CN205157354U - Fabrics compression resilience tester - Google Patents

Abstract

The utility model relates to a measuring tool, especially, relate to a fabrics compression resilience tester, including frame and control analysis mechanism, still including establishing loading system on the frame establishes detection chamber in the frame, loading system is equipped with distance measuring sensor, it is equipped with the detection bottom surface to detect the chamber bottom. The utility model discloses a loading system is right the fabrics carries out even effectual pressurization, and passes through whole pressurization procedure of control analysis mechanism controls and collection analysis the data that distance measuring sensor recorded finally cooperate the formula to reach the compression resilience data that the fabrics is accurate, have the simple compactness of mechanism, convenient operation in a flexible way, measure accurate swift advantage.

Description

A kind of textile compression resilience tester

Technical field

The utility model relates to a kind of survey instrument, particularly relates to a kind of textile compression resilience tester.

Background technology

Due to one of important indicator that compression resilience is quality of textile products quality, therefore need in process of production to carry out dependence test to obtain the compression resilience data of product to textile, current test mode mainly contains manual test and uses textile compression resilience tester to test.When using textile compression resilience tester, the accuracy rate of its test result and work efficiency can obtain larger lifting than with manual test.

The Chinese utility model patent that patent publication No. is CN201014974Y, publication date is 2008.01.30 discloses a kind of compression resilience tester of silk wadding quilt, comprise a worktable, test compressing tablet and two counterweights, described worktable comprises platform base and is located at the surveyors' staff upwards extended of platform base corner respectively, surveyors' staff described in each is provided with scale graticule, have spill room between two adjacent surveyors' staffs, the bottom of platform base is provided with rotating disk mechanism; The size of described test compressing tablet matches with the measurement cavity volume size surrounded by each surveyors' staff.Wherein, described surveyors' staff is made up of two orthogonal measurement walls.

But this utility model obtains compression rebound data by the method for scale manual measurement, and there is measuring accuracy low, efficiency is low, the irrational problem of apparatus structure.

Utility model content

The purpose of this utility model is to provide a kind of textile compression resilience tester, and it to pressurize to textile by pressing mechanism and draws textile compression resilience data accurately by the measurement of control analysis mechanism.

The technical scheme that the utility model overcomes the above problems employing is: a kind of textile compression resilience tester, comprise framework and control analysis mechanism, also comprise the pressing mechanism established on said frame, be located at the test chamber in described framework, described pressing mechanism is provided with distance measuring sensor, is provided with and detects bottom surface bottom described test chamber.Described in this setting, control analysis mechanism carries out pressurization protocols control to described pressing mechanism, and to the data analysis that described distance measuring sensor records, ensures the accuracy of the compression resilience data of the textile calculated.

Preferred technical scheme is further: described pressing mechanism is provided with the pressing plate for installing described distance measuring sensor, and described pressing plate upper bottom surface is placed with briquetting, and the motor that described briquetting is elevated by connecting rope and the described briquetting of control is connected.Described in this setting, pressing plate contacts with textile, increases contact area, pressure is applied more even, briquetting described in described Electric Machine Control, makes pressurization simple and easy to control.

Preferred technical scheme is further: described pressing plate bottom surface is evenly provided with four described distance measuring sensors, and described distance measuring sensor adopts the mode of wireless connections or wired connection to be communicated with described control analysis mechanism.These four described distance measuring sensors be evenly provided with in arranging, obtain four groups of data, have abundant, the rational advantage of data, ensure that the accuracy of textile compression resilience data.

Preferred technical scheme is further: described connecting rope connects described briquetting and motor by the support roller arranged on said frame.Support roller described in this setting ensure that described connecting rope can not occur to rub with described framework thus affect the accuracy of measurement data.

Further preferred technical scheme is: described briquetting is provided with cavity for being connected with described connecting rope and crosspiece, and the bottom surface of described cavity is arc surface.Arc surface described in this setting makes described connecting rope be more prone to through described cavity, also convenient with the connection of described briquetting.

Preferred technical scheme is further: described distance measuring sensor is laser displacement sensor.

Preferred technical scheme is further: described framework is provided with and is supported on the end face on described detection bottom surface and the support for connecting described detection bottom surface and described end face.

Preferred technical scheme is further: be provided with opening in the middle of described end face, and described connecting rope is through described opening.Opening described in this setting is located at the centre of described framework end face, directly over described pressing plate, ensures accuracy, rationality that pressure applies.

Preferred technical scheme is further: described motor and support roller are arranged on the top surface.This arranges the length that can reduce described connecting rope, reduces and affects the probability of compression resilience data accuracy because of producing interference to described connecting rope, and make whole tester structure compacter.

Preferred technical scheme is further: described control analysis mechanism comprises Electric Machine Control platform, distance measuring sensor controls receiving platform and marker's station.This makes described control analysis mechanism have the data controlling distance measuring sensor described in described motor, collection analysis and the function finally printing compression resilience data in arranging, have easy to operate, complete function, measure the advantage that efficiency is high.

The utility model is pressurizeed to textile uniformly and effectively by described pressing mechanism, and by data that distance measuring sensor described in the whole pressurization protocols of described control analysis mechanism controls and collection analysis records, finally draw textile compression resilience data accurately, there is mechanism simply compact, flexible to operation, measure the advantage of accurate quick.

Accompanying drawing explanation

Fig. 1 is structural representation of the present utility model.

Fig. 2 is the structural representation of briquetting in the utility model.

Embodiment

The following stated is only preferred embodiment of the present utility model, not limits scope of the present utility model.

Embodiment: as shown in accompanying drawing 1 and accompanying drawing 2, a kind of textile compression resilience tester, comprise framework 1 and control analysis mechanism 2, also comprise the pressing mechanism 3 be located on described framework 1, be located at the test chamber 4 in described framework 1, described pressing mechanism 3 is provided with distance measuring sensor 301, is provided with and detects bottom surface 401 bottom described test chamber 4.Described control analysis mechanism 2 carries out pressurization protocols control to described pressing mechanism 3, and to the data analysis that described distance measuring sensor 301 records, ensures the accuracy of the compression resilience data of the textile calculated.

Described pressing mechanism 3 is provided with the pressing plate 302 for installing described distance measuring sensor 301, described pressing plate 302 upper bottom surface is placed with briquetting 303, the motor 305 that described briquetting 303 is elevated by connecting rope 304 and the described briquetting 303 of control is connected, described pressing plate 302 contacts with textile, increase contact area, pressure is applied more even, described motor 305 controls described briquetting 303, makes pressurization simple and easy to control.Described pressing plate 302 bottom surface is evenly provided with four described distance measuring sensors 301, described distance measuring sensor 301 adopts the mode of wireless connections or wired connection to be communicated with described control analysis mechanism 2, four that are evenly provided with described distance measuring sensors 301, obtain four groups of data, there is abundant, the rational advantage of data, ensure that the accuracy of textile compression resilience data.Described connecting rope 304 connects described briquetting 303 and motor 305 by the support roller 306 be arranged on described framework 1, and described support roller 306 ensure that described connecting rope 304 can not occur to rub with described framework 1 thus affect the accuracy of measurement data.Described briquetting 303 is provided with cavity 30301 for being connected with described connecting rope 304 and crosspiece 30302, the bottom surface of described cavity 30301 is arc surface, described arc surface makes described connecting rope 304 be more prone to through described cavity, also convenient with the connection of described briquetting 303.Described distance measuring sensor 301 is laser displacement sensor.

Described framework 1 is provided with and is supported on the end face 101 on described detection bottom surface 401 and the support 102 for connecting described detection bottom surface 401 and described end face 101.Be provided with opening 103 in the middle of described end face 101, described connecting rope 304 is through described opening 103, and described opening 103 is located at the centre of described framework end face 101, directly over described pressing plate 302, ensures accuracy, rationality that pressure applies.Described motor 305 and support roller 306 are arranged on described end face 101, this arranges the length that can reduce described connecting rope 304, reduce and affect the probability of compression resilience data accuracy because of producing interference to described connecting rope 304, and make whole tester structure compacter.

Described control analysis mechanism 2 comprises Electric Machine Control platform 201, distance measuring sensor controls receiving platform 202 and marker's station 203, described control analysis mechanism 2 has the data and the last function printing compression resilience data that control distance measuring sensor 301 described in described motor 305, collection analysis, have easy to operate, complete function, measures the advantage that efficiency is high.

When the compression resilience data of described textile are measured, first described textile to be placed on described detection bottom surface 401 and evenly corresponding with described pressing plate 302, described textile is put described pressing plate 302, then drives the briquetting 303 of described 2kg by described motor 305.After described briquetting 303 is placed on the central 30s of described pressing plate 302, promote described briquetting 303 and leave described pressing plate 302, keep 30s, repeating above operation is for 2 times measure corner height by distance measuring sensor 301 immediately after described briquetting 303 third time being promoted to leave described pressing plate 302 afterwards, averages and obtains QUOTE .Change the described briquetting 303 of 4kg, after being placed on the central 30s of described pressing plate 302 by described motor 301 drive, measuring corner height by described distance measuring sensor 301 immediately, average and obtain QUOTE , then promote described briquetting 303 and leave described pressing plate 302, after 180s, measure corner height immediately, average and obtain QUOTE .By QUOTE , QUOTE and QUOTE the compression resilience data of described textile are obtained according to following formulae discovery.The compression resilience data of described textile comprise compressibility and rebound degree, and described compressibility is QUOTE ,

Described rebound degree is QUOTE ,

The utility model is pressurizeed to described textile uniformly and effectively by described pressing mechanism 3, and control by described control analysis mechanism 2 data that described in whole pressurization protocols and collection analysis, distance measuring sensor 301 records, final cooperation formula draws textile compression resilience data accurately, there is mechanism simply compact, flexible to operation, measure the advantage of accurate quick.

By reference to the accompanying drawings embodiment of the present utility model is explained in detail above, but the utility model is not limited to above-mentioned embodiment, in the ken that described technical field those of ordinary skill possesses, various amendment can also be made under the prerequisite not departing from the utility model aim.These are all not creative amendments, as long as be all subject to the protection of Patent Law in right of the present utility model.

Claims (10)

1. a textile compression resilience tester, comprise framework (1) and control analysis mechanism (2), it is characterized in that: also comprise the pressing mechanism (3) be located on described framework (1), be located at the test chamber (4) in described framework (1), described pressing mechanism (3) is provided with distance measuring sensor (301), and described test chamber (4) bottom is provided with detects bottom surface (401).

2. a kind of textile compression resilience tester according to claim 1, it is characterized in that: described pressing mechanism (3) is provided with the pressing plate (302) for installing described distance measuring sensor (301), described pressing plate (302) upper bottom surface is placed with briquetting (303), and the motor (305) that described briquetting (303) is elevated by connecting rope (304) and the described briquetting of control (303) is connected.

3. a kind of textile compression resilience tester according to claim 2, it is characterized in that: described pressing plate (302) bottom surface is evenly provided with four described distance measuring sensors (301), described distance measuring sensor (301) adopts the mode of wireless connections or wired connection to be communicated with described control analysis mechanism (2).

4. a kind of textile compression resilience tester according to claim 2, is characterized in that: described connecting rope (304) connects described briquetting (303) and motor (305) by the support roller (306) be arranged on described framework (1).

5. a kind of textile compression resilience tester according to claim 2, it is characterized in that: described briquetting (303) is provided with cavity (30301) for being connected with described connecting rope (304) and crosspiece (30302), and the bottom surface of described cavity (30301) is arc surface.

6. a kind of textile compression resilience tester according to claim 2, is characterized in that: described distance measuring sensor (301) is laser displacement sensor.

7. a kind of textile compression resilience tester according to claim 4, is characterized in that: described framework (1) is provided with and is supported on the end face (101) on described detection bottom surface (401) and the support (102) for connecting described detection bottom surface (401) and described end face (101).

8. a kind of textile compression resilience tester according to claim 7, is characterized in that: be provided with opening (103) in the middle of described end face (101), described connecting rope (304) is through described opening (103).

9. a kind of textile compression resilience tester according to claim 7, is characterized in that: described motor (305) and support roller (306) are arranged on described end face (101).

10. a kind of textile compression resilience tester according to claim 1, is characterized in that: described control analysis mechanism (2) comprises Electric Machine Control platform (201), distance measuring sensor controls receiving platform (202) and marker's station (203).