CN201892530U

CN201892530U - Turning-over measurement device used for bearing assembly equipment

Info

Publication number: CN201892530U
Application number: CN2010202122833U
Authority: CN
Inventors: 陈连佳
Original assignee: WUXI HUIGUANG PRECISION MACHINERY CO Ltd
Current assignee: WUXI HUIGUANG PRECISION MACHINERY CO Ltd
Priority date: 2010-06-02
Filing date: 2010-06-02
Publication date: 2011-07-06
Anticipated expiration: 2020-06-02

Abstract

The utility model relates to manufacturing equipment of a bearing, in particular to a measurement device for measuring multiple sizes such as groove diameter of an inner ring and an outer ring of the bearing, inner diameter of the bearing and outer diameter of the bearing. The turning-over measurement device used for bearing assembly equipment is composed of a rack, a feed module and a measurement module, wherein the feed module comprises a rotating power source, a rotating shaft, a rotating frame and a plurality of hanging columns; and the measurement module comprises a transfer air cylinder, a flexible measurement frame, an installation seat, an upper measurement head, a lower measurement head, a measurement pen, a measurement force adjustment device and a measurement air cylinder. For the turning-over measurement device, a bearing part to be measured is conveyed to an appropriate horizontal position by the hanging columns on the feed module, then the transfer air cylinder pushes the flexible measurement frame to move the upper measurement head and the lower measurement head onto the bearing part, and the bearing part is transferred to the upper measurement head and the lower measurement head, so as to be measured; when the measurement is taken, the bearing part is in vertical state; the measurement is precise; when carrying is performed, a ferrule is in horizontal state; and the motion is stable and reliable.

Description

Be used for the upset measurement mechanism on the bearing rigging equipment

Technical field

The utility model relates to a kind of manufacturing equipment of bearing, relates in particular to a kind of measurement mechanism of measuring multiple sizes such as bearing enclose ditch footpath, bearing bore diameter, bearing outside diameter.

Background technology

In bearing manufacturing, need the ditch footpath equidimension of bearing enclose is measured accurately, to guarantee the quality of bearing assembling.At present, the hand dipping assembling is adopted in the miniature deep groove ball bearing production of domestic spy substantially, and production efficiency is extremely low.Measure the influence that is subjected to workman's operating speed, dynamics manually, stability is bad, is difficult to realize the high-efficiency high-quality production of special miniature deep groove ball bearing in enormous quantities.

Summary of the invention

In order to solve the technological deficiency that existing efficiency of measurement manually is poor, stability is bad, the purpose of this utility model provides a kind of upset measurement mechanism that is used on the bearing rigging equipment, and this device has simple in structure, measures convenient, fast, the accuracy rate height, the characteristics of good stability.

In order to realize above-mentioned technical purpose, the utility model has adopted following technical scheme:

Be used for the upset measurement mechanism on the bearing rigging equipment, this device is made of frame, material loading module and measurement module; The material loading module comprises rotating power source, rotating shaft, swivel mount and a plurality of hanging column, swivel mount is provided with a plurality of installed surfaces, a plurality of hanging columns are separately positioned on the installed surface, and swivel mount is connected with rotating power source by rotating shaft, and rotating shaft is fixedly installed on the frame by bearing seat; Measurement module comprise transfer cylinder, flexible measurement bay, mount pad, go up gauge head, down gauge head, survey pen, dynamometry adjusting gear and measure cylinder, flexible measurement bay is fixedly installed on the mount pad, mount pad is connected with the handover cylinder, and the bottom and the frame of mount pad are connected by transfer track; Described flexible measurement bay is made of upper frame and lower frame, is provided with the gap between upper frame and the lower frame, and upper frame is a fixture, and lower frame is an elastic component, and described upward gauge head, following gauge head fixedly install respectively on upper frame and the lower frame; Described survey pen, dynamometry adjusting gear and measurement cylinder are separately positioned on the upper frame, the survey pen passes upper frame and lower frame offsets, the piston rod of measurement cylinder passes upper frame and lower frame offsets, the dynamometry adjusting gear comprises fixed mount and spring, fixed mount is arranged on the mount pad, spring one end is connected with fixed mount, and the other end passes upper frame fixedlys connected with lower frame.

As further improvement, above-mentioned lower frame comprises elastic plate, following elastic plate and fixed head, last elastic plate, following elastic plate are connected by arc thin-wall respectively with two ends of lower frame, described survey pen passes upper frame and last elastic plate and fixed head and offsets, the piston rod of measuring cylinder passes upper frame and last elastic plate and fixed head and offsets, and the other end of spring passes upper frame fixedlys connected with fixed head with last elastic plate.

As further improvement, above-mentioned fixed head is provided with two hard alloy blocks, and described survey pen is worn with piston rod and offseted with hard alloy blocks respectively.

As further improvement, above-mentioned dynamometry adjusting gear also comprises the adjustment piece, adjusts piece and is movably arranged on the fixed mount, and described spring one end is connected with the adjustment piece.

As further improvement, above-mentioned rotating power source is a rotary cylinder.

The utility model is owing to adopted above-mentioned technical scheme, by the hanging column on the material loading module bearing parts of required measurement is delivered to suitable horizontal position, transfer cylinder then and promote that flexible measurement bay will be gone up gauge head, down gauge head is delivered on the bearing parts, bearing parts is transferred to gauge head, following gauge head, measures.Bearing parts was in vertical state when the utility model was measured, and measured accurately, and lasso is in horizontality during carrying, moved reliable and stablely, can realize the full-automatic assembling of special miniature deep groove ball bearing on its basis.

Description of drawings

Fig. 1 is the structural representation of the utility model virgin state.

Fig. 2 measures the structural representation of state for the utility model.

Fig. 3 is the structural representation of the flexible measurement bay of the utility model.

Embodiment

Below in conjunction with accompanying drawing embodiment of the present utility model is made a detailed explanation.

As shown in Figure 1 be used for upset measurement mechanism on the bearing rigging equipment, this device is made of frame 1, material loading module and measurement module.The material loading module comprises rotary cylinder 15, rotating shaft 14,

swivel mount

9 and 2 hanging columns 11, swivel mount 9 is provided with 2 installed

surfaces

12,2 hanging columns 11 are separately positioned on the installed surface 12, swivel mount 9 is connected with rotary cylinder 15 by rotating shaft 14, and rotating shaft 14 is fixedly installed on the frame 1 by bearing seat 13.Measurement module comprise transfer cylinder 2, flexible measurement bay 5, mount pad 3, go up gauge head 61, down gauge head 62, survey pen 7, dynamometry adjusting gear 4 and measure cylinder 8, flexible measurement bay 5 is fixedly installed on the mount pad 3, mount pad 3 is connected with handover cylinder 2, and the bottom of mount pad 3 and frame 1 are connected by transfer track 31,32.As shown in Figure 3, flexible measurement bay 5 is made of upper frame 51 and lower frame 52, is provided with the gap between upper frame 51 and the lower frame 52, and last gauge head 61, following gauge head 62 fixedly install respectively on upper frame 51 and the lower frame 52.Upper frame 51 is a fixture, and upper frame 51 is provided with surveys a mounting hole 58, cylinder mounting holes 59 and spring eye 60; Lower frame 52 is an elastic component, lower frame 52 comprises elastic plate 53, following elastic plate 55 and fixed head 54, last elastic plate 53, following elastic plate 55 are connected by arc thin-wall 56 respectively with two ends of lower frame 52, and fixed head 54 is provided with two hard alloy blocks 57.Survey pen 7 and measure cylinder 8 and be installed in respectively on a survey mounting hole 58 and the cylinder mounting holes 59, survey pen 7 and pass and survey a mounting hole 58 and last elastic plate 53 and offset with hard alloy blocks 57 on the fixed head 54, the piston rod 81 of measuring cylinder 8 pass cylinder mounting holes 59 and last elastic plate 53 also with fixed head 54 on hard alloy blocks 57 offset.Dynamometry adjusting gear 4 comprises fixed mount 41, adjusts piece 42 and spring 43, fixed mount 41 is arranged on the mount pad 3, adjust piece 42 and be movably arranged on the fixed mount 41, spring 43 1 ends are connected with adjustment piece 42, and the other end passes spring eye 60 fixedlys connected with lower frame 52 with last elastic plate 53.

Its original state (as Fig. 1) is transferred cylinder 2 withdrawals, measures cylinder 8 and stretches out, and last gauge head 61 and following gauge head 62 open, and have a hanging column A11 to be in horizontality.After bearing ring B10 delivers on the hanging column B11 by carrying device, rotary cylinder 15 rotations, driven rotary frame 9 and the hanging column 11 and the lasso on the hanging column 11 10 that are installed on the swivel mount 9 rotate, and make hanging column B11 transfer horizontality to, and hanging column A11 transfers vertical state to.Carrying device is taken the last lasso A10 of hanging column A11 away and is delivered to next working link, simultaneously lasso C10 is delivered on the hanging column A11.Then, transfer cylinder 2 and stretch out, drive the part that is installed on the handover guide rail and advance to desired location.At this moment, measure cylinder 8 withdrawals, last gauge head 61 and following gauge head 62 close up under the effect of the power that applies of self elastic force of flexible measurement bay 5 and dynamometry adjusting gear 4, and lasso B10 ditch is directly measured (as Fig. 2).After measurement is finished, measure cylinder 8 and stretch out, last gauge head 61 and following gauge head 62 open, and transfer cylinder 2 withdrawals then, drive the part that is installed on the handover guide rail and are back to initial position, and whole working cycle is finished.Next working cycle will be measured lasso C10, and lasso B10 will be delivered to next working link.Under the prerequisite of mutually noninterfere, the action of carrying device conveyance lasso can be carried out simultaneously with the measurement action.Lasso is in vertical state during this structure measurement, measures accurately, and lasso is in horizontality during carrying, moves reliable and stablely, can realize the full-automatic assembling of special miniature deep groove ball bearing on its basis.

Fig. 1 of the present utility model, Fig. 2 directly measure for being used for the bearing inner race ditch.Change flexible measurement bay 5, go up gauge head 61, can be used for behind the parts such as gauge head 62, hanging column 11 measurement of multiple sizes such as bearing outer ring ditch footpath, bearing bore diameter, bearing outside diameter.

Claims

1. be used for the upset measurement mechanism on the bearing rigging equipment, it is characterized in that: this device is made of frame (1), material loading module and measurement module; The material loading module comprises rotating power source, rotating shaft (14), swivel mount (9) and a plurality of hanging column (11), swivel mount (9) is provided with a plurality of installed surfaces (12), a plurality of hanging columns (11) are separately positioned on the installed surface (12), swivel mount (9) is connected with rotating power source by rotating shaft (14), and rotating shaft (14) is fixedly installed on the frame (1) by bearing seat (13); Measurement module comprise transfer cylinder (2), flexible measurement bay (5), mount pad (3), go up gauge head (61), down gauge head (62), survey pen (7), dynamometry adjusting gear (4) and measurement cylinder (8), flexible measurement bay (5) is fixedly installed on the mount pad (3), mount pad (3) is connected with handover cylinder (2), and the bottom of mount pad (3) and frame (1) are connected by transfer track (31,32); Described flexible measurement bay (5) is made of upper frame (51) and lower frame (52), be provided with the gap between upper frame (51) and the lower frame (52), upper frame (51) is a fixture, lower frame (52) is an elastic component, and described upward gauge head (61), following gauge head (62) fixedly install respectively on upper frame (51) and the lower frame (52); Described survey pen (7), dynamometry adjusting gear (4) and measurement cylinder (8) are separately positioned on the upper frame (51), survey pen (7) passes upper frame (51) and offsets with lower frame (52), the piston rod (81) of measuring cylinder (8) passes upper frame (51) and offsets with lower frame (52), dynamometry adjusting gear (4) comprises fixed mount (41) and spring (43), fixed mount (41) is arranged on the mount pad (3), spring (43) one ends are connected with fixed mount (41), and the other end passes upper frame (51) fixedlys connected with lower frame (52).

2. the upset measurement mechanism that is used on the bearing rigging equipment according to claim 1, it is characterized in that: lower frame (52) comprises elastic plate (53), following elastic plate (5) and fixed head (54), last elastic plate (53), following elastic plate (5) is connected by arc thin-wall (56) respectively with two ends of lower frame (52), described survey pen (7) passes upper frame (51) and last elastic plate (53) offsets with fixed head (54), the piston rod (81) of measuring cylinder (8) passes upper frame (51) and last elastic plate (53) and fixed head (54) and offsets, and the other end of spring (43) passes upper frame (51) fixedlys connected with fixed head (54) with last elastic plate (53).

3. the upset measurement mechanism that is used on the bearing rigging equipment according to claim 2 is characterized in that: fixed head (54) is provided with two hard alloy blocks (57), and described survey pen (7) and piston rod offset with hard alloy blocks (57) respectively.

4. according to claim 1 or the 2 or 3 described upset measurement mechanisms that are used on the bearing rigging equipment, it is characterized in that: dynamometry adjusting gear (4) also comprises adjusts piece (42), adjust piece (42) and be movably arranged on the fixed mount (41), described spring (43) one ends are connected with adjustment piece (42).

5. according to claim 1 or the 2 or 3 described upset measurement mechanisms that are used on the bearing rigging equipment, it is characterized in that: rotating power source is rotary cylinder (15).