CN108907786A - A kind of offline clamping device based on leaf wheel-class parts - Google Patents

Abstract

The invention discloses a kind of offline clamping devices based on leaf wheel-class parts, belong to field of automation technology, including：Revolving platform, testing agency, daughter board and fixture；The revolving platform can be rotatable around its axis, for simulated machine tool to the processing operating condition of leaf wheel-class parts to be mounted；Daughter board is coaxially mounted on revolving platform, and can be rotated with revolving platform around the axis of daughter board；The fixture is coaxially fixed on daughter board；Leaf wheel-class parts to be mounted are coaxially mounted on fixture；The testing agency is used to detect leaf wheel-class parts and whether fixture coaxial and whether the upper surface of leaf wheel-class parts is horizontal；After leaf wheel-class parts, fixture and daughter board after completion zero point centering is integrally removed from revolving platform, it is mounted on the motherboard of lathe by daughter board；The present invention centering, without the centering zero point again on lathe, can save back work, improve work efficiency outside machine even if part is replaced from a machine tool to another a machine tool.

Description

A kind of offline clamping device based on leaf wheel-class parts

Technical field

The invention belongs to fields of automation technology, and in particular to a kind of offline clamping device based on leaf wheel-class parts.

Background technique

In the processing or measurement of leaf wheel-class parts it may first have to determine the zero point of part, then further according to zero point come into Row processing or measurement.But processing when, part tend not to be always maintained at it is motionless, need from a process to another Process, from a machine tool to another a machine tool, this just needs to drag table centering zero point again, does many back works, causes big The downtime of amount, reduces working efficiency.

Summary of the invention

In view of this, the present invention provides a kind of offline clamping device based on leaf wheel-class parts, can outside machine centering, That is leaf wheel-class parts are on the offline clamping device after centering zero point, even if part is replaced from a machine tool to another a machine tool, Without the centering zero point again on lathe, back work is saved, is improved work efficiency.

The present invention is achieved through the following technical solutions：

A kind of offline clamping device based on leaf wheel-class parts, including：Revolving platform, testing agency, daughter board and fixture；

The revolving platform can be rotatable around its axis, for simulated machine tool to the processing work of leaf wheel-class parts to be mounted Condition；And the upper surface of revolving platform is horizontal, and is equipped with location hole；

The positioning column for cooperating with revolving platform is machined on the daughter board；Daughter board is coaxially mounted to back by positioning column Turn on platform, and can be rotated with revolving platform around the axis of daughter board；

The fixture is coaxially fixed on daughter board；Leaf wheel-class parts to be mounted are coaxially mounted on fixture；It is protected before installation It is horizontal to demonstrate,prove the fixture upper surface；

The testing agency is used to detect leaf wheel-class parts and whether fixture coaxial and whether the upper surface of leaf wheel-class parts It is horizontal；

When testing agency detects that leaf wheel-class parts are coaxial with fixture and the upper surface level of leaf wheel-class parts, complete pair The zero point centering of leaf wheel-class parts；Leaf wheel-class parts, fixture and daughter board after completion zero point centering is whole from revolving platform After removing, it is mounted on the motherboard of lathe by daughter board.

Further, the testing agency is amesdial.

Further, when whether detection leaf wheel-class parts are coaxial with fixture, contradict the gauge head of amesdial in impeller class On the outer circumference surface of part, when revolving platform drives daughter board, fixture and impeller class parts turn, by the degree for observing amesdial Number, that is, can determine that whether impeller class part is coaxial with fixture；If the degree of amesdial remains unchanged, then it represents that leaf wheel-class parts The distance of axis of the outer circumference surface apart from fixture is definite value, i.e. leaf wheel-class parts and fixture are coaxial；If the degree of amesdial changes, The distance for then indicating axis of the outer circumference surface of leaf wheel-class parts apart from fixture is changing value, i.e. leaf wheel-class parts are different from fixture Axis, at this point, the axial position of adjustment leaf wheel-class parts, until detecting that leaf wheel-class parts and fixture are coaxial.

Further, when whether the upper surface for detecting leaf wheel-class parts is horizontal, contradict the gauge head of amesdial in impeller The upper surface of class part, when revolving platform drives daughter board, fixture and impeller class parts turn, by observing the degree of amesdial, Can determine that whether the upper surface of impeller class part is horizontal；If the degree of amesdial remains unchanged, then it represents that leaf wheel-class parts The distance of gauge head of the upper surface apart from amesdial is definite value, i.e. the upper surface of leaf wheel-class parts is horizontal；If the degree of amesdial becomes Change, then it represents that the distance of gauge head of the upper surface of leaf wheel-class parts apart from amesdial is changing value, the i.e. upper end of leaf wheel-class parts Face is not at horizontality, at this point, the Installation posture of adjustment leaf wheel-class parts, the upper surface water until detecting leaf wheel-class parts It is flat.

Further, it is whether coaxial with daughter board to be also used to detect fixture for testing agency；The gauge head of amesdial is contradicted to press from both sides On the outer circumference surface of tool, when revolving platform drives daughter board and fixture to rotate, by observing the degree of amesdial, that is, fixture can determine that It is whether coaxial with daughter board；If the degree of amesdial remains unchanged, then it represents that axis of the outer circumference surface of fixture apart from daughter board away from From for definite value, i.e. fixture and daughter board is coaxial；If the degree of amesdial changes, then it represents that axis of the outer circumference surface of fixture apart from daughter board The distance of line be changing value, i.e. fixture and daughter board be not coaxial, at this point, adjustment fixture axial position, until detect fixture and Daughter board is coaxial.

Further, testing agency be also used to detect fixture upper surface it is whether horizontal；Contradict the gauge head of amesdial The upper surface of fixture by observing the degree of amesdial, that is, can determine that fixture when revolving platform drives daughter board and fixture to rotate Whether upper surface is horizontal；If the degree of amesdial remains unchanged, then it represents that gauge head of the upper surface of fixture apart from amesdial away from From for definite value, i.e. the upper surface of fixture is horizontal；If the degree of amesdial changes, then it represents that the upper surface of fixture is apart from amesdial The distance of gauge head is changing value, i.e. the upper surface of fixture is not at horizontality, at this point, the Installation posture of adjustment fixture, until Detect that the upper surface of fixture is horizontal.

It further, further include supporting table and bearing block；

The revolving platform is mounted in supporting table by the way that the bearing of bearing block is arranged in；

The testing agency is mounted in supporting table.

Beneficial effect：(1) present invention realizes clamping and centering outside lathe workpiece to be processed line, i.e. leaf wheel-class parts exist On the offline clamping device after centering zero point, even if part is replaced from a machine tool to another a machine tool, without on lathe Centering zero point again improves machine tool utilization rate, improves work efficiency, improve production capacity, establishes for automatic production line Basis is determined.

(2) revolving platform of the invention ensure that and look for outside machine for simulated machine tool to the processing operating condition of part to be mounted It is just consistent with the environment in lathe, the Operational preparation time is greatly saved, and ensure that clamping precision,

Detailed description of the invention

Fig. 1 is structure composition figure of the invention；

Wherein, 1- supporting table, 2- bearing block, 3- revolving platform, 4- testing agency, 5- daughter board, 6- fixture.

Specific embodiment

The present invention will now be described in detail with reference to the accompanying drawings and examples.

A kind of offline clamping device based on leaf wheel-class parts is present embodiments provided, referring to attached drawing 1, including：Supporting table 1, bearing block 2, revolving platform 3, testing agency 4, daughter board 5 and fixture 6；

The upper surface of the revolving platform 3 is equipped with location hole, and middle part is equipped with bearing；Revolving platform 3 passes through the bearing Enable revolving platform 3 rotatable around its axis to be mounted in supporting table 1 with the cooperation of bearing block 2, and revolving platform 3 Upper surface is horizontal；Revolving platform 3 is for simulated machine tool to the processing operating condition of leaf wheel-class parts to be mounted；

The positioning column for cooperating with revolving platform 3 is machined on the daughter board 5；It is by the positioning column that daughter board 5 is same Axis is mounted on revolving platform 3, and can be rotated with revolving platform 3 around the axis of daughter board 5；

The fixture 6 is coaxially fixed on daughter board 5；Leaf wheel-class parts to be mounted are coaxially mounted on fixture 6；Before installation Guarantee that 6 upper surface of fixture is horizontal；

The testing agency 4 is mounted in supporting table 1, and for detecting, whether leaf wheel-class parts and fixture 6 coaxial and impeller Whether the upper surface of class part is horizontal；

The testing agency 4 is amesdial, and amesdial is mounted on supporting table 1 by amesdial gauge stand；

When whether detection leaf wheel-class parts are coaxial with fixture 6, contradict the gauge head of amesdial in the outer of leaf wheel-class parts On periphery, when revolving platform 3 drives daughter board 5, fixture 6 and impeller class parts turn, by the degree for observing amesdial Determine whether leaf wheel-class parts and fixture 6 are coaxial；If the degree of amesdial remains unchanged, then it represents that the excircle of leaf wheel-class parts It is definite value with a distance from axis of the identity distance from fixture 6, i.e. leaf wheel-class parts and fixture 6 are coaxial；If the degree of amesdial changes, table The distance for showing axis of the outer circumference surface of leaf wheel-class parts apart from fixture 6 is changing value, i.e. leaf wheel-class parts are different from fixture 6 Axis, at this point, the axial position (such as the outer circumference surface for tapping leaf wheel-class parts) of adjustment leaf wheel-class parts, until detecting impeller Class part and fixture 6 are coaxial；

When whether the upper surface for detecting leaf wheel-class parts is horizontal, contradict the gauge head of amesdial in the upper of leaf wheel-class parts End face when revolving platform 3 drives daughter board 5, fixture 6 and impeller class parts turn, by observing the degree of amesdial, that is, can determine that Whether the upper surface of leaf wheel-class parts is horizontal；If the degree of amesdial remains unchanged, then it represents that the upper surface of leaf wheel-class parts away from It is definite value with a distance from the gauge head of amesdial, i.e. the upper surface of leaf wheel-class parts is horizontal；If the degree of amesdial changes, then it represents that The distance of gauge head of the upper surface of leaf wheel-class parts apart from amesdial is changing value, i.e. the upper surface of leaf wheel-class parts is not at water Level state, at this point, the Installation posture (such as the upper surface for tapping leaf wheel-class parts) of adjustment leaf wheel-class parts, until detecting leaf The upper surface of wheel-class parts is horizontal；

In addition, the testing agency 4 be also used to detect whether fixture 6 and daughter board 5 coaxial and the upper surface of fixture 6 whether water It is flat, to guarantee that the mounting condition of leaf wheel-class parts meets the requirements；

When whether detection fixture 6 is coaxial with daughter board 5, contradicts the gauge head of amesdial on the outer circumference surface of fixture 6, return When turning the drive daughter board 5 of platform 3 and the rotation of fixture 6, by observing the degree of amesdial, that is, can determine that whether fixture 6 and daughter board 5 are same Axis；If the degree of amesdial remains unchanged, then it represents that the distance of axis of the outer circumference surface of fixture 6 apart from daughter board 5 is definite value, i.e., Fixture 6 and daughter board 5 are coaxial；If the degree of amesdial changes, then it represents that axis of the outer circumference surface of fixture 6 apart from daughter board 5 away from From for changing value, i.e. fixture 6 and daughter board 5 be not coaxial, at this point, the axial position of adjustment fixture 6 (such as taps the outer circle of fixture 6 Circumferential surface), until detecting that fixture 6 and daughter board 5 are coaxial；

When whether the upper surface for detecting fixture 6 is horizontal, contradict the gauge head of amesdial in the upper surface of fixture 6, revolution When platform 3 drives daughter board 5 and fixture 6 to rotate, by observing the degree of amesdial, that is, can determine that fixture 6 upper surface whether water It is flat；If the degree of amesdial remains unchanged, then it represents that the distance of gauge head of the upper surface of fixture 6 apart from amesdial is definite value, i.e., The upper surface of fixture 6 is horizontal；If the degree of amesdial changes, then it represents that gauge head of the upper surface of fixture 6 apart from amesdial away from Be not at horizontality from the upper surface for changing value, i.e. fixture 6, at this point, adjustment fixture 6 Installation posture (such as tap folder The upper surface of tool 6), the upper surface until detecting fixture 6 is horizontal.

Therefore, it when detecting that leaf wheel-class parts are coaxial with fixture 6 and the upper surface level of leaf wheel-class parts, that is, realizes pair The zero point centering of leaf wheel-class parts.

When work, as a whole by leaf wheel-class parts, fixture 6 and the daughter board 5 after the centering zero point on offline clamping device It after being removed from revolving platform 3, is mounted on the motherboard of lathe by daughter board 5, is not necessarily on lathe centering zero point again at this time.

In conclusion the above is merely preferred embodiments of the present invention, being not intended to limit the scope of the present invention. All within the spirits and principles of the present invention, any modification, equivalent replacement, improvement and so on should be included in of the invention Within protection scope.

Claims (7)

1. a kind of offline clamping device based on leaf wheel-class parts, which is characterized in that including：Revolving platform (3), testing agency (4), daughter board (5) and fixture (6)；

The revolving platform (3) can be rotatable around its axis, for simulated machine tool to the processing work of leaf wheel-class parts to be mounted Condition；And the upper surface of revolving platform (3) is horizontal, and is equipped with location hole；

The positioning column for cooperating with revolving platform (3) is machined on the daughter board (5)；Daughter board (5) is coaxially pacified by positioning column On revolving platform (3), and it can be rotated with revolving platform (3) around the axis of daughter board (5)；

The fixture (6) is coaxially fixed on daughter board (5)；Leaf wheel-class parts to be mounted are coaxially mounted on fixture (6)；Installation It is preceding to guarantee that fixture (6) upper surface is horizontal；

The testing agency (4) is used to detect leaf wheel-class parts and whether fixture (6) coaxial and the upper surface of leaf wheel-class parts is No level；

When testing agency (4) detects leaf wheel-class parts coaxial and leaf wheel-class parts upper surface level with fixture (6), complete To the zero point centering of leaf wheel-class parts；It is whole from returning will to complete the leaf wheel-class parts after zero point centering, fixture (6) and daughter board (5) Turn after being removed on platform (3), is mounted on the motherboard of lathe by daughter board (5).

2. a kind of offline clamping device based on leaf wheel-class parts as described in claim 1, which is characterized in that the detection machine Structure (4) is amesdial.

3. a kind of offline clamping device based on leaf wheel-class parts as claimed in claim 2, which is characterized in that when detection impeller When class part and whether coaxial fixture (6), the gauge head of amesdial is made to contradict the revolving platform on the outer circumference surface of leaf wheel-class parts (3) when driving daughter board (5), fixture (6) and impeller class parts turn, by observing the degree of amesdial, that is, it can determine that impeller class Whether part and fixture (6) are coaxial；If the degree of amesdial remains unchanged, then it represents that the outer circumference surface distance folder of leaf wheel-class parts The distance for having the axis of (6) is definite value, i.e. leaf wheel-class parts and fixture (6) are coaxial；If the degree of amesdial changes, then it represents that leaf The distance of axis of the outer circumference surface of wheel-class parts apart from fixture (6) is changing value, i.e. leaf wheel-class parts are different from fixture (6) Axis, at this point, the axial position of adjustment leaf wheel-class parts, until detecting that leaf wheel-class parts and fixture (6) are coaxial.

4. a kind of offline clamping device based on leaf wheel-class parts as claimed in claim 2, which is characterized in that when detection impeller When whether the upper surface of class part is horizontal, contradict the gauge head of amesdial in the upper surface of leaf wheel-class parts, revolving platform (3) band When mover plate (5), fixture (6) and impeller class parts turn, by observing the degree of amesdial, that is, impeller class part can determine that Whether upper surface is horizontal；If the degree of amesdial remains unchanged, then it represents that survey of the upper surface of leaf wheel-class parts apart from amesdial The distance of head is definite value, i.e. the upper surface of leaf wheel-class parts is horizontal；If the degree of amesdial changes, then it represents that leaf wheel-class parts The distance of gauge head of the upper surface apart from amesdial is changing value, i.e. the upper surface of leaf wheel-class parts is not at horizontality, at this point, The Installation posture for adjusting leaf wheel-class parts, the upper surface until detecting leaf wheel-class parts are horizontal.

5. a kind of offline clamping device based on leaf wheel-class parts as claimed in claim 2, which is characterized in that testing agency (4) it is also used to detect fixture (6) and whether daughter board (5) is coaxial；The gauge head of amesdial is set to contradict the outer circumference surface in fixture (6) On, when revolving platform (3) drives daughter board (5) and fixture (6) to rotate, by observing the degree of amesdial, that is, it can determine that fixture (6) It is whether coaxial with daughter board (5)；If the degree of amesdial remains unchanged, then it represents that the outer circumference surface of fixture (6) is apart from daughter board (5) The distance of axis is definite value, i.e. fixture (6) and daughter board (5) is coaxial；If the degree of amesdial changes, then it represents that outside fixture (6) The distance of axis of the periphery apart from daughter board (5) is changing value, i.e. fixture (6) and daughter board (5) be not coaxial, at this point, adjustment fixture (6) axial position, until detecting that fixture (6) and daughter board (5) are coaxial.

6. a kind of offline clamping device based on leaf wheel-class parts as claimed in claim 2, which is characterized in that testing agency (4) whether the upper surface for being also used to detect fixture (6) is horizontal；Contradict the gauge head of amesdial in the upper surface of fixture (6), revolution When platform (3) drives daughter board (5) and fixture (6) to rotate, by observing the degree of amesdial, that is, the upper end of fixture (6) can determine that Whether face is horizontal；If the degree of amesdial remains unchanged, then it represents that the distance of gauge head of the upper surface of fixture (6) apart from amesdial For definite value, i.e. the upper surface level of fixture (6)；If the degree of amesdial changes, then it represents that the upper surface distance thousand of fixture (6) is divided The distance of the gauge head of table is changing value, i.e. the upper surface of fixture (6) is not at horizontality, at this point, the installation of adjustment fixture (6) Posture, the upper surface until detecting fixture (6) are horizontal.

7. a kind of offline clamping device based on leaf wheel-class parts as described in claim 1, which is characterized in that further include support Platform (1) and bearing block (2)；

Bearing of the revolving platform (3) by setting in bearing block (2) is mounted on supporting table (1)；

The testing agency (4) is mounted on supporting table (1).