 and the height adjustment of pipeline to be detected be more easier, be easy.
Specifically, movement portion 223 is wheel-like structure, and wheel-like structure is pivotally connected with installation ontology 221, in installation ontology
221 along column 211a sliding process, and wheel-like structure rotates in sliding slot, thereby reduce the second mounting structure 22 and sliding slot it
Between frictional force, on the one hand make reciprocatingly sliding for the second mounting structure 22 more time saving, laborsaving;On the other hand movement portion is reduced
223 and sliding slot abrasion, extend the service life of pipe testing apparatus test platform.
Optionally, movement portion 223 is multiple, column 211a be it is multiple, multiple column 211a and multiple movement portions 223 are one by one
It is arranged in correspondence with.As shown in figure 4, movement portion 223 is two, column 211a is two, two column 211a and two movement portions
223 are arranged correspondingly.In this way, above-mentioned setting so that the second mounting structure 22 is more steady along the sliding of column 211a, subtracts
The shaking of small pipeline to be detected improves the detection precision of pipe detection device.
It should be noted that the number in movement portion 223 is without being limited thereto, as long as consistent with the number of column 211a.It can
Selection of land, movement portion 223 are three or four or five, and column 211a is three or four or five.
As shown in Figure 5 and Figure 6, installation ontology 221 tool is there are two the mounting recess 221a for installing movement portion 223, and two
A movement portion 223 is arranged correspondingly with two mounting recess 221a, and each movement portion 223 is mounted on installation corresponding thereto
In recess portion 221a.It is difficult to reduce dismounting so that the dismounting of movement portion 223 and installation ontology 221 is more easier, is easy for above-mentioned setting
Degree.
As shown in Figure 2 and Figure 4, bracket component 20 further includes transmission component 24.Wherein, transmission component 24 and the first driving fill
Set 23 and second mounting structure 22 be all connected with, first driving device 23 by transmission component 24 drive the second mounting structure 22 fortune
It is dynamic.In this way, above-mentioned setting, which improves first driving device 23, drives the reliability of the second mounting structure 22 movement, and then improve
The use reliability of pipe testing apparatus test platform.Meanwhile staff can be to according to demand to the second mounting structure 22
The adjustment of sliding speed operates convenient for staff.
As shown in Figure 2 and Figure 4, the second mounting structure 22 further includes the extension 224 connecting with installation ontology 221, is extended
Portion 224 has threaded hole 224a, and transmission component 24 includes first gear structure 241, drive screw 242 and second gear structure
243.Wherein, first gear structure 241 is connect with the power output end of first driving device 23.On one end of drive screw 242
It is provided with the second gear structure 243 being meshed with first gear structure 241, the other end of drive screw 242 passes through threaded hole
It 224a and is threadedly coupled with threaded hole 224a.Wherein, the axis of the axis of first gear structure 241 and second gear structure 243
It is arranged in angle.In this way, staff operates first driving device 23, driven by the power output end of first driving device 23
First gear structure 241 rotates, to drive second gear structure 243 and 242 turns of drive screw by first gear structure 241
It is dynamic, and then realize that extension 224 along the sliding of column 211a, and then realizes that the second mounting structure 22 drives the past of pipeline to be detected
Multiple sliding.Meanwhile the structure of above structure is simple, is easily worked, realizes, reduces the processing of pipe testing apparatus test platform
Cost.
Specifically, the extending direction of the sliding slot of column 211a and the extending direction of drive screw 242 are arranged in parallel.This
Sample, staff is by hand first driving device 23, so that the power output end of first driving device 23 drives first gear
Structure 241 rotates.Later, first gear structure 241 drives meshed second gear structure 243 to rotate, then the second tooth
Wheel construction 243 drives drive screw 242 to rotate, then drive screw 242 drives the extension 224 being threadedly coupled with it along transmission spiral shell
The extending direction of bar 242 slides, and then realizes reciprocatingly sliding for the second mounting structure 22.In this way, staff is according to detection need
It asks, by hand first driving device 23, to realize that the second mounting structure 22 drives pipeline to be detected to examine towards or away from pipeline
Device movement is surveyed, and then adjusts the distance between pipe detection device and pipeline to be detected, improves the inspection of pipe detection device
Survey accuracy and accuracy.Meanwhile staff can be by persistently hand first driving device 23, to realize pipeline to be detected
The continuous detection of different angle between pipe detection device, to meet different detection demands.
It in the present embodiment, is Bevel Gear Transmission mode between first gear structure 241 and second gear structure 243.It can
Selection of land, first gear structure 241 are straight bevel gear or helical bevel gear or spiral bevel gear.Optionally, second gear knot
Structure 243 is straight bevel gear or helical bevel gear or spiral bevel gear, as long as consistent with the type of first gear structure 241 be
It can.
It should be noted that the structure of transmission component 24 is without being limited thereto.Optionally, transmission component 24 is turbine screw rod knot
Structure or drive belt configuration.
As shown in Figure 7 and Figure 8, there are two mounting lugs 213 for the tool of rack body 211, and two mounting lugs 213 are along column
The extending direction interval of 211a is arranged, and drive screw 242 is threaded through on two mounting lugs 213, and mounting lug 213 is used for biography
Dynamic screw rod 242 is supported, to guarantee the connective stability of drive screw 242 Yu rack body 211.
It should be noted that the number of mounting lug 213 is without being limited thereto.Optionally, rack body 211 has one or three
A or multiple mounting lugs 213.
As shown in Figure 9 and Figure 10, the first mounting structure 12 includes the second mounting portion 121, and pedestal 11 includes base body 111
With sliding rail 112.Wherein, bracket component 20 is arranged on base body 111.Sliding rail 112 is arranged on base body 111, sliding rail
112 have auxiliary section, and the second mounting portion 121 is matched with auxiliary section, so that the first mounting structure 12 can be along the extension of sliding rail 112
Direction sliding.In this way, the auxiliary section of sliding rail 112 and the second mounting portion 121 cooperate, to realize the first mounting structure 12 and sliding rail
112 assembly, are slided convenient for the first mounting structure 12 along sliding rail 112.Meanwhile the structure of above structure is simple, is easily worked, real
It is existing, reduce the processing cost of pipe testing apparatus test platform.
In the present embodiment, sliding rail 112 is two, and two one slide rails 112 are arranged in parallel.Second mounting portion 121 be four, four
Two extending direction intervals along an one slide rail 112 in a are arranged, other two prolonging along another one slide rail 112 in four
Stretch the setting of direction interval.In this way, above-mentioned setting is so that the first installation knot during the first mounting structure of staff's sliding rail 12
Structure 12 and the connection of sliding rail 112 are more stable, and the two will not occur and be mutually disengaged and influence pipe testing apparatus test platform
Detection.
In the present embodiment, the second mounting portion 121 has groove, and auxiliary section is adapted with groove, and groove is protruded into auxiliary section
It is interior and cooperate with groove, to realize the assembly of the second mounting portion 121 with sliding rail 112.
It should be noted that the number of sliding rail 112 is without being limited thereto.Optionally, sliding rail 112 is one or three or more.
It should be noted that the number of the second mounting portion 121 is without being limited thereto, as long as enabling the first mounting structure 12 and cunning
Rail 112 steadily connects.
Embodiment two
The difference of pipe testing apparatus test platform and embodiment one in embodiment two is: pipe detection device with to
It is different to detect the distance between pipeline adjustment mode.
In the present embodiment, with by making the first mounting structure relative to base motions, with to pipe detection device with to
The distance between detection pipeline is adjusted.In this way, when needing to adjust the distance between pipe detection device and pipeline to be detected
When, staff makes the first mounting structure relative to base motions, so that between the first mounting structure and the second mounting structure
Distance changes, and the adjustment of the distance between pipe detection device and pipeline to be detected can be realized.In this way, being directed to different sizes
Pipeline to be detected, staff operates pipe testing apparatus test platform, so that the first mounting structure is made accordingly
Movement and then solve pipeline in the prior art to realize that the distance between pipe detection device and pipeline to be detected adjust
The distance between detection device and pipeline to be detected cannot be adjusted, and influence the detection accuracy and accuracy of pipeline defect detection
Problem improves the detection accuracy and accuracy of pipe detection device.
Specifically, staff operates the first mounting structure, so that short transverse direction of first mounting structure along bracket
Or far from pipeline to be detected, and then realize the adjustment of the distance between pipe detection device and pipeline to be detected, it is accurate, accurate to realize
Ground defects detection.
In the present embodiment, pipe testing apparatus test platform further includes the second driving device.Second driving device and the
One mounting structure is drivingly connected, to drive the first mounting structure to move along the first preset direction and the second preset direction.Wherein,
The short transverse of one preset direction and bracket is mutually perpendicular to, and the short transverse of the second preset direction and bracket is parallel to each other.In this way,
Staff by operation the second driving device, with realize the first mounting structure along the short transverse of bracket reciprocating motion, into
And the labor intensity of staff is reduced, reduce operation difficulty.Meanwhile staff can also pass through the second driving device
The first mounting structure is driven to slide along the horizontal plane (the first preset direction), the defect at different location to realize pipeline to be detected
Detection improves detection accuracy and accuracy.
In the other embodiments being not shown in the accompanying drawings, pipe testing apparatus test platform further includes the second driving dress
It sets.Second driving device and the first mounting structure are drivingly connected, to drive the first mounting structure to move along the first preset direction.Its
In, the short transverse of the first preset direction and bracket is mutually perpendicular to.In this way, staff can be driven by the second driving device
First mounting structure slides along the horizontal plane (the first preset direction), the defect inspection at the different location to realize pipeline to be detected
It surveys, improves detection accuracy and accuracy.
In the other embodiments being not shown in the accompanying drawings, pipe testing apparatus test platform further includes the second driving dress
It sets.Second driving device and the first mounting structure are drivingly connected, to drive the first mounting structure to move along the second preset direction.Its
In, the short transverse of the second preset direction and bracket is parallel to each other.In this way, staff passes through the second driving device of operation, with
It realizes that the first mounting structure along the reciprocating motion of the short transverse of bracket, thereby reduces the labor intensity of staff, reduces
Operation difficulty.
Embodiment two
The difference of pipe testing apparatus test platform and embodiment one in embodiment two is: pipe detection device with to
It is different to detect the distance between pipeline adjustment mode.
In the present embodiment, with by making the second mounting structure relative to bracket slide, and keep the first mounting structure opposite
In base motions, to be adjusted to the distance between pipe detection device and pipeline to be detected.In this way, when needing to adjust pipeline
When the distance between detection device and pipeline to be detected, staff makes the second mounting structure relative to bracket slide, and simultaneously
So that the first mounting structure is relative to base motions, so that the distance between the first mounting structure and the second mounting structure change
Become, the adjustment of the distance between pipe detection device and pipeline to be detected can be realized.In this way, being directed to various sizes of test tube to be checked
Road, staff operate pipe testing apparatus test platform, so that the second mounting structure and the first mounting structure are made
Corresponding movement to realize that the distance between pipe detection device and pipeline to be detected adjust, and then solves in the prior art
The distance between pipe detection device and pipeline to be detected cannot be adjusted, and influence the detection accuracy of pipeline defect detection and accurate
The problem of spending improves the detection accuracy and accuracy of pipe detection device.
Specifically, staff operates the first mounting structure, so that short transverse direction of first mounting structure along bracket
Or far from pipeline to be detected.Meanwhile staff can also make the second mounting structure relative to bracket slide, realize quickly away from
From adjustment, it is time-consuming to shorten adjustment, and then improves the detection efficiency of pipe testing apparatus test platform.
It can be seen from the above description that the above embodiments of the present invention realized the following chievements:
When needing to adjust the distance between pipe detection device and pipeline to be detected, staff makes the second mounting structure
Relative to bracket slide and/or make the first mounting structure relative to base motions, so that the first mounting structure and the second installation are tied
The distance between structure changes, and the adjustment of the distance between pipe detection device and pipeline to be detected can be realized.In this way, being directed to
Various sizes of pipeline to be detected, staff operate pipe testing apparatus test platform, so that the second mounting structure
And/or first mounting structure make corresponding movement, with realize the distance between pipe detection device and pipeline to be detected adjust,
And then solve in the prior art that the distance between pipe detection device and pipeline to be detected cannot be adjusted, it influences defect of pipeline and examines
The problem of detection accuracy of survey and accuracy, improves the detection accuracy and accuracy of pipe detection device.
Obviously, above-mentioned the described embodiment is only a part of the embodiment of the present invention, instead of all the embodiments.
Based on the embodiments of the present invention, obtained by those of ordinary skill in the art without making creative efforts all
Other embodiments should fall within the scope of the present invention.
It should be noted that term used herein above is merely to describe specific embodiment, and be not intended to restricted root
According to the illustrative embodiments of the application.As used herein, unless the context clearly indicates otherwise, otherwise singular
Also it is intended to include plural form, additionally, it should be understood that, when in the present specification using term "comprising" and/or " packet
Include " when, indicate existing characteristics, step, work, device, component and/or their combination.
It should be noted that the description and claims of this application and term " first " in above-mentioned attached drawing, "
Two " etc. be to be used to distinguish similar objects, without being used to describe a particular order or precedence order.It should be understood that using in this way
Data be interchangeable under appropriate circumstances, so that presently filed embodiment described herein can be in addition to illustrating herein
Or the sequence other than those of description is implemented.
The foregoing is only a preferred embodiment of the present invention, is not intended to restrict the invention, for the skill of this field
For art personnel, the invention may be variously modified and varied.All within the spirits and principles of the present invention, made any to repair
Change, equivalent replacement, improvement etc., should all be included in the protection scope of the present invention.
Claims (10)
1. a kind of pipe testing apparatus test platform characterized by comprising
Base assembly (10), including pedestal (11) and the first mounting structure (12), first mounting structure (12) is for installing
It pipe detection device and is movably disposed on the pedestal (11);
Bracket component (20) is arranged on the pedestal (11), and the bracket component (20) includes bracket (21) and is arranged in institute
The second mounting structure (22) on bracket (21) is stated, second mounting structure (22) is used to install pipeline to be detected and can be along institute
The short transverse for stating bracket (21) reciprocatingly slides, by keeping second mounting structure (22) sliding relative to the bracket (21)
It moves and/or moves first mounting structure (12) relative to the pedestal (11), to the pipe detection device and institute
The distance between pipeline to be detected is stated to be adjusted.
2. pipe testing apparatus test platform according to claim 1, which is characterized in that the bracket component (20) is two
It is a, two bracket components (20) be located at the two sides of the pedestal (11) with formed detection space, two described second
Mounting structure (22) is respectively supported the both ends of the pipeline to be detected;Wherein, by making second mounting structure
(22) it is slided relative to the bracket (21) and/or moves first mounting structure (12) relative to the pedestal (11),
It is adjusted so that the extending direction institute to the pipe detection device and the pipeline to be detected is angled.
3. pipe testing apparatus test platform according to claim 1 or 2, which is characterized in that the bracket component (20)
Further include:
First driving device (23) is drivingly connected, to drive second mounting structure with second mounting structure (22)
(22) short transverse along the bracket (21) reciprocatingly slides;And/or
The pipe testing apparatus test platform further include:
Second driving device is drivingly connected, to drive the first mounting structure (12) edge with first mounting structure (12)
First preset direction and/or the movement of the second preset direction;Wherein, the height side of first preset direction and the bracket (21)
To being mutually perpendicular to, the short transverse of second preset direction and the bracket (21) is parallel to each other.
4. pipe testing apparatus test platform according to claim 1, which is characterized in that second mounting structure (22)
Include:
It installs ontology (221), for installing the pipeline to be detected;
Insulating part (222) is arranged on the installation ontology (221), to the pipeline to be detected and the installation ontology
(221) it is isolated.
5. pipe testing apparatus test platform according to claim 4, which is characterized in that the installation ontology (221) is in V
Shape or U-shaped or W-shaped or Y shape;Or installation ontology (221) has the mounting hole passed through for the pipeline to be detected.
6. pipe testing apparatus test platform according to claim 4, which is characterized in that second mounting structure (22)
It further include movement portion (223) of the setting on installation ontology (221), the bracket (21) includes:
Rack body (211), including column (211a), the column (211a) have sliding slot, and the movement portion (223) protrudes into institute
It states in sliding slot and can be moved along the extending direction of the sliding slot;
Reinforce frame body (212), is arranged on the rack body (211).
7. pipe testing apparatus test platform according to claim 6, which is characterized in that the movement portion (223) is more
It is a, the column (211a) be it is multiple, multiple columns (211a) set correspondingly with multiple movement portions (223)
It sets.
8. pipe testing apparatus test platform according to claim 4, which is characterized in that the bracket component (20) is also wrapped
It includes first driving device (23), the first driving device (23) and second mounting structure (22) are drivingly connected, with driving
Second mounting structure (22) reciprocatingly slides along the short transverse of the bracket (21), the bracket component (20) further include:
Transmission component (24) is all connected with, described first with the first driving device (23) and second mounting structure (22)
Driving device (23) drives the second mounting structure (22) movement by the transmission component (24).
9. pipe testing apparatus test platform according to claim 8, which is characterized in that second mounting structure (22)
It further include the extension (224) being connect with installation ontology (221), the extension (224) has threaded hole (224a), institute
Stating transmission component (24) includes:
First gear structure (241) is connect with the power output end of the first driving device (23);
Drive screw (242) is provided on one end of the drive screw (242) and mutually nibbles with the first gear structure (241)
The second gear structure (243) of conjunction, the other end of the drive screw (242) pass through the threaded hole (224a) and with the spiral shell
Pit (224a) is threadedly coupled;Wherein, the axis of the first gear structure (241) and the second gear structure (243)
Axis is arranged in angle.
10. pipe testing apparatus test platform according to claim 1, which is characterized in that first mounting structure
It (12) include the second mounting portion (121) that the pedestal (11) includes:
Base body (111), the bracket component (20) are arranged on the base body (111);
Sliding rail (112) is arranged on the base body (111), and the sliding rail (112) has auxiliary section, second installation
Portion (121) is matched with the auxiliary section, so that first mounting structure (12) can be along the extending direction of the sliding rail (112)
Sliding.
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