CN204188460U - A kind of high molecule plastic intelligence puller system - Google Patents

Abstract

The utility model provides a kind of multi-functional high molecule plastic intelligence puller system, comprise worktable, framework, leading screw, electric driver mechanism, tension dynamometer etc., the upper end of described worktable is provided with framework, the inside of described framework is provided with leading screw, the inside of described worktable is provided with electric driver mechanism, described leading screw is connected with electric driver mechanism, the upper end of described framework is provided with back timber, described train wheel bridge is provided with upper grip, described train wheel bridge is arranged on back timber by tension dynamometer, described lower plate is provided with lower chuck, described lower plate is arranged on whippletree, the two ends of described whippletree are connected with leading screw, the lower end of described whippletree is provided with rule, described rule is provided with measuring claw.The utility model adds rule, measuring claw, can carry out diameter measurement, thus simplify manually-operated step, improve work efficiency to polymer plastic materials and parts to be measured; Also add hardness measurement head, the effect of a tractor serves several purposes can be reached.

Description

A kind of high molecule plastic intelligence puller system

Technical field

The utility model relates to high molecule plastic production technical field, particularly relates to a kind of high molecule plastic intelligence puller system.

Background technology

Along with the development of science and technology and the raising of human living standard, high molecule plastic is applied in daily life more and more widely, the production line of high molecule plastic can adopt usually some physics test device test to the high molecule plastic produced, puller system is used to the equipment measured the tensile property of material, higher precision and sensitivity is had to the measurement of load, displacement and control, have simple to operation, measure advantage accurately, but existing puller system function singleness; And accurate tensile strength will be obtained, after needing manually xsect measurement to be carried out to material, break according to material cross-section and measurement the tensile property that pulling force determines material jointly, make measuring process more complicated, thus reduce work efficiency.

Utility model content

According to above technical matters, the utility model provides a kind of multi-functional high molecule plastic intelligence puller system, comprises worktable, framework, leading screw, electric driver mechanism, tension dynamometer, back timber, train wheel bridge, upper grip, whippletree, lower plate, lower chuck, polymer plastic materials and parts, is characterized in that: also comprise rule, measuring claw, test desk, hardness measurement head, compression dynamomoter, the upper end of described worktable is provided with framework, the inside of described framework is provided with leading screw, the inside of described worktable is provided with electric driver mechanism, described leading screw is connected with electric driver mechanism, the upper end of described framework is provided with back timber, described train wheel bridge is provided with upper grip, described train wheel bridge is arranged on back timber by tension dynamometer, described lower plate is provided with lower chuck, and described lower plate is arranged on whippletree, and the two ends of described whippletree are connected with leading screw, the lower end of described whippletree is provided with rule, described rule is provided with measuring claw, and the lower end of described hardness measurement head is provided with compression dynamomoter, and described hardness measurement head is arranged on the upper end of worktable by test desk, the upper end of described polymer plastic materials and parts is fixed by upper grip, and the lower end of described polymer plastic materials and parts is through lower plate, whippletree is installed, and the lower end of described polymer plastic materials and parts is fixed by lower chuck, and described measuring claw is positioned at the outside of polymer plastic materials and parts.

Described framework is door type structure.

Described upper grip can move left and right along train wheel bridge.

Described lower chuck can move left and right along lower plate.

The inner side of described upper grip, lower chuck is zigzag structure.

Described measuring claw can move left and right along rule.

The beneficial effects of the utility model are: the utility model improves on original puller system, namely rule, measuring claw is added in the lower end of whippletree, diameter measurement can be carried out to polymer plastic materials and parts to be measured, thus simplify manually-operated step, accurate tensile strength values can not only be obtained, decrease manual operation, reduce error, improve work efficiency; Also add hardness measurement head on the table, can directly the polymer plastic materials and parts broken be used for carrying out hardness measurement, not only reach the effect of a tractor serves several purposes, and substantially reduce the amount of the polymer plastic materials and parts needed for multiple quantitative measurement, thus save cost.

Accompanying drawing explanation

Fig. 1 is the utility model structural representation.

Embodiment

According to Fig. 1, the utility model is further described:

As Fig. 1, worktable-1, framework-2, leading screw-3, electric driver mechanism-4, tension dynamometer-5, back timber-6, train wheel bridge-7, upper grip-8, whippletree-9, lower plate-10, lower chuck-11, polymer plastic materials and parts-12, rule-13, measuring claw-14, test desk-15, hardness measurement head-16, compression dynamomoter-17.

Embodiment 1

The utility model comprises worktable 1, framework 2, leading screw 3, electric driver mechanism 4, tension dynamometer 5, back timber 6, train wheel bridge 7, upper grip 8, whippletree 9, lower plate 10, lower chuck 11, polymer plastic materials and parts 12, rule 13, measuring claw 14, test desk 15, hardness measurement 16, compression dynamomoter 17, first electric driver mechanism 4 is arranged on the inside of worktable 1 during installation, framework 2 is arranged on the upper end of worktable 1, leading screw 3 is arranged on the inside of framework 2, then leading screw 3 is connected with electric driver mechanism 4, again upper grip 8 is arranged on train wheel bridge 7, train wheel bridge 7 is arranged on back timber 6 by tension dynamometer 5, again back timber 6 is arranged on the upper end of framework 2, then lower chuck 11 is arranged on lower plate 10, lower plate 10 is arranged on whippletree 9, measuring claw 14 is arranged on rule 13, rule 13 is arranged on the lower end of whippletree 9, again the two ends of whippletree 9 are connected with leading screw 3, then hardness measurement 16 is arranged on the upper end of compression dynamomoter 17, again hardness measurement 16 is arranged on the upper end of worktable 1 by test desk 15, finally the upper end of polymer plastic materials and parts 12 is fixed by upper grip 8, lower end is through lower plate 10, whippletree 9 is installed, and the lower end of polymer plastic materials and parts 12 is fixed by lower chuck 11, makes measuring claw 14 be positioned at the outside of polymer plastic materials and parts 12.

Embodiment 2

When carrying out tensile strength test, first will the lower end of the polymer plastic materials and parts 12 measured be needed through lower plate 10, cross bar, measuring claw 14, fixed by lower chuck 11, again the upper end of polymer plastic materials and parts 12 is fixed by upper grip 8, measuring claw 14 moves left and right along rule 13 and is clamped by polymer plastic materials and parts 12, and measure diameter, then leading screw 3 is driven to rotate by electric driver mechanism 4, whippletree 9 is moved down, drive lower chuck 11 to move down simultaneously, polymer plastic materials and parts 12 are stretched, pulling force suffered by tension dynamometer 5 pairs of polymer plastic materials and parts 12 is measured, disconnect when the pulling force that polymer plastic materials and parts 12 are subject to reaches capacity pulling force, and value of thrust is now recorded, by the calculating to these parameters, thus draw the tensile strength of polymer plastic materials and parts 12.

Embodiment 3

When the hardness testing was performed, post-rift polymer plastic materials and parts 12 are not needed to take out, directly leading screw 3 is driven to rotate by electric driver mechanism 4, whippletree 9 is made to continue to move down, make lower chuck 11 drive polymer plastic materials and parts 12 to move down simultaneously, continue to move down after polymer plastic materials and parts 12 arrive hardness measurement 16, compression dynamomoter 17 measures the pressure of hardness measurement suffered by 16, namely the pressure suffered by polymer plastic materials and parts 12, when pressure reaches setting value, polymer plastic materials and parts 12 stop moving down, now then hardness number can be drawn by hardness measurement 16 degree of depth stretching into polymer plastic materials and parts 12.

The above is only preferred implementation of the present utility model; it should be pointed out that for those skilled in the art, under the prerequisite not departing from the utility model principle; can also make some improvement, these improvement also should be considered as protection domain of the present utility model.

Claims (6)

1. a high molecule plastic intelligence puller system, comprises worktable, framework, leading screw, electric driver mechanism, tension dynamometer, back timber, train wheel bridge, upper grip, whippletree, lower plate, lower chuck, polymer plastic materials and parts, is characterized in that: also comprise rule, measuring claw, test desk, hardness measurement head, compression dynamomoter, the upper end of described worktable is provided with framework, the inside of described framework is provided with leading screw, the inside of described worktable is provided with electric driver mechanism, described leading screw is connected with electric driver mechanism, the upper end of described framework is provided with back timber, described train wheel bridge is provided with upper grip, described train wheel bridge is arranged on back timber by tension dynamometer, described lower plate is provided with lower chuck, and described lower plate is arranged on whippletree, and the two ends of described whippletree are connected with leading screw, the lower end of described whippletree is provided with rule, described rule is provided with measuring claw, and the lower end of described hardness measurement head is provided with compression dynamomoter, and described hardness measurement head is arranged on the upper end of worktable by test desk, the upper end of described polymer plastic materials and parts is fixed by upper grip, and the lower end of described polymer plastic materials and parts is through lower plate, whippletree is installed, and the lower end of described polymer plastic materials and parts is fixed by lower chuck, and described measuring claw is positioned at the outside of polymer plastic materials and parts.

2., according to a kind of high molecule plastic intelligence puller system according to claim 1, it is characterized in that: described framework is door type structure.

3., according to a kind of high molecule plastic intelligence puller system according to claim 1, it is characterized in that: described upper grip can move left and right along train wheel bridge.

4., according to a kind of high molecule plastic intelligence puller system according to claim 1, it is characterized in that: described lower chuck can move left and right along lower plate.

5., according to a kind of high molecule plastic intelligence puller system according to claim 1, it is characterized in that: the inner side of described upper grip, lower chuck is zigzag structure.

6., according to a kind of high molecule plastic intelligence puller system according to claim 1, it is characterized in that: described measuring claw can move left and right along rule.