CN104297048A - Architectural decoration detection structure - Google Patents
Architectural decoration detection structure Download PDFInfo
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- CN104297048A CN104297048A CN201410616455.6A CN201410616455A CN104297048A CN 104297048 A CN104297048 A CN 104297048A CN 201410616455 A CN201410616455 A CN 201410616455A CN 104297048 A CN104297048 A CN 104297048A
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- stone material
- decorative element
- fixture
- building decoration
- detection architecture
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Abstract
The invention discloses an architectural decoration detection structure which comprises a decoration part and a clamp, wherein the clamp is arranged on a universal mechanical test machine; the decoration part is connected with the clamp; the decoration part is also connected with a sensor of the universal mechanical test machine and located at the lower part of the sensor; the stress of the decoration part is detected through the upward or downward movement of the sensor; the sensor is arranged in the direction of the detected stress. According to the architectural decoration detection structure, the decoration part is connected with the clamp on the universal mechanical test machine, and the stress of the decoration part is detected through the upward or downward movement of the sensor, so that operators can determine whether the decoration part is qualified or not, and the later problems can be decreased.
Description
Technical field
The present invention relates to a kind of detection architecture, be specifically related to a kind of building decoration detection architecture.
Background technology
At present, in decorative engineering, we can run into a lot of decorative element, as metope drydash material or dry-hang stone, the mode of drydash material directly utilizes dried hanging hang structure glue bond on the angle steel of metope by stone material, therefore drydash material exempts from fluting to stone material, stone material thickness can be thinning, is therefore applied widely in project, and the shear resistance contrast that dry sticky node shear resistance is how many and cladding, the intensity of which node is higher cannot be learnt; In addition, it is still unknown that dry-hanging piece for stone a feast for the eyes on market can bear great shearing, accurately cannot be applied by decorative element, thus can produce a series of problem in the later stage in reality decoration.
Summary of the invention
For solving the problems of the technologies described above, the object of the present invention is to provide a kind of building decoration detection architecture, accurately can test out the stress of decorative element, and according to the stress tested out, decorative element being applied suitably, thus reduce the problem of later stage generation.
Unless specifically stated otherwise, " stress " herein refers to the power that decorative element bears comprise shearing force, pulling capacity and shearing resistance etc.
For achieving the above object, technical scheme of the present invention is as follows:
The invention provides a kind of building decoration detection architecture, comprise decorative element, also comprise fixture, described fixture is located on omnipotent mechanics tester, described decorative element is connected with fixture, and described decorative element is also connected with the sensor of omnipotent mechanics tester, and is positioned at described sensor bottom, move up or down by sensor the stress measuring decorative element, described sensor is arranged along the direction of tested stress.
Building decoration detection architecture of the present invention, by decorative element is connected with the fixture be located on omnipotent mechanics tester, and move up or down by sensor the stress measuring decorative element, thus can know that whether decorative element is qualified, reduce the generation of late problems.
On the basis of technique scheme, the present invention also can make following improvement:
As preferred scheme, described fixture comprises base plate and at least one test board connected, and described base plate is connected with omnipotent mechanics tester, and described decorative element is connected with test board, and with test board place plane parallel.
Adopt above-mentioned preferred scheme, more adequately can test out the stress of decorative element.
As preferred scheme, described decorative element is the dry viscoelastic test block of stone material or stone material stainless steel dry hanging article.
As preferred scheme, when described decorative element is the dry viscoelastic test block of stone material, described stress is shearing force or the pulling capacity of the dry viscoelastic test block of stone material.
Adopt above-mentioned preferred scheme, sticky node can be done by fast clamp, ensure the accuracy of shearing force or pulling capacity test.
As preferred scheme, the dry viscoelastic test block of described stone material comprises angle steel and stone material, described stone material by stone material dry suspending structure glue and steel disc bonding, described sensor is connected with angle steel top.
Adopt above-mentioned preferred scheme, wall-surface stone can be simulated by dried hanging hang structure glue bond on angle steel, thus namely the concrete dry viscoelastic test block of stone material measures angle steel and stone material dry suspending structure glue, shearing force between stone material and stone material dry suspending structure glue.
As preferred scheme, when described stress is the shearing force of the dry viscoelastic test block of stone material, described fixture is two, and described test board is located at fixture side, and described decorative element is located between the test board of two fixtures.
Adopt above-mentioned preferred scheme, angle steel and stone material dry suspending structure glue, shearing force between stone material and stone material dry suspending structure glue can be detected, and detect angle steel and stone material dry suspending structure glue fast and between stone material and stone material dry suspending structure glue, who first destroys.
As preferred scheme, described base plate is fixed on omnipotent mechanics tester by pedestal, and described pedestal is provided with groove, and described fixture is connected with pedestal by groove.
Adopt above-mentioned preferred scheme, can by fixture in the enterprising line slip of groove, the fixed position of alignment jig.
As preferred scheme, when described stress is the pulling capacity of the dry viscoelastic test block of stone material, described fixture is provided with two test boards, and described test board is located at base plate both sides by web joint, and described decorative element is located between two test boards.
As preferred scheme, described sensor is by the connecting hole on angle steel and Bolted angle connection.
Adopt above-mentioned preferred scheme, sensor and Bolted angle connection can be made more firm.
As preferred scheme, when described decorative element is stone material stainless steel dry hanging article, described fixture side is connected with a test board by web joint, and described decorative element is connected with test board.
As preferred scheme, when described decorative element is stone material stainless steel dry hanging article, described stress is the shearing resistance of stone material stainless steel dry hanging article.
As preferred scheme, described decorative element is connected with fixture by web member.
As preferred scheme, described web member is bolt or nut.
Accompanying drawing explanation
Fig. 1 is building decoration detection architecture of the present invention for detecting the structural representation during shearing force of the dry viscoelastic test block of stone material;
Fig. 2 is building decoration detection architecture of the present invention for detecting the structural representation during pulling capacity of the dry viscoelastic test block of stone material;
Fig. 3 is building decoration detection architecture of the present invention for detecting the structural representation during shearing resistance of stone material stainless steel dry hanging article;
Wherein:
1. decorative element, 101. angle steel, 102. stone materials, 103. stone material dry suspending structure glue, 104. connecting holes, 2. fixture, 201. base plates, 202. test boards, 203 web joints, 3. omnipotent test machine, 4. sensor, 5. pedestal, 501. grooves, 6. web member.
Embodiment
The preferred embodiment of the present invention is described in detail below in conjunction with accompanying drawing.
In order to reach object of the present invention, in some embodiments, as shown in Figure 1, building decoration detection architecture of the present invention, comprise decorative element 1, also comprise fixture 2, described fixture 2 is located on omnipotent mechanics tester 3, described decorative element 1 is connected with fixture 2, described decorative element 2 is also connected with the sensor 4 of omnipotent mechanics tester 3, and be positioned at described sensor 4 bottom, move up or down by sensor 4 stress measuring decorative element 1, described sensor 4 is arranged along the direction of tested stress.By being connected with the fixture be located on omnipotent mechanics tester by decorative element, and move up or down by sensor the stress measuring decorative element, thus can know that whether decorative element is qualified, reduce the generation of late problems.
In order to optimize implementation result of the present invention further, described fixture 2 comprises base plate 201 and at least one test board 202 connected, described base plate 201 is connected with omnipotent mechanics tester 3, described decorative element 1 is connected with test board 202, and with test board 202 place plane parallel, thus more adequately can test out the stress of decorative element.
In order to optimize implementation result of the present invention further, described decorative element 1 is the dry viscoelastic test block of stone material or stone material stainless steel dry hanging article.
In order to optimize implementation result of the present invention further, when described decorative element 1 is the dry viscoelastic test block of stone material, described stress is shearing force or the pulling capacity of the dry viscoelastic test block of stone material.Sticky node can be done by fast clamp, ensure the accuracy of shearing force or pulling capacity test.
In order to optimize implementation result of the present invention further, the dry viscoelastic test block of described stone material comprises angle steel 101 and stone material 102, described stone material 102 is bonding by stone material dry suspending structure glue 103 and angle steel 101, described sensor 4 is connected with angle steel 101 top, thus can simulate wall-surface stone by dried hanging hang structure glue bond on angle steel, thus namely the concrete dry viscoelastic test block of stone material measures angle steel and stone material dry suspending structure glue, shearing force between stone material and stone material dry suspending structure glue.
In order to optimize implementation result of the present invention further, when described stress is the shearing force of the dry viscoelastic test block of stone material, described sensor parallels with the direction of tested shearing force, described fixture 2 is two, described test board 202 is located at fixture 2 side, described decorative element 1 is located between the test board 202 of two fixtures 2, thus angle steel and stone material dry suspending structure glue and the shearing force between stone material and stone material dry suspending structure glue can be detected, and checkout angle steel and stone material dry suspending structure glue and between stone material and stone material dry suspending structure glue, who first destroys fast.
In order to optimize implementation result of the present invention further, described base plate 201 is fixed on omnipotent mechanics tester 3 by pedestal 5, and described pedestal 5 is provided with groove 501, and described fixture 2 is connected with pedestal 5 by groove 501.Can by fixture in the enterprising line slip of groove, the fixed position of alignment jig.
In order to optimize implementation result of the present invention further, in some other embodiment, other are identical with aforementioned structure, different is, as shown in Figure 2, when described stress is the pulling capacity of the dry viscoelastic test block of stone material, described fixture 2 is provided with two test boards 202, described test board 202 is located at base plate 201 both sides by web joint, and described decorative element 1 is located between two test boards 202.
In order to optimize implementation result of the present invention further, described sensor 202 is connected with angle steel 101 by the connecting hole 104 on angle steel 101, thus sensor and Bolted angle connection can be made more firm.
In order to optimize implementation result of the present invention further, other are identical with aforementioned structure, different is, as shown in Figure 3, when described decorative element 1 is stone material stainless steel dry hanging article, described stress is the shearing resistance of material stainless steel dry hanging article, and described fixture 2 side is provided with a test board 202 by web joint, and described decorative element 1 is connected with test board 202.
In order to optimize implementation result of the present invention further, described decorative element 1 is connected with fixture 2 by web member 6.
In order to optimize implementation result of the present invention further, described web member 6 is bolt or nut.
During use, building decoration detection architecture in application drawing 1 or 3 detects, after decorative element 1 to be measured is prepared, simulate actual connected mode, again by ready decorative element 1 and the corresponding parallel connection of fixture 2, and decorative element 1 is placed in sensor 4 times perpendicular connections of omnipotent mechanics tester, then fixture 2 is connected with omnipotent mechanics tester 3, move down sensor 4, sensor 4 can respond to shearing force or the shearing resistance of decorative element 1, and data are passed to computer disposal.
When using the building decoration detection architecture in Fig. 2 to detect, different to be moved up by sensor 4, sensor 4 can respond to the pulling capacity of decorative element 1, and data are passed to computer disposal.
Above-described is only the preferred embodiment of the present invention, it should be pointed out that for the person of ordinary skill of the art, and without departing from the concept of the premise of the invention, can also make some distortion and improvement, these all belong to protection scope of the present invention.
Claims (10)
1. a building decoration detection architecture, comprise decorative element, it is characterized in that, also comprise fixture, described fixture is located on omnipotent mechanics tester, and described decorative element is connected with fixture, described decorative element is also connected with the sensor of omnipotent mechanics tester, and be positioned at described sensor bottom, move up or down by sensor the stress measuring decorative element, described sensor is arranged along the direction of tested stress.
2. building decoration detection architecture according to claim 1, it is characterized in that, described fixture comprises base plate and at least one test board connected, and described base plate is connected with omnipotent mechanics tester, described decorative element is connected with test board, and with test board place plane parallel.
3. building decoration detection architecture according to claim 2, is characterized in that, described decorative element is the dry viscoelastic test block of stone material or stone material stainless steel dry hanging article.
4. building decoration detection architecture according to claim 3, is characterized in that, when described decorative element is the dry viscoelastic test block of stone material, described stress is shearing force or the pulling capacity of the dry viscoelastic test block of stone material.
5. building decoration detection architecture according to claim 4, is characterized in that, the dry viscoelastic test block of described stone material comprises angle steel and stone material, described stone material by stone material dry suspending structure glue and steel disc bonding, described sensor is connected with angle steel top.
6. building decoration detection architecture according to claim 5, it is characterized in that, when described stress is the shearing force of the dry viscoelastic test block of stone material, described fixture is two, described test board is located at fixture side, and described decorative element is located between the test board of two fixtures.
7. building decoration detection architecture according to claim 6, is characterized in that, described base plate is fixed on omnipotent mechanics tester by pedestal, and described pedestal is provided with groove, and described fixture is connected with pedestal by groove.
8. building decoration detection architecture according to claim 5, it is characterized in that, when described stress is the pulling capacity of the dry viscoelastic test block of stone material, described fixture is provided with two test boards, described test board is located at base plate both sides by web joint, and described decorative element is located between two test boards.
9. building decoration detection architecture according to claim 8, is characterized in that, described sensor is by the connecting hole on angle steel and Bolted angle connection.
10. building decoration detection architecture according to any one of claim 1 to 9, is characterized in that, described decorative element is connected with fixture by web member.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201410616455.6A CN104297048B (en) | 2014-11-05 | 2014-11-05 | Building decoration detects structure |
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| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201410616455.6A CN104297048B (en) | 2014-11-05 | 2014-11-05 | Building decoration detects structure |
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| CN104297048A true CN104297048A (en) | 2015-01-21 |
| CN104297048B CN104297048B (en) | 2017-06-06 |
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| CN201410616455.6A Active CN104297048B (en) | 2014-11-05 | 2014-11-05 | Building decoration detects structure |
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| CN2198338Y (en) * | 1994-09-07 | 1995-05-24 | 北京环娜美建筑工程有限公司 | Fixing structure for dry connecting stone material |
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