CN204188385U - A kind of test machine device - Google Patents

Abstract

The utility model relates to a kind of reliable and stable test machine device, and it belongs to field of mechanical technique.The utility model comprises frame and testing combination mechanism, described testing combination mechanism is positioned at the side of frame, described frame comprises lower shoe and framework, this framework is fixed on lower shoe, it is characterized in that: also comprise material folding assemble mechanism, described material folding assemble mechanism is arranged in frame, and described material folding assemble mechanism comprises material folding plate and stepper motor, and described stepper motor is connected with material folding plate.The utility model reasonable in design, simple to operate, can ensure test mass, reliable and stable, testing efficiency is efficient, meets people's testing requirement.

Description

A kind of test machine device

Technical field

The utility model relates to a kind of device, and especially relate to a kind of reliable and stable test machine device, it belongs to field of mechanical technique.

Background technology

In machine-building process, the test of product is absolutely necessary, more existing tests adopt manual operation to complete, need through people's manual manipulation repeatedly, testing efficiency is low, and this generic operation exists following shortcoming: one is the labour intensity considerably increasing staff, and it two is make test process complicated, it three is that too much program adds the inaccurate situation of test result and occurs, cannot ensure the reliability of test result.

Therefore, how to design a kind of rational in infrastructure, simple to operate, safe and practical, testing efficiency and the high test machine device of measuring accuracy seem particularly necessary.

Utility model content

The purpose of this utility model is to overcome above shortcomings in prior art, and provides a kind of reasonable in design, simple to operate, can ensure test mass, reliable and stable, the efficient test machine device of testing efficiency.

The technical scheme in the invention for solving the above technical problem is: this test machine device, comprise frame and testing combination mechanism, described testing combination mechanism is positioned at the side of frame, described frame comprises lower shoe and framework, this framework is fixed on lower shoe, it is characterized in that: also comprise material folding assemble mechanism, and described material folding assemble mechanism is arranged in frame, described material folding assemble mechanism comprises material folding plate and stepper motor, and described stepper motor is connected with material folding plate.

As preferably, frame described in the utility model also involving vibrations try to get to the heart of a matter plate, test main floor and the mechanism that seals up a door, described framework comprises interconnective left frame body and correct frame body, described vibrating disk base plate is fixed on left frame body, described testing host and the mechanism that seals up a door all are fixed on correct frame body, and this test main floor is positioned at the top of the mechanism that seals up a door.

As preferably, material folding assemble mechanism described in the utility model also comprises bearing assemble assembly, sleeve assembly and guide rod, and described bearing assemble assembly and sleeve assembly are all fixed on material folding plate, and this bearing assemble assembly is connected by guide rod with sleeve assembly.

As preferably, testing combination mechanism described in the utility model comprises material loading smelting tool, test link, left plate, right plate, fixed head, guide pillar, front end panel, rear bearing sheet, left socle plate and right support plate, described material loading smelting tool is connected with test link, described left plate and right plate are all arranged on fixed head, described test link is connected between left plate and right plate by guide pillar, described front end panel and rear bearing sheet are separately fixed at front side and the rear side of fixed head, and described left socle plate and right support plate are arranged on left plate and right plate respectively.

As preferably, bearing assemble assembly described in the utility model comprises bearing bridge one, bearing bridge two, bearing bridge three, axostylus axostyle one, axostylus axostyle two, head bearing body and lower bearing body, described bearing bridge one, bearing bridge two and lower bearing body are all interconnected by axostylus axostyle one and axostylus axostyle two, described bearing bridge three is fixed on lower bearing body, and described head bearing body is arranged on bearing bridge three.

As preferably, sleeve assembly described in the utility model comprises connecting rod, sleeve body and connecting rod base, and one end of described sleeve body is connected with connecting rod, and the other end of this sleeve body is connected with connecting rod base.

As preferably, testing combination mechanism described in the utility model also comprises sensing chip and inductor, and described inductor is connected with fixed head, and one end of described sensing chip is connected with axle, and the other end of this sensing chip is connected with inductor.

As preferably, frame described in the utility model also comprises and also comprises foot pad, and described foot pad is fixed on the bottom of base plate.

The utility model compared with prior art, have the following advantages and effect: 1, reasonable in design, testing combination mechanism is positioned at the side of frame, frame comprises lower shoe and framework, and framework is fixed on lower shoe, and material folding assemble mechanism is arranged in frame, described material folding assemble mechanism comprises material folding plate and stepper motor, stepper motor is connected with material folding plate, and easy accessibility is simple to operate; 2, testing efficiency and measuring accuracy high, reduce the labour intensity of workman, saved cost, achieved mechanized operation, reliable and stable, meet people's testing requirement.

Accompanying drawing explanation

Fig. 1 is the one-piece construction schematic diagram of the utility model embodiment.

Fig. 2 is the structural representation of the utility model embodiment mid frame.

Fig. 3 is the structural representation of material folding assemble mechanism in the utility model embodiment.

Fig. 4 is the perspective view of testing combination mechanism in the utility model embodiment.

Fig. 5 is the side-looking structural representation of testing combination mechanism in the utility model embodiment.

Fig. 6 is the structural representation of the test link in the utility model embodiment in testing combination mechanism.

In figure: frame 1, framework 11, section bar 12, left frame body 13, correct frame body 14, lower shoe 15, vibrating disk base plate 16, test main floor 17, seal up a door mechanism 18, seal door below 1, seal door below 2 20, seal door below 3 21, seal door below 4 22, foot pad 23, material folding assemble mechanism 2, material folding plate 24, stepper motor 1, bearing assemble assembly 26, sleeve assembly 27, guide rod 28, bearing bridge 1, bearing bridge 2 30, bearing bridge 3 31, axostylus axostyle 1, axostylus axostyle 2 33, head bearing body 34, lower bearing body 35, bearing body 36, connecting rod 37, sleeve body 38, connecting rod base 39, testing combination mechanism 3, material loading smelting tool 40, test link 41, cam 42, bearing 43, axle 44, fixed head 45, guide pillar 46, left plate 47, right plate 48, front end panel 49, rear bearing sheet 50, left socle plate 51, right support plate 52, sensing chip 53, inductor 54, left cover 55, right cover plate 56, left support plate 57, right support plate 58, left contiguous block 59, middle contiguous block 60, right contiguous block 61, crossbeam 62, probe groups 63, through hole 64, stepper motor 2 65.

Embodiment

Below in conjunction with accompanying drawing, also by embodiment, the utility model is described in further detail, and following examples are that the utility model is not limited to following examples to explanation of the present utility model.

Embodiment.

See Fig. 1 to Fig. 6, the present embodiment test machine device mainly comprises frame 1, material folding assemble mechanism 2 and testing combination mechanism 3.

Frame in the present embodiment comprises framework 11, section bar 12, left frame body 13, correct frame body 14, lower shoe 15, vibrating disk base plate 16, test main floor 17, the mechanism 18 that seals up a door, seal door below 1, seal door below 2 20, seal door below 3 21, seal door below 4 22 and foot pad 23.

Framework 11 in the present embodiment is fixed on lower shoe 15, and framework 11 is made up of some root type materials 12, and framework 11 comprises interconnective left frame body 13 and correct frame body 14, and framework 11 adopts L-type framework 11, makes test machine more firm.

Vibrating disk base plate 16 in the present embodiment is fixed on left frame body 13, and testing host and the mechanism 18 that seals up a door all are fixed on correct frame body 14, and test main floor 17 is positioned at the top of the mechanism 18 that seals up a door.

The mechanism 18 that seals up a door in the present embodiment comprises seal door below 1, seal door below 2 20, seal door below 3 21 and seal door below 4 22, and seal door below 1, seal door below 2 20, seal door below 3 21 are all connected with section bar 12 with seal door below 4 22.

Foot pad 23 in the present embodiment is fixed on the bottom of base plate, and this foot pad 23 is six, and six foots pad 23 are evenly distributed on lower shoe 15, and foot pad 23 adopts adjustable foot pad 23.

Section bar 12 in the present embodiment adopts aluminium section bar 12, adopts and be welded to connect between each section bar 12, selects according to actual conditions, also can be with bolts etc. mode.

Material folding assemble mechanism 2 in the present embodiment comprises material folding plate 24, stepper motor 1, bearing assemble assembly 26, sleeve assembly 27, guide rod 28, bearing bridge 1, bearing bridge 2 30, bearing bridge 3 31, axostylus axostyle 1, axostylus axostyle 2 33, head bearing body 34, lower bearing body 35, bearing body 36, connecting rod 37, sleeve body 38 and connecting rod base 39.

Stepper motor 1 in the present embodiment is positioned at the below of material folding plate 24, material folding plate 24 has hole, stepper motor 1 coordinates through this Kong Houyu material folding plate 24, bearing assemble assembly 26 and sleeve assembly 27 are all fixed on material folding plate 24, bearing assemble assembly 26 is connected by guide rod 28 with sleeve assembly 27, and sleeve assembly 27 is connected with stepper motor 1.

Bearing assemble assembly 26 in the present embodiment comprises bearing bridge 1, bearing bridge 2 30, bearing bridge 3 31, axostylus axostyle 1, axostylus axostyle 2 33, head bearing body 34 and lower bearing body 35, bearing bridge 1 and bearing bridge 2 30 are positioned at the both sides of lower bearing body 35, bearing bridge 1, bearing bridge 2 30 and lower bearing body 35 are all interconnected by axostylus axostyle 1 and axostylus axostyle 2 33, bearing bridge 3 31 is fixed on lower bearing body 35, and head bearing body 34 is arranged on bearing bridge 3 31.

Lower bearing body 35 in the present embodiment forms by the bearing body 36 that size and shape is identical with head bearing body 34, and lower bearing body 35 is made up of four bearing bodies 36, and head bearing body 34 is made up of two bearing bodies 36.

Sleeve assembly 27 in the present embodiment comprises connecting rod 37, sleeve body 38 and connecting rod base 39, one end of sleeve body 38 is connected with connecting rod 37, the other end of sleeve body 38 is connected with connecting rod base 39, connecting rod 37 is connected with the upper end of stepper motor 1, connecting rod base 39 is connected with guide rod 28, guide rod 28 is two, and these two guide rods 28 are respectively through in the bearing body of two in head bearing body 34 36.

Testing combination mechanism 3 in the present embodiment comprises material loading smelting tool 40, test link 41, cam 42, bearing 43, axle 44, fixed head 45, guide pillar 46, left plate 47, right plate 48, front end panel 49, rear bearing sheet 50, left socle plate 51, right support plate 52, sensing chip 53 and inductor 54.

Material loading smelting tool 40 in the present embodiment is connected with test link 41, stepper motor 2 65 is arranged on the below of fixed head 45, cam 42 is contained in stepper motor 2 65 upper end, bearing 43 is connected with cam 42, axle 44 is arranged on the bottom of test link 41, left plate 47 and right plate 48 all fill on fixed head 45, test link 41 is connected between left plate 47 and right plate 48 by guide pillar 46, front end panel 49 and rear bearing sheet 50 are separately fixed at front side and the rear side of fixed head 45, left socle plate 51 and right support plate 52 are arranged on left plate 47 and right plate 48 respectively, left socle plate 51 and right support plate 52 all adopt the supporting plate of optoelectronic induction.

Test link 41 in the present embodiment comprises left cover 55, right cover plate 56, left support plate 57, right support plate 58, left contiguous block 59, middle contiguous block 60, right contiguous block 61, crossbeam 62 and probe groups 63, left contiguous block 59, middle contiguous block 60 are connected by guide pillar 46 with right contiguous block 61, left cover 55 and left support plate 57 are arranged on left contiguous block 59 successively, right cover plate 56 and right support plate 58 are arranged on right contiguous block 61 successively, crossbeam 62 is connected with middle contiguous block 60, and left support plate 57 and right support plate 58 are provided with probe groups 63.

Left contiguous block 59 in the present embodiment, middle contiguous block 60 and right contiguous block 61 all have two through holes 64, guide pillar 46 is two, and two guide pillars 46 mate mutually with two through holes 64.

Inductor 54 in the present embodiment is connected with fixed head 45, and one end of sensing chip 53 is connected with axle 44, and the other end of this sensing chip 53 is connected with inductor 54.

By above-mentioned elaboration, those skilled in the art can implement.

In addition, it should be noted that, the specific embodiment described in this instructions, the shape, institute's title of being named etc. of its parts and components can be different, and the above content described in this instructions is only to the explanation of the utility model structure example.The equivalence change that structure, feature and principle described in all foundation the utility model inventional idea are done or simple change, be included in the protection domain of the utility model patent.The utility model person of ordinary skill in the field can make various amendment or supplements or adopt similar mode to substitute to described specific embodiment; only otherwise depart from structure of the present utility model or surmount this scope as defined in the claims, protection domain of the present utility model all should be belonged to.

Claims (8)

1. a test machine device, comprise frame and testing combination mechanism, described testing combination mechanism is positioned at the side of frame, described frame comprises lower shoe and framework, this framework is fixed on lower shoe, it is characterized in that: also comprise material folding assemble mechanism, and described material folding assemble mechanism is arranged in frame, described material folding assemble mechanism comprises material folding plate and stepper motor, and described stepper motor is connected with material folding plate.

2. test machine device according to claim 1, it is characterized in that: described frame also involving vibrations try to get to the heart of a matter plate, test main floor and the mechanism that seals up a door, described framework comprises interconnective left frame body and correct frame body, described vibrating disk base plate is fixed on left frame body, described testing host and the mechanism that seals up a door all are fixed on correct frame body, and this test main floor is positioned at the top of the mechanism that seals up a door.

3. test machine device according to claim 1, it is characterized in that: described material folding assemble mechanism also comprises bearing assemble assembly, sleeve assembly and guide rod, described bearing assemble assembly and sleeve assembly are all fixed on material folding plate, and this bearing assemble assembly is connected by guide rod with sleeve assembly.

4. test machine device according to claim 1, it is characterized in that: described testing combination mechanism comprises material loading smelting tool, test link, left plate, right plate, fixed head, guide pillar, front end panel, rear bearing sheet, left socle plate and right support plate, described material loading smelting tool is connected with test link, described left plate and right plate are all arranged on fixed head, described test link is connected between left plate and right plate by guide pillar, described front end panel and rear bearing sheet are separately fixed at front side and the rear side of fixed head, described left socle plate and right support plate are arranged on left plate and right plate respectively.

5. test machine device according to claim 3, it is characterized in that: described bearing assemble assembly comprises bearing bridge one, bearing bridge two, bearing bridge three, axostylus axostyle one, axostylus axostyle two, head bearing body and lower bearing body, described bearing bridge one, bearing bridge two and lower bearing body are all interconnected by axostylus axostyle one and axostylus axostyle two, described bearing bridge three is fixed on lower bearing body, and described head bearing body is arranged on bearing bridge three.

6. test machine device according to claim 3, it is characterized in that: described sleeve assembly comprises connecting rod, sleeve body and connecting rod base, one end of described sleeve body is connected with connecting rod, and the other end of this sleeve body is connected with connecting rod base.

7. the test machine device according to claim 1 or 4, it is characterized in that: described testing combination mechanism also comprises sensing chip and inductor, described inductor is connected with fixed head, and one end of described sensing chip is connected with axle, and the other end of this sensing chip is connected with inductor.

8. test machine device according to claim 1 and 2, it is characterized in that: described frame also comprises and also comprises foot pad, described foot pad is fixed on the bottom of base plate.