CN205718796U - A kind of unsettled axle parallelism detecting device - Google Patents

Abstract

The utility model discloses a kind of unsettled axle parallelism detecting device and method, belong to mechanical assembly technique field.Described unsettled axle parallelism detecting device includes: standard sleeve is movably arranged on the first axle, and standard sleeve offers baseline trough；Fixed mechanism is through standard sleeve and the contact of the first axle；Slip cap is movably arranged on standard sleeve；Detent mechanism inserts in baseline trough through slip cap；First dial gauge mechanism one end is connected with slip cap, the other end and the second axle bottom surface flat contact；Second dial gauge mechanism one end is connected with slip cap, the other end and the second axle middle part perpendicular contact.This utility model unsettled axle parallelism detecting device and method can detect axle with axle (or overlapping and set) in the depth of parallelism vertically and horizontally, product can be made to realize datumization when installation and debugging are checked, it is easy to product is carried out follow-up of quality analysis, easy to use, reading is directly perceived, not only saves testing cost but also drastically increase product quality.

Description

A kind of unsettled axle parallelism detecting device

Technical field

This utility model relates to mechanical assembly technique field, particularly to a kind of unsettled axle parallelism detecting device.

Background technology

During mechanical assembly, usually can run into the assembling of unsettled major axis (or set), and the horizontal and vertical between unsettled major axis (or set) is the most qualified in the depth of parallelism of horizontal direction, directly affects the service precision of machinery.Conventional detection method can not meet the detection demand in work, such as: 1, three coordinate measurement, there is the problems such as range problem, transportation problem, testing cost height, it is impossible to detect for erecting yard；2, big again without the conjunction of datum level for volume, it is impossible to upper mounting plate detects；3, messenger wire inspection simply approximate test, no data.Owing to not having accurately, convenient, practical detection method, when running into the higher product of design parallelism precision requirement, no data support, just cannot judge that product is the most qualified, product quality the most just cannot ensure.

Utility model content

This utility model provides a kind of unsettled axle parallelism detecting device, solve or part solves and do not has detection method accurate, convenient, practical in prior art, when running into the design higher product of parallelism precision requirement, no data is supported, just cannot judge that product is the most qualified, the technical problem that product quality the most just cannot ensure.

For solving above-mentioned technical problem, this utility model provides a kind of unsettled axle parallelism detecting device, and described unsettled axle includes the first axle and the second axle；Described detection device includes: standard sleeve, is movably arranged on described first axle, and described standard sleeve offers baseline trough；Fixed mechanism, contacts through described standard sleeve with described first axle；Slip cap, is movably arranged on described standard sleeve；Detent mechanism, inserts in described baseline trough through described slip cap；First dial gauge mechanism, one end is connected with described slip cap, the other end and described second axle bottom surface flat contact；Second dial gauge mechanism, one end is connected with described slip cap, the other end and described second axle middle part perpendicular contact.

Further, described fixed mechanism includes: fixing seat, is connected with described standard sleeve；T-shaped jackscrew, is flexibly connected with described fixing seat；Cushion block, is arranged between described T-shaped jackscrew and described first axle.

Further, described detent mechanism includes: spring housing, is connected with described slip cap；Spring, is arranged in described spring housing；Alignment pin, one end is inserted in described baseline trough through described spring；Handle ball, is connected with the other end of described alignment pin.

Further, described alignment pin having step, described alignment pin inserts the diameter of described baseline trough one end and is connected the diameter of one end more than described alignment pin with described handle ball.

Further, described first dial gauge mechanism includes: the first dial gauge, with the bottom surface flat contact of described second axle；First fixes dial framework, one end and described first dial gauge level connection joint, and the other end is connected with described slip cap.

Further, described second dial gauge mechanism includes: the second dial gauge, with the middle part perpendicular contact of described second axle；Second fixes dial framework, and one end is vertical with described second dial gauge to be connected, and the other end is connected with described slip cap.

nullThe standard sleeve of the unsettled axle parallelism detecting device that this utility model provides rotates on the first axle，Make first dial gauge mechanism flat contact the second axle bottom surface and second dial gauge mechanism perpendicular contact the second axle middle part，By fixed mechanism, described standard sleeve is fixed on the first axle，By detent mechanism, described slip cap is fastened in baseline trough，By the first dial gauge mechanism and the second dial gauge mechanism school zero，Loosen detent mechanism，Slip cap is moved to the other end by one end of standard sleeve，Obtain the first dial gauge mechanism and the data of the second dial gauge mechanism，The maximum data of display is the first axle and the depth of parallelism of the second axle，Axle can be detected with axle (or overlapping and set) in the depth of parallelism vertically and horizontally，Product can be made to realize datumization when installation and debugging are checked，It is easy to product is carried out follow-up of quality analysis，Easy to use，Reading is directly perceived，Not only save testing cost but also drastically increase product quality.

Accompanying drawing explanation

The structural representation of the unsettled axle parallelism detecting device that Fig. 1 provides for this utility model embodiment；

Fig. 2 is the structural representation of standard sleeve in Fig. 1；

Fig. 3 be in Fig. 2 A-A to schematic diagram；

Fig. 4 is the structural representation of slip cap in Fig. 1；

Fig. 5 be in Fig. 4 A-A to schematic diagram；

Fig. 6 be in Fig. 4 B-B to schematic diagram；

Fig. 7 be in Fig. 4 C-C to schematic diagram；

Fig. 8 is the structural representation of fixed mechanism in Fig. 1.

Detailed description of the invention

Seeing Fig. 1, this utility model embodiment provides one and sees Fig. 1-4, and the one unsettled axle parallelism detecting device that the embodiment of the present invention provides, described unsettled axle includes the first axle 1 and the second axle 2；Described detection device includes: standard sleeve 3, fixed mechanism 8, slip cap 4, detent mechanism the 5, first dial gauge mechanism 6 and the second dial gauge mechanism 7.

Described standard sleeve 3 is movably arranged on described first axle 1, and described standard sleeve 3 offers baseline trough 3-1.

Described fixed mechanism 8 contacts through described standard sleeve 3 with described first axle 1.

Described slip cap 4 is movably arranged on described standard sleeve 3.

Described detent mechanism 5 inserts in described baseline trough 3-1 through described slip cap 4.

Described first dial gauge mechanism 6 one end is connected with described slip cap 4, the other end and described second axle 2 bottom surface flat contact.

Described second dial gauge mechanism 7 one end is connected with described slip cap 4, the other end and described second axle 2 middle part perpendicular contact.

Wherein, described standard sleeve 3 rotates on described first axle 1, make the second axle 2 middle part described in the second axle 2 bottom surface described in described first dial gauge mechanism 6 flat contact and described second dial gauge mechanism 7 perpendicular contact, by described fixed mechanism 8, described standard sleeve 3 is fixed on described first axle 1, by described detent mechanism 5, described slip cap 4 is fastened in described baseline trough 3-1, by described first dial gauge mechanism 6 and the second dial gauge mechanism 7 school zero, loosen described detent mechanism 5, described slip cap 4 is moved to the other end by one end of described standard sleeve 3, obtain described first dial gauge mechanism 6 and the data of the second dial gauge mechanism 7, the maximum data of display is the depth of parallelism of described first axle 1 and described second axle 2.

See Fig. 8, the structure of fixed mechanism is discussed in detail.

Described fixed mechanism includes: fixing seat 8-1, T-shaped jackscrew 8-2 and cushion block 8-3.

Described fixing seat 8-1 is fixing with described standard sleeve 3 to be connected.Specifically, in the present embodiment, described fixing seat 8-1 is connected by bolt is fixing with described standard sleeve 3, in other embodiments, described fixing seat 8-1 can otherwise welding etc. with as described in standard sleeve 3 fix and be connected.

Described T-shaped jackscrew 8-2 is flexibly connected with described fixing seat 8-1.Specifically, in the present embodiment, described T-shaped jackscrew 8-2 is threadeded with described 8-1.

Described cushion block 8-3 is arranged between described T-shaped jackscrew 8-2 and described first axle 1, protects the surface quality safety of described first axle 1.

The structure of detent mechanism is discussed in detail.

Seeing Fig. 6, described detent mechanism includes: spring housing 5-1, spring 5-2, alignment pin 5-3 and handle ball 5-4.

Described spring housing 5-1 is fixing with described slip cap 4 to be connected.Specifically, in the present embodiment, described spring housing 5-1 is connected by bolt is fixing with described slip cap 4, in other embodiments, described spring housing 5-1 can otherwise welding etc. with as described in slip cap 4 fix and be connected.

Described spring 5-2 is arranged in described spring housing 5-1.

Described alignment pin 5-3 one end is inserted in described baseline trough 3-1 through described spring 5-2.

Described handle ball 5-4 is fixing with the other end of described alignment pin 5-3 to be connected.Specifically, in the present embodiment, described handle ball 5-4 is connected by the other end of bolt and described alignment pin 5-3 is fixing, in other embodiments, described handle ball 5-4 can otherwise welding etc. with as described in the other end of alignment pin 5-3 fix and be connected.

Having step on described alignment pin 5-3, described alignment pin 5-3 inserts the diameter of described baseline trough 3-1 one end and is connected the diameter of one end more than described alignment pin 5-3 with described handle ball 5-4.

See Fig. 5, the structure of first dial gauge mechanism is discussed in detail.

Described first dial gauge mechanism includes: the first dial gauge 6-2 and first fixes dial framework 6-1.

Described first dial gauge 6-2 and the bottom surface flat contact of described second axle 2.

Described first fixes that dial framework 6-1 one end and described first dial gauge 6-2 level are fixing to be connected.Specifically, in the present embodiment, described first fixes dial framework 6-1 one end is connected by bolt and described first dial gauge 6-2 level are fixing, in other embodiments, described first fix dial framework 6-1 one end can otherwise jackscrew etc. with as described in the first dial gauge 6-2 level fix and be connected.Described first fixes that the dial framework 6-1 other end is fixing with described slip cap 4 to be connected.Specifically, in the present embodiment, described first fixes the dial framework 6-1 other end is connected by bolt is fixing with described slip cap 4, in other embodiments, described first fix the dial framework 6-1 other end can otherwise welding etc. with as described in slip cap 4 fix and be connected.

See Fig. 7, the structure of second dial gauge mechanism is discussed in detail.

Described second dial gauge mechanism includes: the second dial gauge 7-2 and second fixes dial framework 7-1.

Described second dial gauge 7-2 and the middle part perpendicular contact of described second axle 2.

Described second fixes fix vertical with described second dial gauge 7-2 of dial framework 7-1 one end is connected.Specifically, in the present embodiment, described second fixes dial framework 7-1 one end fixing is connected by bolt is vertical with described second dial gauge 7-2, in other embodiments, described second fix dial framework 7-1 one end can otherwise jackscrew etc. with as described in vertical the fixing of the second dial gauge 7-2 be connected.Described second fixes that the dial framework 7-1 other end is fixing with described slip cap 4 to be connected.Specifically, in the present embodiment, described second fixes the dial framework 7-1 other end is connected by bolt is fixing with described slip cap 4, in other embodiments, described second fix the dial framework 7-1 other end can otherwise welding etc. with as described in slip cap 4 fix and be connected.

For clearer this utility model embodiment of introducing, introduced from the using method of this utility model embodiment below.

Standard sleeve 3 is socketed on the first axle 1, then slip cap 4 is socketed on standard sleeve 3, fix dial framework 6-1 and second by first and fix dial framework 7-1 and be arranged on slip cap 4.It is arranged on the first the first dial gauge 6-2 fixing on dial framework 6-1 and bottom surface flat contact of the second axle 2, is arranged on the second middle part perpendicular contact fixing the second dial gauge 7-2 on dial framework 7-1.Rotation reference set 3 in a circumferential direction; adjust standard sleeve 3 position; make first dial gauge mechanism 6 flat contact the second axle 2 bottom surface and second dial gauge mechanism 7 perpendicular contact the second axle 2 middle part; appropriateness tightens T-shaped jackscrew 8-2 again; T-shaped jackscrew 8-2 action in fixing seat 8-1; brought forward cushion block 8-3 makes standard sleeve 3 be connected with the first axle 1, and cushion block 8-3 protects the surface quality safety of described first axle 1.One end of mobile slip cap 4 to standard sleeve 3, alignment pin 5-3 inserts in positioning datum groove 3-1, adjust the first dial gauge 6-2 and the second dial gauge 7-2 and the distance of the second axle 2 respectively, it is allowed to coincidence detection locational requirement, again the first dial gauge 6-2 and the second dial gauge 7-2 and zero check, it is simple to read data.Operation handle ball 5-4, alignment pin 5-3 is extracted by the spring 5-2 in handle ball 5-4 compression spring set 5-1.The other end moving axially slip cap 4 to the second axle 2 along standard sleeve 3, release handle ball 5-4, under the drive of spring 5-2, alignment pin 5-3 inserts in positioning datum groove 3-1, read the first dial gauge 6-2 and the data of the second dial gauge 7-2, maximum data is exactly the first axle 1 and the second axle 2 depth of parallelism vertically and horizontally, product can be made to realize datumization when installation and debugging are checked, it is easy to product is carried out follow-up of quality analysis, easy to use, reading is directly perceived, not only saves testing cost but also drastically increase product quality.When the data read are undesirable, according to the data of the first dial gauge 6-2 and the second dial gauge 7-2, the first axle 1 or the second axle 2 can be adjusted, adjustment can be rapidly completed, meet requirement.

It should be noted last that, above detailed description of the invention is only in order to illustrate the technical solution of the utility model and unrestricted, although this utility model being described in detail with reference to example, it will be understood by those within the art that, the technical solution of the utility model can be modified or equivalent, without deviating from the spirit and scope of technical solutions of the utility model, it all should be contained in the middle of right of the present utility model.

Claims (6)

1. a unsettled axle parallelism detecting device, described unsettled axle includes the first axle (1) and the second axle (2)；It is characterized in that, described detection device includes:

Standard sleeve (3), is movably arranged on described first axle (1), and described standard sleeve (3) offers baseline trough (3-1)；

Fixed mechanism (8), contacts through described standard sleeve (3) with described first axle (1)；

Slip cap (4), is movably arranged on described standard sleeve (3)；

Detent mechanism (5), in inserting described baseline trough (3-1) through described slip cap (4)；

First dial gauge mechanism (6), one end is connected with described slip cap (4), the other end and described second axle (2) bottom surface flat contact；

Second dial gauge mechanism (7), one end is connected with described slip cap (4), the other end and described second axle (2) middle part perpendicular contact.

Detection device the most according to claim 1, it is characterised in that described fixed mechanism includes:

Fixing seat (8-1), is connected with described standard sleeve (3)；

T-shaped jackscrew (8-2), is flexibly connected with described fixing seat (8-1)；

Cushion block (8-3), is arranged between described T-shaped jackscrew (8-2) and described first axle (1).

Detection device the most according to claim 1, it is characterised in that described detent mechanism includes:

Spring housing (5-1), is connected with described slip cap (4)；

Spring (5-2), is arranged in described spring housing (5-1)；

Alignment pin (5-3), in described baseline trough (3-1) is inserted through described spring (5-2) in one end；

Handle ball (5-4), is connected with the other end of described alignment pin (5-3).

Detection device the most according to claim 3, it is characterised in that:

There are step, described alignment pin (5-3) to insert the diameter of described baseline trough (3-1) one end on described alignment pin (5-3) and are connected the diameter of one end more than described alignment pin (5-3) with described handle ball (5-4).

Detection device the most according to claim 1, it is characterised in that described first dial gauge mechanism includes:

First dial gauge (6-2), with the bottom surface flat contact of described second axle (2)；

First fixes dial framework (6-1), one end and described first dial gauge (6-2) level connection joint, and the other end is connected with described slip cap (4).

Detection device the most according to claim 1, it is characterised in that described second dial gauge mechanism includes:

Second dial gauge (7-2), with the middle part perpendicular contact of described second axle (2)；

Second fixes dial framework (7-1), and one end is vertical with described second dial gauge (7-2) to be connected, and the other end is connected with described slip cap (4).