CN205317102U - Plane degree and round testing arrangement who beats - Google Patents

Abstract

The utility model discloses a plane degree and round testing arrangement who beats, fix a position clamping mechanism, set firmly hold -down mechanism and test micrometer on the support frame including support frame, the swivelling joint face on the support frame, the support frame includes the rotatory pillow block of swivelling joint in face location clamping mechanism, face location clamping mechanism is including the carousel of locating the rotation axis bench, the upper surface of carousel is equipped with a location structure and the 2nd positioning mechanism. The utility model discloses a be used for detecting plane degree and round testing arrangement who beats specially, can be before the above -mentioned appurtenance who retrieves of reuse quick judging whether these appurtenance qualified, avoided the influence to product quality, work efficiency, production technology production because of the problem of just discovering appurtenance in process of production produces.

Description

The test device that a kind of flatness and circle are beated

Technical field

This utility model relates to a kind of flatness and the round test device beated, and flatness and circle mainly for detection of testing sample are beated.

Background technology

Flatness refers to the deviation of macroscopical height of concave convex relative ideal plane that substrate has, and flatness belongs to the form error in Form and position error.

Round beat (circlerun-out) refers to that element to be measured is when datum axis revolves one-turn, position the difference of the maximum and least count that the indicator fixed records in given directions.

At present, in type of production factory, especially in integrated mill, often use some aids, such as vial, plastic plate etc. In order to reduce cost, these aids are often that repetitive cycling uses. But, to this kind of recovery part without standardized regulation in prior art, and generally only rely on and move back by means of empirical discovery fracture, unfilled corner, crackle etc. batch, cannot pass judgment on for the recovery part without obvious open defect, be found that problem just can be eliminated only in process of production. Obviously, the product quality of factory, work efficiency, production technology all can be produced certain impact by this.

Therefore, develop a kind of being specifically used to and detect flatness and the round test device beated, before the aid reusing above-mentioned recovery, whether qualified quickly determine these aids, it is clear that there is positive realistic meaning.

Summary of the invention

Goal of the invention of the present utility model is to provide a kind of flatness and the round test device beated.

To achieve the above object of the invention, the technical solution adopted in the utility model is: the plate face positioning and clamping mechanism include bracing frame, being rotatably connected on bracing frame, the hold-down mechanism being fixedly arranged on bracing frame and test micrometer;

Support frame as described above includes being rotatably connected in the rotation pillow block of plate face positioning and clamping mechanism;

Described plate face positioning and clamping mechanism includes being located at the rotating disk rotated on pillow block; The upper surface of described rotating disk is provided with the first location structure and the second detent mechanism;

Described hold-down mechanism includes the gripper shoe, the fixing plate of feeding and the spring bearer plate mechanism that are fixedly arranged on bracing frame, and the fixing plate of described feeding is slidably connected in gripper shoe, and has the degree of freedom of up and down motion; Described spring bearer plate mechanism horizontally rotates and is connected on the fixing plate of described feeding;

Described spring bearer plate mechanism is positioned at the surface of the second detent mechanism;

Described gripper shoe is positioned at the side of described plate face positioning and clamping mechanism.

In technique scheme, described first detent mechanism and the second detent mechanism are used for supporting determinand; Described first detent mechanism is arranged on the outside of described second detent mechanism;

Described first detent mechanism includes the first support platform supporting determinand, and described second detent mechanism includes supporting the second of determinand and supports platform, and described first supports the setting height(from bottom) of platform be more than or equal to the described second setting height(from bottom) supporting platform.

In technique scheme, described first detent mechanism is location-plate, and the quantity of described location-plate is provided with two, and said two location-plate is oppositely arranged;

In said two location-plate, at least 1 is running fix plate;

Being installed with line slideway on described rotating disk, described running fix plate is slidably connected on line slideway, and the outer side edges of running fix plate is provided with the screwfeed guide pillar of cooperation.

Corresponding another kind of technical scheme, described first detent mechanism is location-plate, and the quantity of described location-plate is provided with four, and described four location-plates enclose and are set as square, wherein 2 adjacent location-plates are stationary positioned plate, and other 2 adjacent location-plates are running fix plate;

Being installed with line slideway on described rotating disk, described running fix plate is slidably connected on line slideway, and the outer side edges of running fix plate is provided with the screwfeed guide pillar of cooperation.

In technique scheme, described screwfeed guide pillar is located on the fixing plate of screwfeed, and the fixing plate of screwfeed is fixedly arranged on rotating disk;

One end of described screwfeed guide pillar is additionally provided with screwfeed portable plate.

In technique scheme, described second detent mechanism includes connecting bottom board, taper location support dagger, bracing frame and connects the aforementioned second spring lead supporting platform and bracing frame.

In technique scheme, described taper location support dagger includes flat part and the taper locating dowel upwards protruded out from flat part, and support frame as described above and second supports and is equipped with the perforation passed for described taper locating dowel on platform.

In technique scheme, described gripper shoe is provided with vertical guide rail, and the fixing plate of described feeding is slidably connected on guide rail;

The upper end of the fixing plate of described feeding hangs in gripper shoe by the second screwfeed guide pillar, and its lower end is connected with described spring bearer plate mechanism by rotating shaft.

In technique scheme, described spring bearer plate mechanism includes fixation clip and movable pressing board, and both are elastic connects.

In technique scheme, described test micrometer includes test probe and is arranged on the measurement table of test probe one end.

Above, described taper detent mechanism is used for positioning the sample of some doleiforms, is compressing print by hold-down mechanism.

Workflow of the present utility model is as follows:

One) pulsation measurement is justified:

1. the bottleneck of determinand is placed on the second detent mechanism,

2. rotating the second screwfeed guide pillar makes movable pressing board compress determinand;

3. mobile test micrometer, makes test probe pressure on the test object;

4. rotary turnplate, to drive determinand to rotate in a circumferential direction;

5. test micrometer shows that numerical value of beating is circle and beats.

Two) measurement of planeness:

1. regulate running fix plate by screwfeed guide pillar, in order to accommodating determinand, make determinand be positioned at tetragonal location-plate;

2. rotating screw feeding guide pillar makes determinand be clamped;

3. mobile test micrometer so that test probe is vertically pressed on the test object;

4. rotary turnplate, drives determinand to rotate, and test micrometer shows that the numerical value beated is flatness.

Owing to technique scheme is used, this utility model compared with prior art has the advantage that

1. this utility model devises a kind of being specifically used to and detects flatness and the round test device beated, whether qualified these aids can be quickly determined before the aid reusing above-mentioned recovery, avoid the impact that product quality, work efficiency, production technology are produced produced because just finding the problem of aid in process of production, it is clear that there is positive realistic meaning;

2. this utility model can be just digitized representations the standard handovers cannot held at present, accomplishes easy-to-understand, easy to operate, greatly facilitates using and testing of workman;

3. this utility model simple in construction, easy to operate, be suitable to popularization and application.

Accompanying drawing explanation

Fig. 1 is the axonometric chart of this utility model embodiment one.

Fig. 2 is the structural representation of hold-down mechanism in this utility model embodiment one.

Fig. 3 is the partial perspective view of plate face positioning and clamping mechanism in this utility model embodiment one.

Fig. 4 is the exploded view of taper detent mechanism in this utility model embodiment one.

Fig. 5 is the axonometric chart of taper detent mechanism in this utility model embodiment one.

Fig. 6 is the structural representation rotating pillow block in this utility model embodiment one.

Fig. 7 is the schematic diagram that this utility model embodiment one measures that circle is beated.

Fig. 8 is the schematic diagram that this utility model embodiment one measures flatness.

Wherein: 1, bracing frame; 2, plate face positioning and clamping mechanism; 201, the first detent mechanism; 3, the second detent mechanism; 4, hold-down mechanism; 5, pillow block is rotated; 6, upper support frame; 7, lower support frame; 8, support column; 9, micrometer mounting table; 10, feet; 11, screwfeed portable plate; 12, the fixing plate of screwfeed; 13, screwfeed guide pillar; 14, line slideway; 15, running fix plate; 16, stationary positioned plate; 17, connecting bottom board; 18, taper location support dagger; 19, gripper shoe; 20, second platform is supported; 21, spring lead; 22, spring; 23, gripper shoe; 24, bearing; 25, the second screwfeed guide pillar; 26, the fixing plate of feeding; 27, rotating shaft; 28, fixation clip; 29, movable pressing board; 30, guide rail; 31 rotating disks; 32, test micrometer; 33, determinand.

Detailed description of the invention

Below in conjunction with drawings and Examples, this utility model is further described:

Embodiment one:

Referring to Fig. 1 to shown in 8, the test device that a kind of flatness and circle are beated, this test device can be used to the circular runout measuring the flatness of plate object under test and cylindrical object under test;

The plate face positioning and clamping mechanism 2 specifically include bracing frame 1, being rotatably connected on bracing frame, the hold-down mechanism 4 being fixedly arranged on bracing frame and test micrometer 32;

Support frame as described above 1 includes being rotatably connected in the rotation pillow block 5 of plate face positioning and clamping mechanism;

Described plate face positioning and clamping mechanism includes being located at the rotating disk 31 rotated on pillow block; The upper surface of described rotating disk is provided with the first location structure 201 and the second detent mechanism 3;

Described hold-down mechanism includes the gripper shoe 23, the fixing plate 26 of feeding and the spring bearer plate mechanism that are fixedly arranged on bracing frame, and the fixing plate of described feeding is slidably connected in gripper shoe, and has the degree of freedom of up and down motion; Described spring bearer plate mechanism horizontally rotates and is connected on the fixing plate of described feeding;

Described spring bearer plate mechanism is positioned at the surface of the second detent mechanism;

Described gripper shoe is positioned at the side of described plate face positioning and clamping mechanism.

Described first detent mechanism and the second detent mechanism are used for supporting determinand; Described first detent mechanism is arranged on the outside of described second detent mechanism;

Described first detent mechanism includes the first support platform supporting determinand, and described second detent mechanism includes supporting the second of determinand and supports platform, and described first supports the setting height(from bottom) of platform be more than or equal to the described second setting height(from bottom) supporting platform.

Described first detent mechanism is location-plate, and the quantity of described location-plate is provided with four, and described four location-plates enclose and are set as square, and wherein 2 adjacent location-plates are stationary positioned plate 16, and other 2 adjacent location-plates are running fix plate 15;

Being installed with line slideway 14 on described rotating disk, described running fix plate is slidably connected on line slideway, and the outer side edges of running fix plate is provided with the screwfeed guide pillar 13 of cooperation.

Described screwfeed guide pillar is located on the fixing plate 12 of screwfeed, and the fixing plate of screwfeed is fixedly arranged on rotating disk;

One end of described screwfeed guide pillar is additionally provided with screwfeed portable plate 11.

Described second detent mechanism includes connecting bottom board 17, taper location support dagger 18, bracing frame 19 and connects the aforementioned second spring lead 21 supporting platform 20 and bracing frame.

Described taper location support dagger 18 includes flat part and the taper locating dowel upwards protruded out from flat part, and support frame as described above and second supports and is equipped with the perforation passed for described taper locating dowel on platform 20.

Described gripper shoe is provided with vertical guide rail 30, and the fixing plate of described feeding is slidably connected on guide rail;

The upper end of the fixing plate of described feeding hangs in gripper shoe by the second screwfeed guide pillar 25, and its lower end is connected with described spring bearer plate mechanism by rotating shaft 27.

Described spring bearer plate mechanism includes fixation clip 28 and movable pressing board 29, and both are elastic connects.

Described test micrometer includes test probe and is arranged on the measurement table of test probe one end.

Described first detent mechanism 201 is used for supporting plate object under test, and described second detent mechanism 3 is used for supporting cylindrical object under test

In other embodiments, the quantity of described location-plate is alternatively two, and two location-plates are for being oppositely arranged. Said two location-plate is arranged to one for stationary positioned plate, and another is decided to be plate for mobile, or two are running fix plate.

Workflow of the present utility model is as follows:

One) pulsation measurement is justified: (referring to Fig. 7)

1. being placed on the second detent mechanism by the bottleneck of determinand 33, determinand is pressed down against positioning support fagging, spring contraction so that the bottleneck of the convex extension part protruded out on taper location support dagger 18 and determinand leans;

2. rotating the second screwfeed guide pillar 25 makes movable pressing board 29 compress determinand; (can accomplish determinand carries out reliably location in the vertical direction by these 2 steps)

3. mobile test micrometer 32, makes test probe pressure on the test object; (test probe is correct, referring to claim 10)

4. rotary turnplate 31, to drive determinand to rotate in a circumferential direction;

5. test micrometer shows that numerical value of beating is circle and beats.

Two) measurement of planeness: (referring to Fig. 8)

1. regulate running fix plate 15 by screwfeed guide pillar 13, in order to accommodating determinand 33, make determinand be positioned at tetragonal location-plate;

2. rotating screw feeding guide pillar 13 makes determinand be clamped;

3. mobile test micrometer 32 so that test probe is vertically pressed on the test object;

4. rotary turnplate 31, drive determinand to rotate, and test micrometer shows that the numerical value beated is flatness.

Claims (10)

1. the test device that a flatness and circle are beated, it is characterised in that: plate face positioning and clamping mechanism (2) include bracing frame (1), being rotatably connected on bracing frame, the hold-down mechanism (4) being fixedly arranged on bracing frame and test micrometer;

Support frame as described above (1) includes being rotatably connected in the rotation pillow block (5) of plate face positioning and clamping mechanism;

Described plate face positioning and clamping mechanism includes being located at the rotating disk (31) rotated on pillow block; The upper surface of described rotating disk is provided with the first location structure (201) and the second detent mechanism (3);

Described hold-down mechanism includes the gripper shoe (23), the fixing plate (26) of feeding and the spring bearer plate mechanism that are fixedly arranged on bracing frame, and the fixing plate of described feeding is slidably connected in gripper shoe, and has the degree of freedom of up and down motion; Described spring bearer plate mechanism horizontally rotates and is connected on the fixing plate of described feeding;

Described spring bearer plate mechanism is positioned at the surface of the second detent mechanism;

Described gripper shoe is positioned at the side of described plate face positioning and clamping mechanism.

2. the test device that flatness according to claim 1 and circle are beated, it is characterised in that: described first detent mechanism and the second detent mechanism are used for supporting determinand; Described first detent mechanism is arranged on the outside of described second detent mechanism;

Described first detent mechanism includes the first support platform supporting determinand, and described second detent mechanism includes supporting the second of determinand and supports platform, and described first supports the setting height(from bottom) of platform be more than or equal to the described second setting height(from bottom) supporting platform.

3. the test device that flatness according to claim 1 and circle are beated, it is characterised in that: described first detent mechanism is location-plate, and the quantity of described location-plate is provided with two, and said two location-plate is oppositely arranged;

In said two location-plate, at least 1 is running fix plate;

Being installed with line slideway (14) on described rotating disk, described running fix plate is slidably connected on line slideway, and the outer side edges of running fix plate is provided with the screwfeed guide pillar (13) of cooperation.

4. the test device that flatness according to claim 1 and circle are beated, it is characterized in that: described first detent mechanism is location-plate, the quantity of described location-plate is provided with four, described four location-plates enclose and are set as square, wherein 2 adjacent location-plates are stationary positioned plate (16), and other 2 adjacent location-plates are running fix plate (15);

Being installed with line slideway (14) on described rotating disk, described running fix plate is slidably connected on line slideway, and the outer side edges of running fix plate is provided with the screwfeed guide pillar (13) of cooperation.

5. the test device that the flatness according to claim 3 or 4 and circle are beated, it is characterised in that: described screwfeed guide pillar is located on the fixing plate (12) of screwfeed, and the fixing plate of screwfeed is fixedly arranged on rotating disk;

One end of described screwfeed guide pillar is additionally provided with screwfeed portable plate (11).

6. the test device that flatness according to claim 2 and circle are beated, it is characterised in that: described second detent mechanism includes connecting bottom board (17), taper location support dagger (18), bracing frame (19) and connects the aforementioned second spring lead (21) supporting platform (20) and bracing frame.

7. the test device that flatness according to claim 6 and circle are beated, it is characterized in that: described taper location support dagger (18) includes flat part and the taper locating dowel upwards protruded out from flat part, and support frame as described above and second supports and is equipped with the perforation passed for described taper locating dowel on platform (20).

8. the test device that flatness according to claim 1 and circle are beated, it is characterised in that: described gripper shoe is provided with vertical guide rail (30), and the fixing plate of described feeding is slidably connected on guide rail;

The upper end of the fixing plate of described feeding hangs in gripper shoe by the second screwfeed guide pillar (25), and its lower end is connected with described spring bearer plate mechanism by rotating shaft (27).

9. the test device that flatness according to claim 1 and circle are beated, it is characterised in that: described spring bearer plate mechanism includes fixation clip (28) and movable pressing board (29), and both are elastic connects.

10. the test device that flatness according to claim 1 and circle are beated, it is characterised in that: described test micrometer includes test probe and is arranged on the measurement table of test probe one end.