CN219455758U - Bionic inflatable model device for detecting joint strength - Google Patents
Bionic inflatable model device for detecting joint strength Download PDFInfo
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- CN219455758U CN219455758U CN202320741442.6U CN202320741442U CN219455758U CN 219455758 U CN219455758 U CN 219455758U CN 202320741442 U CN202320741442 U CN 202320741442U CN 219455758 U CN219455758 U CN 219455758U
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- lower box
- fixedly connected
- joint strength
- box body
- inflatable
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02E—REDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
- Y02E60/00—Enabling technologies; Technologies with a potential or indirect contribution to GHG emissions mitigation
- Y02E60/10—Energy storage using batteries
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Abstract
The utility model relates to the technical field of joint strength detection by a sewing process, in particular to a bionic inflatable model device for detecting joint strength, which comprises the following components: lower box, last box, control panel and power, lower box upper end is provided with the box, lower box front end is provided with control panel, lower box rear end fixedly connected with power, detection structure includes electric inflation compressor, electric inflation compressor fixed connection is at lower box inner wall, electric inflation compressor upper end fixedly connected with air feed copper pipe, air feed copper pipe keeps away from electric inflation compressor's one end fixedly connected with balloon metal seat. According to the utility model, the inflatable air bag sleeved in the test sample is inflated by adjusting air pressure, so that the purpose of stretching the joint is achieved, the joint strength is checked, the joint strength can be quickly known on the premise of not damaging a product, and the practicability of the device is improved.
Description
Technical Field
The utility model relates to the technical field of joint strength detection by a sewing process, in particular to a bionic inflatable model device for detecting joint strength.
Background
The seam strength of textiles or other products adopting a seam sewing process is a key index of seam sewing quality, and currently, aiming at the key index, the main stream seam strength checking method is to manufacture a test sample (cut a test sample from a finished product or manufacture a sewn test sample), then adopt a tension meter to carry out tensile failure, and check whether the strength after the tensile failure reaches the standard.
For example, a textile tensile strength detection device of the Chinese patent publication No. CN217277462U comprises a first supporting frame, a fabric breakage detection device, a second supporting frame, a distance detection structure, a roller and an air cylinder. The thumbtack penetrates through the detection fabric to be fixed on the roller, the roller is driven by the rotating rod to wind up the detection fabric and then is inserted into the through hole to be fixed, and the fabric is prevented from sliding. During detection, the air cylinder drives the connecting plate through the connecting rod, and the distance between the two rollers is increased. Through setting up photoelectric sensor, when detecting the surface fabric disconnection, photoelectric sensor can send the signal to the PLC controller control cylinder and stop, ensures the accuracy of the data that surveys.
The existing device joint strength checking method is to manufacture a test sample, then to adopt a tension meter to carry out tensile failure, and to check whether the strength after tensile failure meets the standard.
Disclosure of Invention
The utility model aims to provide a bionic inflatable model device for detecting joint strength, which is used for solving the problems that in the prior art, a test sample is manufactured by adopting a traditional device joint strength detection method, then a tension meter is adopted for carrying out tensile failure, and whether the strength after the tensile failure meets the standard or not is checked.
In order to achieve the above purpose, the present utility model provides the following technical solutions: a biomimetic inflatable model device for detecting joint strength, comprising: lower box, last box, control panel and power:
the upper end of the lower box body is provided with an upper box body, the front end of the lower box body is provided with a control panel, and the rear end of the lower box body is fixedly connected with a power supply;
the detection structure comprises an electric inflation compressor, the electric inflation compressor is fixedly connected to the inner wall of the lower box body, the upper end of the electric inflation compressor is fixedly connected with an air supply copper pipe, one end of the air supply copper pipe, which is far away from the electric inflation compressor, is fixedly connected with an air bag metal seat, the upper end of the air bag metal seat is provided with a barometer, the rear end of the air bag metal seat is fixedly connected with a metal air duct, one end of the metal air duct, which is far away from the air bag metal seat, is inserted into the air bag, and three groups of air bag metal seats are arranged;
the convenient moving structure comprises universal wheels, and the universal wheels are fixedly connected to the bottom end of the lower box body.
Preferably, the first mount pad of lower box lateral wall fixedly connected with, go up box lateral wall fixedly connected with second mount pad, first mount pad and the outside block of second mount pad have the limiting plate, the limiting plate is inside to be inserted and is equipped with the inserted bar, and the inserted bar inserts and establish inside first mount pad and second mount pad, the inserted bar inserts and establishes the partial surface winding in the spring is inside.
Preferably, the limiting plate is fixedly connected with a limiting block on the outer wall, the limiting block is inserted into the limiting groove, and the limiting groove is formed in the first mounting seat and the second mounting seat.
Preferably, the inflatable air bags are provided with three groups, and the inflatable air bags are respectively simulated into adult arms, adult legs and child arms.
Preferably, the support rod is inserted in the lower box body, the support rod can move in the lower box body, the anti-slip pad is fixedly connected to the bottom end of the support rod, the first limiting hole is formed in the lower box body, and the second limiting hole is formed in the lower box body.
Preferably, the anti-skid pad is made of rubber, and nanoscale anti-skid patterns are arranged at the bottom end of the anti-skid pad.
Preferably, the side wall of the supporting rod is fixedly connected with a sliding block, the sliding block is inserted into the sliding groove, and the sliding groove is formed in the lower box body.
Compared with the prior art, the utility model has the beneficial effects that:
the bionic inflatable model device for detecting joint strength is provided with a detection structure, when the bionic inflatable model device for detecting joint strength is used, the fabric of a sample to be detected is subjected to joint strength test to obtain the maximum tensile force when the joint is cracked, an inflatable air bag is manufactured according to the maximum tensile force, in order to minimize errors of the bionic inflatable model device, the joint strength test of the sample can be averaged, when the joint strength is required to be observed to be maximum, the inflatable air bag is firstly placed in the sample to be detected (such as an arm of clothes), then a power supply is electrified, a switch is turned on, an electric inflatable compressor starts to work to supply air, the inflatable air bag is inflated, the joint is broken by simulating human muscle expansion, the value of an air pressure gauge at the moment is the maximum value, the test is performed according to the joint strength value limited by a customer only when the test is qualified, the sample is not required to be destroyed when the joint is completely qualified, and particularly, resources can be greatly saved for the samples tested in batches, the condition that the garment is completely destroyed, the waste is avoided, the inflatable air bag is inflated, the inflatable air bag is sleeved in the sample (such as the arm of the clothes) to be observed, the maximum tensile joint is detected, the purpose of quickly damaging the joint is achieved, the tensile strength is realized, and the practicability is not improved, and the practicability is realized.
This a model device is aerifyd in bionical for detecting seam powerful is provided with convenient moving structure, when needs remove the device, utilize the universal wheel can convenient removal, when not removing and make the device steady, the pulling bracing piece, move down, drive slipmat synchronous downward movement, make slipmat and ground contact support, insert inside first spacing hole with the gag lever post afterwards, utilize bracing piece, slipmat and first spacing hole constitution supporting element, steady strutting arrangement, the slipmat material is rubber and the bottom is provided with nanoscale anti-skidding line, increase slipmat and the frictional force between the ground, the device is difficult for skidding when strutting arrangement, through this design, realize that the device can convenient removal, and can utilize the supporting element steady support the device during the use, practicality and convenience of device have been improved.
Drawings
FIG. 1 is a schematic elevational view of the structure of the present utility model;
FIG. 2 is a schematic elevational cross-sectional view of the structure of the present utility model;
FIG. 3 is a schematic side view in cross-section of a partial structure of the present utility model;
FIG. 4 is a schematic front cross-sectional view of the first mount, second mount, plunger and stopper of the present utility model;
fig. 5 is a schematic cross-sectional elevation view of the support bar and cleat of the present utility model.
In the figure: 111. a lower box body; 112. an upper case; 113. a control panel; 114. a power supply; 2. a detection structure; 211. an electric charge compressor; 212. a copper gas supply pipe; 213. a metal seat of the inflatable bag; 214. a barometer; 215. a metal airway; 216. an inflatable airbag; 217. a first mount; 218. a second mounting base; 219. a limiting plate; 220. a rod; 221. a spring; 222. a limiting block; 223. a limit groove; 3. a convenient moving structure; 311. a universal wheel; 312. a support rod; 313. an anti-slip pad; 314. a first limiting hole; 315. a second limiting hole; 316. a slide block; 317. and a sliding groove.
Description of the embodiments
The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.
Referring to fig. 1-5, an embodiment of the present utility model is provided:
a biomimetic inflatable model device for detecting joint strength, comprising: lower box 111, upper box 112, control panel 113 and power 114:
the upper end of the lower box body 111 is provided with an upper box body 112, the front end of the lower box body 111 is provided with a control panel 113, and the rear end of the lower box body 111 is fixedly connected with a power supply 114;
the detection structure 2, the detection structure 2 comprises an electric inflation compressor 211, the electric inflation compressor 211 is fixedly connected with the inner wall of the lower box 111, the upper end of the electric inflation compressor 211 is fixedly connected with an air supply copper pipe 212, one end of the air supply copper pipe 212, which is far away from the electric inflation compressor 211, is fixedly connected with an air bag metal seat 213, the upper end of the air bag metal seat 213 is provided with a barometer 214, the rear end of the air bag metal seat 213 is fixedly connected with a metal air duct 215, one end of the metal air duct 215, which is far away from the air bag metal seat 213, is inserted into the air bag 216, the air bag metal seat 213 is provided with three groups, the side wall of the lower box 111 is fixedly connected with a first mounting seat 217, the side wall of the upper box 112 is fixedly connected with a second mounting seat 218, the outer parts of the first mounting seat 217 and the second mounting seat 218 are clamped with a limiting plate 219, the inside of the limiting plate 219 is inserted with an inserting rod 220, the inserting rod 220 is inserted into the first mounting seat 217 and the second mounting seat 218, the part of the surface of the inserted rod 220 inserted in the spring 221 is wound with the spring 221, the electric inflating compressor 211 is pulled to move upwards, so that the inserted rod 220 moves out of the first mounting seat 217 and the second mounting seat 218, then the limiting plate 219 is pulled, the limiting plate 219 is not clamped with the first mounting seat 217 and the second mounting seat 218, convenient disassembly between the lower box 111 and the upper box 112 is completed, the limiting plate 219 is fixedly connected with the limiting block 222, the limiting block 222 is inserted in the limiting groove 223, the limiting groove 223 is formed in the first mounting seat 217 and the second mounting seat 218, when the limiting plate 219 is clamped outside the first mounting seat 217 and the second mounting seat 218, the limiting block 222 is synchronously inserted into the limiting groove 223, so that the clamping between the limiting plate 219, the first mounting seat 217 and the second mounting seat 218 is more stable, the stability of the device is improved, the inflatable air bags (216) are provided with three groups, the inflatable air bags (216) are respectively simulated to be an adult arm, an adult leg and a child arm, by the design, the inflatable air bags (216) are provided with three groups which are respectively set to be the adult arm, the adult leg and the child arm, and the joint strength of samples of different body structural parts can be detected;
the convenient moving structure 3, convenient moving structure 3 includes universal wheel 311, universal wheel 311 fixed connection is in box 111 bottom down, the inside bracing piece 312 that has inserted of box 111 down, and bracing piece 312 can be in the inside removal of box 111 down, bracing piece 312 bottom fixedly connected with slipmat 313, first spacing hole 314 has been seted up to bracing piece 312 inside, and first spacing hole 314 is seted up in box 111 down inside, the second spacing hole 315 has been seted up to box 111 inside down, through this design, the device utilizes universal wheel 311 can convenient removal, when not moving the messenger's device stability, pulling bracing piece 312, move down, drive slipmat 313 synchronous downwardly moving, make slipmat 313 support with ground contact, afterwards with the gag lever post insert inside first spacing hole 314, utilize bracing piece 312, slipmat 313 and first spacing hole 314 constitute the supporting unit, steady strutting arrangement, the slipmat 313 material is rubber, the slipmat 313 bottom is provided with the anti-skidding line of nanoscale, friction between the easy device of increase pad 313 and the ground is provided with the anti-skidding line of rubber and the bottom, the device is difficult for setting up at the inside of the bracing piece 316 when the inside is connected with the bracing piece 317 at the inside is realized at the fixed slider of the inside of the bracing piece, the inside is realized at the side wall of the support piece 317, the inside is realized at the side wall of the fixed connection of the support piece is moved, the inside is more stable, the inside is realized at the support piece is 317, the inside is moved, the inside is realized at the side wall is moved, the support piece is moved, the inside is 317, when is moved, and is used is 317, and is has a side is moved, and is used, and is a is used.
Working principle:
when the bionic inflatable model device for detecting joint strength is used, the fabric of a sample to be detected is firstly subjected to joint strength test to obtain the maximum tensile force when the joint is cracked, the inflatable air bags 216 are manufactured according to the maximum tensile force, in order to enable errors of the bionic inflatable model device to be minimum, the joint strength test of the sample can be averaged, when the joint strength is required to be observed to be maximum, the inflatable air bags 216 are firstly placed in the sample to be detected (such as arms of clothes), then the power supply 114 is electrified, the switch is turned on, the electric inflatable compressor 211 starts to work to supply air, the joint is inflated by simulating the muscle expansion of a human body, the value of the barometer 214 at the moment is the maximum value, and when only qualified test is performed according to the joint strength value defined by a customer, when the joint is completely qualified, the sample is not required to be destroyed, particularly, resources can be greatly saved for the samples tested in batches, and waste caused by largely destroying the intact clothes is avoided.
When the device needs to be moved, the universal wheels 311 can be used for moving conveniently, when the device is stable without moving, the supporting rods 312 are pulled to move downwards, the anti-slip pads 313 are driven to move downwards synchronously, the anti-slip pads 313 are enabled to be in contact with the ground to be supported, then the limiting rods are inserted into the first limiting holes 314, the supporting units are formed by the supporting rods 312, the anti-slip pads 313 and the first limiting holes 314, the supporting device is stabilized, the anti-slip pads 313 are made of rubber, nano anti-slip patterns are arranged at the bottoms of the anti-slip pads, friction between the anti-slip pads 313 and the ground is increased, and the device is not easy to slip when the supporting device is operated to end.
It will be evident to those skilled in the art that the utility model is not limited to the details of the foregoing illustrative embodiments, and that the present utility model may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are, therefore, to be considered in all respects as illustrative and not restrictive, the scope of the utility model being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.
Claims (7)
1. A biomimetic inflatable model device for detecting joint strength, comprising: lower box (111), go up box (112), control panel (113) and power (114), its characterized in that:
the device comprises a lower box body (111), wherein an upper box body (112) is arranged at the upper end of the lower box body (111), a control panel (113) is arranged at the front end of the lower box body (111), and a power supply (114) is connected to the rear end of the lower box body (111);
the detection structure (2), the detection structure (2) comprises an electric inflation compressor (211), the electric inflation compressor (211) is fixedly connected to the inner wall of the lower box body (111), the upper end of the electric inflation compressor (211) is fixedly connected with an air supply copper pipe (212), one end, far away from the electric inflation compressor (211), of the air supply copper pipe (212) is fixedly connected with an air bag metal seat (213), the upper end of the air bag metal seat (213) is provided with an air pressure gauge (214), the rear end of the air bag metal seat (213) is fixedly connected with a metal air duct (215), and one end, far away from the air bag metal seat (213), of the metal air duct (215) is inserted into the air bag (216);
the portable moving structure (3), portable moving structure (3) includes universal wheel (311), universal wheel (311) fixed connection is in lower box (111) bottom.
2. A biomimetic inflatable model device for detecting joint strength as in claim 1, wherein: the utility model discloses a box, including box (111) under, lower box (111) lateral wall fixedly connected with first mount pad (217), go up box (112) lateral wall fixedly connected with second mount pad (218), first mount pad (217) and outside block of second mount pad (218) have limiting plate (219), limiting plate (219) inside are inserted and are equipped with inserted bar (220), and inserted bar (220) are inserted and are established inside first mount pad (217) and second mount pad (218), part surface winding that inserted bar (220) were inserted and are established inside spring (221).
3. A biomimetic inflatable model device for detecting joint strength as in claim 2, wherein: limiting blocks (222) are fixedly connected to the outer wall of the limiting plate (219), the limiting blocks (222) are inserted into limiting grooves (223), and the limiting grooves (223) are formed in the first mounting seat (217) and the second mounting seat (218).
4. A biomimetic inflatable model device for detecting joint strength as in claim 1, wherein: the inflatable air bags (216) are provided with three groups, and the inflatable air bags (216) are respectively simulated into adult arms, adult legs and child arms.
5. A biomimetic inflatable model device for detecting joint strength as in claim 1, wherein: the support rod (312) is inserted into the lower box body (111), the support rod (312) can move in the lower box body (111), the anti-slip pad (313) is fixedly connected to the bottom end of the support rod (312), the first limiting hole (314) is formed in the lower box body (111), and the second limiting hole (315) is formed in the lower box body (111).
6. The bionic inflatable model device for detecting joint strength according to claim 5, wherein: the anti-skid pad (313) is made of rubber, and nanoscale anti-skid patterns are arranged at the bottom end of the anti-skid pad (313).
7. The bionic inflatable model device for detecting joint strength according to claim 5, wherein: the side wall of the supporting rod (312) is fixedly connected with a sliding block (316), the sliding block (316) is inserted into a sliding groove (317), and the sliding groove (317) is formed in the lower box body (111).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN202320741442.6U CN219455758U (en) | 2023-04-06 | 2023-04-06 | Bionic inflatable model device for detecting joint strength |
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CN202320741442.6U CN219455758U (en) | 2023-04-06 | 2023-04-06 | Bionic inflatable model device for detecting joint strength |
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CN219455758U true CN219455758U (en) | 2023-08-01 |
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CN202320741442.6U Active CN219455758U (en) | 2023-04-06 | 2023-04-06 | Bionic inflatable model device for detecting joint strength |
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2023
- 2023-04-06 CN CN202320741442.6U patent/CN219455758U/en active Active
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