CN105865301A

CN105865301A - Machining shaft testing device

Info

Publication number: CN105865301A
Application number: CN201610232936.6A
Authority: CN
Inventors: 欧阳秋霞
Original assignee: Anhui Youguo Information Technology Service Co Ltd
Current assignee: Anhui Youguo Information Technology Service Co Ltd
Priority date: 2016-04-15
Filing date: 2016-04-15
Publication date: 2016-08-17

Abstract

The invention discloses a machining shaft testing device which comprises the components of a length testing device, a two-end testing device and a central hole depth measuring device. The length testing device comprises a V-shaped trough testing platform, a V-shaped block, a V-shaped trough, an adjusting rod, an indicating gauge and a positioning bolt. The center of the V-shaped trough testing platform is provided with the V-shaped trough. The V-shaped block is placed in the V-shaped trough. The positioning bolt penetrates through the center of the V-shaped block from top to bottom. One end of the V-shaped trough testing platform is connected with the indicating gauge through the adjusting rod. The machining shaft testing device has advantages of high testing speed, accurate and stable testing data, low requirement for an operator, easy understanding, low requirement for a working environment, synchronous testing on a machining field, timely testing on a machined workpiece, etc.

Description

Processing shaft detection device

Technical field

The present invention relates to Shaft testing technical field, be specially processing shaft detection device.

Background technology

At present, China is mainly projector and three-coordinates measuring machine for the device processing shaft detection, and the measuring speed of projector and three-coordinates measuring machine is relatively slow, measurement data inaccuracy, operator is required and higher to operating environment requirements, if must detect at particular place, processing workpiece can be accomplished in good time prosecution simultaneously.

Summary of the invention

It is an object of the invention to provide processing shaft detection device, with the problem solving to propose in above-mentioned background technology.

For achieving the above object, the present invention provides following technical scheme: process shaft detection device, including device for detecting length, two end detecting devices and central hole depth measuring device, described device for detecting length includes V-shaped groove monitor station, vee-block, V-shaped groove, adjusting rod, dial gauge and bolt, the center of described V-shaped groove monitor station is provided with described V-shaped groove, described V-shaped groove is placed vee-block described in, a bolt is run through at described vee-block center from top to bottom, and described V-shaped groove monitor station one end connects described dial gauge by adjusting rod；

Described two end detecting devices include adjusting rod, dial gauge, T-slot monitor station, L bracket, addendum cone, T-slot, bolt, addendum cone installing hole and bolt, the center of described T-slot monitor station is provided with described T-slot, in described T-slot, set puts L bracket described in two, described L bracket includes horizontal support and longitudinal carrier, the center of described horizontal support is provided with described bolt, the center of described longitudinal carrier side is provided with described addendum cone installing hole, the center of described longitudinal carrier upper surface is provided with described bolt, wherein the side described in connects described dial gauge by adjusting rod；

Described depth of center hole detection device includes adjusting rod, dial gauge, T-slot monitor station, L bracket, addendum cone and T-slot, bolt, addendum cone installing hole and bolt, top and the top mounting groove of semicircle, the center of described T-slot monitor station is provided with described T-slot, in described T-slot, set puts L bracket described in two, described L bracket includes horizontal support and longitudinal carrier, the center of horizontal support described in two is provided with described bolt, the center of described longitudinal carrier side is provided with described addendum cone installing hole, the center of described longitudinal carrier upper surface is provided with described bolt, the upper surface of another described longitudinal carrier is provided with described top mounting groove, described top mounting groove lays semicircle described in top, the side of described longitudinal carrier connects described dial gauge by adjusting rod.

Preferably, being relatively large in diameter bottom described V-shaped groove；The base diameter of described bolt is more than the diameter of its shaft, and is positioned at bottom described V-shaped groove.

Preferably, being relatively large in diameter bottom described T-slot；The base diameter of described bolt is more than the diameter of its shaft, and is positioned at bottom described T-slot.

Preferably, described adjusting rod is telescopic adjustment bar.

Compared with prior art, the invention has the beneficial effects as follows: the present invention according to having that measuring speed is fast, measurement data accurately, stable, operator is required low, easy-to-understand, low to operating environment requirements, in processing site synchronous detecting, processing workpiece can be accomplished the advantages such as in good time prosecution.

Accompanying drawing explanation

Fig. 1 is the structural representation of device for detecting length in the present invention；

Fig. 2 is the structural representation of V-shaped groove monitor station in the present invention；

Fig. 3 is the structural representation of vee-block in the present invention；

Fig. 4 is the structural representation of two end detecting devices in the present invention；

Fig. 5 is the structural representation of T-slot monitor station in the present invention；

Fig. 6 is the structural representation of L bracket in the present invention；

Fig. 7 is the structural representation of central hole depth measuring device in the present invention；

Fig. 8 is the main TV structure schematic diagram being provided with the top L bracket of semicircle in the present invention；

Fig. 9 is the left view structural representation being provided with the top L bracket of semicircle in the present invention；

In figure: 1, V-shaped groove monitor station, 2, vee-block, 3, V-shaped groove, 4, adjusting rod, 5, dial gauge, 6, T-slot monitor station, 7, L bracket, 8, addendum cone, 9, T-slot, 10, bolt, 11, addendum cone installing hole, 12, bolt, 13, semicircle is top, 14, top mounting groove, 71, horizontal support, 72, longitudinal carrier.

Detailed description of the invention

Below in conjunction with the accompanying drawing in the embodiment of the present invention, the technical scheme in the embodiment of the present invention is clearly and completely described, it is clear that described embodiment is only a part of embodiment of the present invention rather than whole embodiments.Based on the embodiment in the present invention, the every other embodiment that those of ordinary skill in the art are obtained under not making creative work premise, broadly fall into the scope of protection of the invention.

Refer to Fig. 1-9, the another kind of embodiment that the present invention provides: include device for detecting length, two end detecting devices and central hole depth measuring device, described device for detecting length 1 includes V-shaped groove monitor station 1, vee-block 2, V-shaped groove 3, adjusting rod 4, dial gauge 5 and bolt 10, the center of described V-shaped groove monitor station 1 is provided with described V-shaped groove 3, described V-shaped groove 3 is placed vee-block 2 described in, a bolt 10 is run through at described vee-block 2 center from top to bottom, and described V-shaped groove monitor station 1 one end connects described dial gauge 5 by adjusting rod 4；Described two end detecting devices include adjusting rod 4, dial gauge 5, T-slot monitor station 6, L bracket 7, addendum cone 8, T-slot 9, bolt 10, addendum cone installing hole 11 and bolt 12, the center of described T-slot monitor station 6 is provided with described T-slot 9, in described T-slot 9, set puts L bracket 7 described in two, described L bracket 7 includes horizontal support 71 and longitudinal carrier 72, the center of described horizontal support 71 is provided with described bolt 10, the center of described longitudinal carrier 72 side is provided with described addendum cone installing hole 11, the center of described longitudinal carrier 72 upper surface is provided with described bolt 12, wherein the side described in connects described dial gauge 5 by adjusting rod 4；nullDescribed depth of center hole detection device includes adjusting rod 4、Dial gauge 5、T-slot monitor station 6、L bracket 7、Addendum cone 8 and T-slot 9、Bolt 10、Addendum cone installing hole 11 and bolt 12、Semicircle top 13 and top mounting groove 14，The center of described T-slot monitor station 6 is provided with described T-slot 9，In described T-slot 9, set puts L bracket 7 described in two，Described L bracket 7 includes horizontal support 71 and longitudinal carrier 72，The center of horizontal support 71 described in two is provided with described bolt 10，The center of described longitudinal carrier 72 side is provided with described addendum cone installing hole 11，The center of described longitudinal carrier 72 upper surface is provided with described bolt 12，The upper surface of another described longitudinal carrier 72 is provided with described top mounting groove 14，Described top mounting groove 14 is laid semicircle described in top 13，The side of described longitudinal carrier 72 connects described dial gauge 5 by adjusting rod 4；Being relatively large in diameter bottom described V-shaped groove 3；The base diameter of described bolt 10 is more than the diameter of its shaft, and is positioned at bottom described V-shaped groove 3；Being relatively large in diameter bottom described T-slot 9；The base diameter of described bolt 10 is more than the diameter of its shaft, and is positioned at bottom described T-slot 9；Described adjusting rod 4 is telescopic adjustment bar.

Specifically used mode: in present invention work, 1, sample axle is put into the end of dial gauge 5 shown in device for detecting length, so that dial gauge 5 is measured length school zero；2, sample axle is put into the support 7 pushing up one end centre bore other end insertion dial gauge 5 end shown in two end detecting devices with addendum cone 8, so that dial gauge 5 is measured length school zero；3, being put into by sample axle shown in central hole depth measuring device and push up one end centre bore with addendum cone 8, top 13 tops of other end semicircle, with by dial gauge measuring center hole depth school zero.Or during batch machining axle: the axle in the course of processing is put into and detector shown in device for detecting length, two end detecting devices and central hole depth measuring device detects obtain the variance data with sample shaft size, and understand whether the axle in the course of processing meets the requirements.

It is obvious to a person skilled in the art that the invention is not restricted to the details of above-mentioned one exemplary embodiment, and without departing from the spirit or essential characteristics of the present invention, it is possible to realize the present invention in other specific forms.Therefore, no matter from the point of view of which point, embodiment all should be regarded as exemplary, and be nonrestrictive, the scope of the present invention is limited by claims rather than described above, it is intended that all changes fallen in the implication of equivalency and scope of claim included in the present invention.Should not be considered as limiting involved claim by any reference in claim.

Claims

1. processing shaft detection device, including device for detecting length, two end detecting devices and central hole depth measuring device, it is characterized in that: described device for detecting length (1) includes V-shaped groove monitor station (1), vee-block (2), V-shaped groove (3), adjusting rod (4), dial gauge (5) and bolt (10), the center of described V-shaped groove monitor station (1) is provided with described V-shaped groove (3), described V-shaped groove (3) is placed vee-block (2) described in, a bolt (10) is run through at described vee-block (2) center from top to bottom, described V-shaped groove monitor station (1) one end connects described dial gauge (5) by adjusting rod (4)；

nullDescribed two end detecting devices include adjusting rod (4)、Dial gauge (5)、T-slot monitor station (6)、L bracket (7)、Addendum cone (8)、T-slot (9)、Bolt (10)、Addendum cone installing hole (11) and bolt (12)，The center of described T-slot monitor station (6) is provided with described T-slot (9)，In described T-slot (9), set puts L bracket described in two (7)，Described L bracket (7) includes horizontal support (71) and longitudinal carrier (72)，The center of described horizontal support (71) is provided with described bolt (10)，The center of described longitudinal carrier (72) side is provided with described addendum cone installing hole (11)，The center of described longitudinal carrier (72) upper surface is provided with described bolt (12)，Wherein the side described in connects described dial gauge (5) by adjusting rod (4)；

nullDescribed depth of center hole detection device includes adjusting rod (4)、Dial gauge (5)、T-slot monitor station (6)、L bracket (7)、Addendum cone (8) and T-slot (9)、Bolt (10)、Addendum cone installing hole (11) and bolt (12)、Semicircle top (13) and top mounting groove (14)，The center of described T-slot monitor station (6) is provided with described T-slot (9)，In described T-slot (9), set puts L bracket described in two (7)，Described L bracket (7) includes horizontal support (71) and longitudinal carrier (72)，The center of horizontal support described in two (71) is provided with described bolt (10)，The center of described longitudinal carrier (72) side is provided with described addendum cone installing hole (11)，The center of described longitudinal carrier (72) upper surface is provided with described bolt (12)，The upper surface of another described longitudinal carrier (72) is provided with described top mounting groove (14)，Described top mounting groove (14) is laid semicircle described in top (13)，The side of described longitudinal carrier (72) connects described dial gauge (5) by adjusting rod (4).

Processing shaft detection device the most according to claim 1, it is characterised in that: being relatively large in diameter of described V-shaped groove (3) bottom；The base diameter of described bolt (10) is more than the diameter of its shaft, and is positioned at described V-shaped groove (3) bottom.

Processing shaft detection device the most according to claim 1, it is characterised in that: being relatively large in diameter of described T-slot (9) bottom；The base diameter of described bolt (10) is more than the diameter of its shaft, and is positioned at described T-slot (9) bottom.

Processing shaft detection device the most according to claim 1, it is characterised in that: described adjusting rod (4) is telescopic adjustment bar.