CN205003043U - Wear -resisting tester of two emery wheel method fabricss - Google Patents

Abstract

The utility model provides a wear -resisting tester of two emery wheel method fabricss, the on -line screen storage device comprises a base, be equipped with the buncher in the base, the buncher is connected year model machine and is constructed, carry the model machine and construct the bilateral symmetry and be equipped with two sets of pendulum -arm mechanism, be equipped with a set of grinding head institution on every pendulum -arm mechanism of group, be equipped with the control panel of control buncher at outer surface of the base, last circuit board, screen and the button of being equipped with of control panel. This tester can carry out accurate test to the wear resistance of materials such as fabrics, knit goods, and simple structure, convenient to use.

Description

A kind of double abrasive wheel method textile wear-resistant tester

Technical field

The utility model relates generally to the anti-wear performance technical field of measurement and test of the materials such as various textile, knit goods, specifically a kind of double abrasive wheel method textile wear-resistant tester.

Background technology

For some textiles, as from very thin silk to thicker woollen goods, camel hair, carpet and knit goods, as the undertoe on socks, heel and socks body such as to compare at the test all needing to carry out anti-wear performance, the method adding counterweight by spin friction tests the wearing quality under different operating mode.

It is comparatively complicated generally to there is structure in traditional equipment carrying out anti-wear performance test for textile etc., the inaccurate shortcoming of test result, and its rotating mechanism rotating speed is non-adjustable, the realistic simulation under multi-state can not be carried out, make the use of testing apparatus receive limitation.

Utility model content

For solving the deficiency of current technology, the utility model, in conjunction with prior art, from practical application, provides a kind of double abrasive wheel method textile wear-resistant tester, this tester can be tested accurately to the anti-wear performance of the material such as textile, knit goods, and structure is simple, easy to use.

For achieving the above object, the technical solution of the utility model is as follows:

A kind of double abrasive wheel method textile wear-resistant tester, comprise base, buncher is provided with in described base, described buncher connects load sample mechanism, described load sample mechanism symmetria bilateralis is provided with two groups of oscillating arm mechanisms, often organize oscillating arm mechanisms and be provided with one group of grinding head mechanism, be provided with the control panel controlling buncher at base outer surface, described control panel is provided with circuit board, screen and button.

Described load sample mechanism comprises sample tray, spinning clampband, securing member, and described sample tray connects buncher, and described spinning clampband is coated on sample tray outer ring, and described securing member is arranged on sample tray end face center.

Described oscillating arm mechanisms comprises swing arm frame, arm shaft and swing arm, and described swing arm frame is fixed on base, and described arm shaft is fixed on swing arm frame, and described swing arm is rotating to be fixed on arm shaft.

Described grinding head mechanism comprises grinding head shaft, emery wheel and counterweight, and described grinding head shaft is fixed in oscillating arm mechanisms, and described counterweight and emery wheel are rotating is respectively arranged on grinding head shaft two ends.

Also comprise dust sucking plant, the suction nozzle of described dust sucking plant is positioned at two groups of grinding head mechanism centre positions.

Described dust sucking plant comprises suction nozzle, suction nozzle frame, suction cleaner joint, and described suction nozzle frame is fixed in base, and described suction nozzle is arranged on suction nozzle frame, and suction nozzle is provided with suction nozzle, and described suction cleaner joint is fixed on base exterior and is connected to suction nozzle by pipeline.

Described button comprises power switch and speed governing knob.

Corner place, described base bottom is respectively equipped with a height-adjustable footing.

The beneficial effects of the utility model:

1, tester of the present utility model can be tested accurately to the anti-wear performance of the material such as textile, knit goods, can test the anti-wear performance under various working, and tester structure is simple, and easy to operate, automaticity is high.

2, the clamping sample that load sample mechanism of the present utility model can be firm, sample easy installation and removal, wear-resisting head adopts double abrasive wheel to coordinate with counterweight, can test the wearing quality of sample under multiple pressure.

3, motor of the present utility model is buncher, can carry out any speed governing, meets the anti-wear performance test of sample under different rotating speeds.

4, the utility model is furnished with dust sucking plant, can absorb the dust after wearing and tearing, ensures the health of the clean of working environment and operator.

5, substructure height of the present utility model is adjustable, facilitates leveling to install and operation use.

Accompanying drawing explanation

Accompanying drawing 1 is one of the utility model general structure schematic diagram;

Accompanying drawing 2 is the utility model general structure schematic diagram two;

Accompanying drawing 3 is the utility model load sample structural scheme of mechanism;

Accompanying drawing 4 is the utility model oscillating arm mechanisms and grinding head mechanism schematic diagram;

Accompanying drawing 5 is the utility model dust sucking plant schematic diagram.

Label shown in accompanying drawing: 1, footing; 2, base; 3, load sample mechanism; 4, dust sucking plant; 5, oscillating arm mechanisms; 6, grinding head mechanism; 7, control panel; 8, buncher; 31, securing member; 32, sample tray; 33, spinning clampband; 41, suction cleaner joint; 42, suction nozzle; 43, suction nozzle frame; 44, suction nozzle; 51, swing arm frame; 52, arm shaft; 53, swing arm; 61, emery wheel; 62, grinding head shaft; 63, counterweight.

Embodiment

By reference to the accompanying drawings and specific embodiment, the utility model is described in further detail.Should be understood that these embodiments are only not used in restriction scope of the present utility model for illustration of the utility model.In addition should be understood that those skilled in the art can make various changes or modifications the utility model, and these equivalent form of values fall within the application's appended claims limited range equally after the content of having read the utility model instruction.

A kind of double abrasive wheel method textile wear-resistant tester, comprise base 2, buncher 8 is provided with in described base 2, described buncher 8 connects load sample mechanism 3, described load sample mechanism 3 symmetria bilateralis is provided with two groups of oscillating arm mechanisms 5, often organize oscillating arm mechanisms 5 and be provided with one group of grinding head mechanism 6, be provided with the control panel 7 controlling buncher 8 at base 2 outside surface, described control panel 7 is provided with circuit board, screen and button.

As shown in figure 1 and 2, this uses novel buncher 8 can control load sample mechanism 3 and rotates, and regulates its rotating speed by control panel 7, under different rotating speeds operating mode can be realized, and the test of sample wearing quality; Load sample mechanism 3, for clamping sample, makes sample carry out in a tensioned state; Oscillating arm mechanisms 5 can be arranged on base 2, and it can control the swing of grinding head mechanism 6 to place sample, and grinding head mechanism 6, for providing friction force in various degree, to sample with suitable load, makes test be undertaken by pressure in difference.

Load sample mechanism 3 of the present utility model concrete structure is: comprise sample tray 32, spinning clampband 33, securing member 31, described sample tray 32 connects buncher 8, described spinning clampband 33 is coated on sample tray 32 outer ring, and described securing member 31 is arranged on sample tray 32 end face center.As shown in Figure 3, it is inner that buncher 8 is fixed on base 2 by motor link plate, sample tray 32 comprises disk body and coupling shaft, wherein disk body and coupling shaft one-body molded, coupling shaft is connected by key with buncher 8, spinning clampband 33 is coated on sample tray 32 outer ring, its thickness is greater than sample tray 32, spinning clampband 33 by screw fastening, to clamp sample, securing member 31 comprises pad and fastening nut, for compressing sample.It is convenient and swift, simple to operate that this structure places sample, fixed to sample.

Oscillating arm mechanisms 5 concrete structure of the present utility model is: comprise swing arm frame 51, arm shaft 52 and swing arm 53, and described swing arm frame 51 is fixed on base 2, and described arm shaft 52 is fixed on swing arm frame 51, and described swing arm 53 is rotating to be fixed on arm shaft 52.As shown in Figure 4, often organize oscillating arm mechanisms 5 and comprise between two swing arm framves, 51, two swing arm framves 51 and fix an arm shaft 52, swing arm 53 is arranged on arm shaft 52 by bearing, and the swing arm 53 after installation is rotatable.

Grinding head mechanism 6 concrete structure is: comprise grinding head shaft 62, emery wheel 61 and counterweight 63, and described grinding head shaft 62 is fixed in oscillating arm mechanisms 5, and described counterweight 63 and emery wheel 61 are rotating is respectively arranged on grinding head shaft 62 two ends.As shown in Figure 4, grinding head shaft 62 is connected with swing arm 53 by bearing, and the grinding head shaft 62 of swing arm 53 both sides installs counterweight 63 and emery wheel 61 respectively, and counterweight 63 is all connected with grinding head shaft 62 by bearing with emery wheel 61, can freely rotate.Two groups of grinding head mechanism 6 symmetries be arranged on sample tray 32 both sides, emery wheel 61 is positioned at sample tray 32 top, provides friction force for giving the sample on sample tray 32.

The utility model also comprises dust sucking plant 4, the suction nozzle 44 of described dust sucking plant 4 is positioned at two groups of grinding head mechanism 6 centre positions, dust sucking plant 4 comprises suction nozzle 42, suction nozzle frame 43, suction cleaner joint 41, described suction nozzle frame 43 is fixed in base 2, described suction nozzle 42 is arranged on suction nozzle frame 43, suction nozzle 42 is provided with suction nozzle 44, and described suction cleaner joint 41 is fixed on base 2 outside and is connected to suction nozzle 42 by pipeline.As shown in accompanying drawing 2,5, suction cleaner joint 41 is arranged on base 2 rear lower portion, conveniently connect suction cleaner, its inside is connected to suction nozzle 42 by pipeline, suction nozzle 44 on suction nozzle 42, for receiving the dust after wearing and tearing, is provided with the screw of adjustable suction nozzle 42 height at suction nozzle 42 rear portion, can carry out height and regulate after unclamping screw, for being articulated and connected between suction nozzle 42 and suction nozzle frame 43, facilitate lifting of suction nozzle 42.

Control panel 7 of the present utility model is provided with power switch and speed governing knob, is respectively used to the rotating speed controlling general supply and buncher 8.

A height-adjustable footing 1 is respectively equipped with, for height and the level of adjusting base 2 at corner place, base 2 bottom.

Using method of the present utility model is as follows:

1, the constant temperature and humidity state that sample is placed on testing laboratory can be applied after lower 24 hours, as the institute without thermostatic constant wet equipment, several sample is tested under being preferably placed on same atmospheric pressure, to reduce impact test as far as possible;

2, with screwing bail 33, the sample cut being compressed, then securing member above sample 31 being screwed;

3, the 63 pairs of sample pressurizations of suitable counterweight are selected; Suitable emery wheel 61 is selected to do abrasive material;

4, the height of dust sucking plant 4 is regulated, to be advisable from specimen surface 1 ~ 1.5mm;

5, switch on power, turn on the power switch; Set the required number of turns of rotating and start test;

6, when after off-test, instrument stops automatically, swing arm 53, suction nozzle 42 is lifted, takes off style, change new, can continue test after cleaning emery wheel 61.

Claims (8)

1. a double abrasive wheel method textile wear-resistant tester, comprise base (2), it is characterized in that: in described base (2), be provided with buncher (8), described buncher (8) connects load sample mechanism (3), described load sample mechanism (3) symmetria bilateralis is provided with two groups of oscillating arm mechanisms (5), often organize oscillating arm mechanisms (5) and be provided with one group of grinding head mechanism (6), be provided with the control panel (7) controlling buncher (8) at base (2) outside surface, described control panel (7) is provided with circuit board, screen and button.

2. a kind of double abrasive wheel method textile wear-resistant tester as claimed in claim 1, it is characterized in that: described load sample mechanism (3) comprises sample tray (32), spinning clampband (33), securing member (31), described sample tray (32) connects buncher (8), described spinning clampband (33) is coated on sample tray (32) outer ring, and described securing member (31) is arranged on sample tray (32) end face center.

3. a kind of double abrasive wheel method textile wear-resistant tester as claimed in claim 1, it is characterized in that: described oscillating arm mechanisms (5) comprises swing arm frame (51), arm shaft (52) and swing arm (53), described swing arm frame (51) is fixed on base (2), described arm shaft (52) is fixed on swing arm frame (51), and described swing arm (53) is rotating to be fixed on arm shaft (52).

4. a kind of double abrasive wheel method textile wear-resistant tester as claimed in claim 1, it is characterized in that: described grinding head mechanism (6) comprises grinding head shaft (62), emery wheel (61) and counterweight (63), described grinding head shaft (62) is fixed in oscillating arm mechanisms (5), and described counterweight (63) and emery wheel (61) are rotating is respectively arranged on grinding head shaft (62) two ends.

5. a kind of double abrasive wheel method textile wear-resistant tester as claimed in claim 1, it is characterized in that: also comprise dust sucking plant (4), the suction nozzle (44) of described dust sucking plant (4) is positioned at two groups of grinding head mechanism (6) centre positions.

6. a kind of double abrasive wheel method textile wear-resistant tester as claimed in claim 5, it is characterized in that: described dust sucking plant (4) comprises suction nozzle (42), suction nozzle frame (43), suction cleaner joint (41), described suction nozzle frame (43) is fixed in base (2), described suction nozzle (42) is arranged on suction nozzle frame (43), suction nozzle (42) is provided with suction nozzle (44), and described suction cleaner joint (41) is fixed on base (2) outside and is connected to suction nozzle (42) by pipeline.

7. a kind of double abrasive wheel method textile wear-resistant tester as claimed in claim 1, is characterized in that: described button comprises power switch and speed governing knob.

8. a kind of double abrasive wheel method textile wear-resistant tester as claimed in claim 1, is characterized in that: described base (2) corner, bottom place is respectively equipped with a height-adjustable footing (1).