CN217084512U - Mesh fabric fitness detection device - Google Patents

Mesh fabric fitness detection device Download PDF

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Publication number
CN217084512U
CN217084512U CN202220924841.1U CN202220924841U CN217084512U CN 217084512 U CN217084512 U CN 217084512U CN 202220924841 U CN202220924841 U CN 202220924841U CN 217084512 U CN217084512 U CN 217084512U
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China
Prior art keywords
detection plate
plate
supporting seat
shaped
lower detection
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CN202220924841.1U
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Chinese (zh)
Inventor
辛德国
王海祥
徐西刚
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Taishan Fiberglass Inc
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Taishan Fiberglass Inc
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Priority to CN202220924841.1U priority Critical patent/CN217084512U/en
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Abstract

The utility model relates to a net cloth detects technical field, concretely relates to net cloth docile nature detection device. Comprises a supporting seat, a detection plate and a pressurizing heavy object, wherein the detection plate comprises an upper detection plate and a lower detection plate; the cross sections of the upper detection plate and the lower detection plate are V-shaped, the V-shaped top end of the lower detection plate is positioned in the supporting seat, and two V-shaped side plates of the lower detection plate are connected with the side surfaces of the supporting seat; the upper detection plate is positioned right above the lower detection plate, a grid cloth sample is placed in a gap formed between the upper detection plate and the lower detection plate, and a pressurizing weight is placed above the upper detection plate. The utility model discloses simple structure, it is convenient to detect, is favorable to guaranteeing going on smoothly of construction work.

Description

Mesh fabric fitness detection device
Technical Field
The utility model relates to a net cloth detects technical field, concretely relates to net cloth docile nature detection device.
Background
The glass fiber mesh cloth is mainly used for external wall heat preservation and reinforcement. In order to improve the alkali resistance of the mesh cloth and facilitate construction, the mesh cloth needs to be coated with a high polymer material for reinforcement. After the glass fiber mesh cloth is coated with the glue, the cloth cover has certain elasticity, and after the mesh cloth is bent, the mesh cloth automatically returns to be straight, so that the problem of insufficient fitness exists when the mesh cloth is used on a non-plane surface, and the use is influenced.
The Shanghai city of 6.2020, T/STDA043-2020 Standard "S-shaped pressing and facing building construction for repairing mesh cloth in building external wall insulation System", the mesh cloth in the external wall insulation structure needs to be bent repeatedly, the mesh cloth is bent 90 degrees 4 times within 1 m in length during construction, and if the mesh cloth is automatically bounced, the construction is inconvenient.
Therefore, there is a need for an apparatus capable of effectively detecting the conformability of the mesh fabric, which avoids the inconvenience of construction.
SUMMERY OF THE UTILITY MODEL
The utility model aims at providing a net cloth docile nature detection device, simple structure detects the convenience, and detection efficiency is higher.
The utility model provides a technical scheme that its technical problem adopted is:
the mesh cloth fitness detection device comprises a supporting seat, a detection plate and a pressurizing heavy object, wherein the detection plate comprises an upper detection plate and a lower detection plate; the cross sections of the upper detection plate and the lower detection plate are V-shaped, the V-shaped top end of the lower detection plate is positioned in the supporting seat, and two V-shaped side plates of the lower detection plate are connected with side plates of the supporting seat; the upper detection plate is positioned right above the lower detection plate, a grid cloth sample is placed in a gap formed between the upper detection plate and the lower detection plate, and a pressurizing weight is placed above the upper detection plate.
Wherein:
the V-shaped of last pick-up plate and lower pick-up plate all be the right angle setting, and the structure is the same, the material is stainless steel material.
The width of the single-side plate of the upper detection plate and the width of the single-side plate of the lower detection plate are both 200-250mm, preferably 200 mm; the length is 200-250mm, preferably 200 mm.
The cross section of the supporting seat is U-shaped.
The whole pressurizing heavy object is arranged in a cube shape.
The length of the pressurized heavy object is 200-250mm, preferably 200 mm; the weight is 1000-1200g, preferably 1000 g.
The utility model discloses a testing process as follows:
grid cloth sampling: after the grid cloth roll is opened, removing the excircle of the cloth roll by 3-5 meters, and starting to sample; and cutting a gridding cloth sample 3 with the width of 400 +/-10 mm and the length of 200mm on the same cloth roll, wherein the long edge of the gridding cloth sample 3 is parallel to the latitudinal direction of the gridding cloth.
Sample treatment: the gridding cloth sample is placed and balanced for 2 hours in a plane in an environment with the temperature of 23 +/-2 ℃ and the relative humidity of 50 +/-5 percent.
And (3) sample detection: the V-shaped top end of the lower detection plate is positioned in the supporting seat, and two V-shaped side plates of the lower detection plate are connected with side plates of the supporting seat; under the detection environment with the temperature of 23 +/-2 ℃ and the relative humidity of 50 +/-5%, placing a mesh cloth sample on a lower detection plate, and sequentially pressing an upper detection plate and a pressurized heavy object; pressurizing for 1-2 minutes, removing the upper detection plate and the pressurizing weight, and measuring the bounce height of the grid cloth sample after 1-2 minutes.
Evaluating the fitness of the mesh fabric: if the bounce height of the grid cloth sample is small, the grid cloth is good in fitness; if the bounce height of the mesh fabric sample is large, the mesh fabric is poor in fitness.
Compared with the prior art, the utility model discloses following beneficial effect has:
the utility model discloses an among the detection device, go up the pick-up plate and the transversal right angle V style of calligraphy of personally submitting of lower pick-up plate, the V style of calligraphy top of lower pick-up plate is located the supporting seat, and the side board of the V style of calligraphy both sides board joint support seat of lower pick-up plate, the transversal U style of calligraphy setting of personally submitting of supporting seat play the fixed action to lower pick-up plate. Go up the pick-up plate and be located under the pick-up plate directly over, place net cloth sample in the space that forms between last pick-up plate and the lower pick-up plate, the top of going up the pick-up plate is placed the pressurization heavy object and is exerted pressure, the whole square setting that is of pressurization heavy object, the right angle of pressurization heavy object suits with the right angle V style of calligraphy of last pick-up plate, utilize the pick-up plate, the structure of lower pick-up plate and pressurization heavy object, can suppress net cloth sample into certain angle, after a period of pressurization, remove the pick-up plate, the pressurization is heavy, measure the bounce height of net cloth sample, thereby judge the docile nature of net cloth. The utility model discloses can detect the docile nature of net cloth, simple structure, the operation of being convenient for, and detection efficiency is higher, is favorable to guaranteeing going on smoothly of construction work.
Drawings
Fig. 1 is a schematic structural view of the present invention;
in the figure: 1. pressing a weight; 2. an upper detection plate; 3. a mesh fabric sample; 4. a lower detection plate; 5. and (4) supporting the base.
Detailed Description
The present invention will be further described with reference to the following examples.
Example 1
As shown in fig. 1, the mesh cloth compliance detection device comprises a supporting seat 5, a detection plate and a pressurizing weight 1, wherein the detection plate comprises an upper detection plate 2 and a lower detection plate 4; the cross sections of the upper detection plate 2 and the lower detection plate 4 are V-shaped, the V-shaped top end of the lower detection plate 4 is positioned in the supporting seat 5, and two V-shaped side plates of the lower detection plate 4 are connected with side plates of the supporting seat 5; the upper detection plate 2 is positioned right above the lower detection plate 4, a grid cloth sample 3 is placed in a gap formed between the upper detection plate 2 and the lower detection plate 4, and a pressurizing weight 1 is placed above the upper detection plate 2.
Wherein:
the V-shaped of the upper detection plate 2 and the lower detection plate 4 are arranged at right angles, have the same structure and are made of stainless steel materials.
The width of the single-side plate of the upper detection plate 2 and the width of the single-side plate of the lower detection plate 4 are both 200mm, and the length of the single-side plate is both 200 mm.
The cross section of the supporting seat 5 is U-shaped.
The whole pressurizing weight 1 is arranged in a cube shape.
The weight 1 was 200mm long and 1000g in weight.
The utility model discloses a testing process is:
grid cloth sampling: after the grid cloth roll is opened, removing the excircle of the cloth roll for 3-5 m, and starting sampling; and cutting a gridding cloth sample 3 with the width of 400 +/-10 mm and the length of 200mm on the same cloth roll, wherein the long edge of the gridding cloth sample 3 is parallel to the latitudinal direction of the gridding cloth.
Sample treatment: the mesh cloth sample 3 is placed in a plane for balancing for 2 hours in an environment with the temperature of 23 +/-2 ℃ and the relative humidity of 50 +/-5 percent.
And (3) sample detection: the V-shaped top end of the lower detection plate 4 is positioned in the supporting seat 5, and two V-shaped side plates of the lower detection plate 4 are connected with side plates of the supporting seat 5; under the detection environment with the temperature of 23 +/-2 ℃ and the relative humidity of 50 +/-5%, placing a gridding cloth sample 3 on a lower detection plate 4, and sequentially pressing an upper detection plate 2 and a pressed heavy object 1; pressurizing for 1 minute, removing the upper detection plate 2 and the pressurized weight 1, and measuring the bounce height of the grid cloth sample 3 after 1 minute.
Evaluating the fitness of the mesh fabric: when the mesh fabric sample 3 has a small spring height, the mesh fabric has a good fit.

Claims (6)

1. A mesh fabric fitness detection device is characterized in that: the detection device comprises a supporting seat (5), a detection plate and a pressurizing weight (1), wherein the detection plate comprises an upper detection plate (2) and a lower detection plate (4); the cross sections of the upper detection plate (2) and the lower detection plate (4) are V-shaped, the V-shaped top end of the lower detection plate (4) is positioned in the supporting seat (5), and two V-shaped side plates of the lower detection plate (4) are connected with side plates of the supporting seat (5); the upper detection plate (2) is positioned right above the lower detection plate (4), a grid cloth sample (3) is placed in a gap formed between the upper detection plate (2) and the lower detection plate (4), and a pressurizing weight (1) is placed above the upper detection plate (2).
2. The mesh fabric fitness detection device of claim 1, wherein: the V-shaped parts of the upper detection plate (2) and the lower detection plate (4) are arranged at right angles and have the same structure.
3. The mesh fabric fitness detection device of claim 1, wherein: the width of the single-side plate of the upper detection plate (2) and the length of the single-side plate of the lower detection plate (4) are both 200-250mm, and the length of the single-side plate is both 200-250 mm.
4. The mesh fabric fitness detection device of claim 1, wherein: the cross section of the supporting seat (5) is U-shaped.
5. The mesh fabric fitness detection device of claim 1, wherein: the whole pressurizing weight (1) is arranged in a cube shape.
6. The mesh fabric fitness detection device of claim 1, wherein: the length of the pressure weight (1) is 200-.
CN202220924841.1U 2022-04-20 2022-04-20 Mesh fabric fitness detection device Active CN217084512U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN202220924841.1U CN217084512U (en) 2022-04-20 2022-04-20 Mesh fabric fitness detection device

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN202220924841.1U CN217084512U (en) 2022-04-20 2022-04-20 Mesh fabric fitness detection device

Publications (1)

Publication Number Publication Date
CN217084512U true CN217084512U (en) 2022-07-29

Family

ID=82502484

Family Applications (1)

Application Number Title Priority Date Filing Date
CN202220924841.1U Active CN217084512U (en) 2022-04-20 2022-04-20 Mesh fabric fitness detection device

Country Status (1)

Country Link
CN (1) CN217084512U (en)

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