CN203725392U - Workpiece stabilization mechanism for image screening machine - Google Patents

Abstract

The utility model discloses a workpiece stabilization mechanism for an image screening machine. The image screening machine comprises a vibration damping rail and a glass disc, wherein a workpiece is conveyed to the glass disc by the vibration damping rail. The workpiece stabilization mechanism comprises a magnet, wherein the magnet is arranged below the glass disc and located at the butt-joint part of the glass disc and the vibration damping rail. Therefore, by the workpiece stabilization mechanism for the image screening machine, the workpiece can stably transit to the glass disc from the vibration damping rail.

Description

The workpiece firm organization of image screening machine

Technical field

The utility model relates to a kind of workpiece firm organization of image screening machine.

Background technology

Image screening machine has image screening system, this image screening system is to utilize high resolution camera to obtain the image of thing to be checked, the original dimension value of being set by software systems again and the size value of image contrast mutually, draw the device of qualified products, its automaticity is high, has increased substantially the production efficiency of Workpiece inspection.At present, the image screening machine on existing market generally all has and flat shakes track in order to transmit workpiece, and glass disk is with so that camera capture is convenient in the rotation of workpiece generation circumference.And the flat track that shakes is generally designed with certain gradient, be convenient to the transport of workpiece, be can shake from the flat orbit transfer of shaking to glass disk so just caused workpiece, even can topple over, the inspection speed that slowed down, thus reduce production efficiency.So, be necessary for a kind of device that can make workpiece smooth transition of this type of phenomenon design.

Utility model content

The purpose of this utility model is, for above-mentioned defect of the prior art, to provide a kind of workpiece firm organization of image screening machine, and it can make workpiece to shake orbit transfer to glass disk from flat reposefully.

For realizing above-mentioned utility model object, the utility model has adopted following technical scheme: a kind of workpiece firm organization of image screening machine, described image screening machine comprises flat shake track and glass disk, described workpiece shakes orbit transports on glass disk by described putting down, it is characterized in that: described workpiece firm organization comprises magnet, described magnet is arranged on described glass disk below, and is positioned at the joint of described glass disk and the described flat track that shakes.

In addition, the utility model also provides following attached technical scheme:

Described workpiece firm organization also comprises support component, and described support component and described magnet are matched.

Described support component comprises bracing frame and gripper shoe, and described gripper shoe is fixedly mounted on support frame as described above, and described gripper shoe is mutually vertical with support frame as described above.

Described support component also comprises slide block, and described slide block arranges kidney slot, and described gripper shoe arranges connecting rod, and described kidney slot and described connecting rod are matched.

Described support component also comprises support bar, and the two ends of described support bar are mutually permanently connected with described slide block and magnet respectively.

Than prior art, advantage of the present utility model is: image screening machine also comprises workpiece firm organization, and this workpiece firm organization comprises magnet, and this magnet is arranged on glass disk below, and is positioned at glass disk and the joint of putting down the track that shakes.Magnet can produce magnetic force, and this magnetic force can see through glass disk absorption workpiece, has increased the downward active force of workpiece, makes workpiece and glass disk fit more surely.So the workpiece firm organization of this image screening machine can make workpiece be transitioned into glass disk from the flat guide rail that shakes reposefully.

Brief description of the drawings

Fig. 1 is the partial plan layout corresponding to the image screening machine of the utility model preferred embodiment.

Detailed description of the invention

Below in conjunction with preferred embodiment and accompanying drawing thereof, technical solutions of the utility model are further non-limitingly described in detail.

Shown in Fig. 1 is the image screening machine that the utility model discloses, and this image screening machine is mainly for detection of the lateral dimension of workpiece.It comprises flat shake track 1, glass disk 2, workpiece firm organization 3, directive wheel detent mechanism 4 and refracting telescope module 5.The two ends of the flat track 1 that shakes are connected with the peaceful dish (not shown) of shaking of glass disk 2 respectively.When work, the flat peaceful track 1 that shakes of dish that shakes is shaken under electric and magnetic oscillation effect, and the flat workpiece 100 shaking in dish flow into flat shaking in track 1, then is transported to glass disk 2 by the flat track 1 that shakes.Wherein, the flat track 1 that shakes is arranged on pedestal 10, and the flat track 1 that shakes has certain slope, the other end that one end that the flat track 1 that shakes is connected with the flat dish that shakes is connected with glass disk 2 higher than the flat track 1 that shakes, being designed with of this gradient is beneficial to workpiece 100 in flat transport of shaking on track 1.The centre of glass disk 2 and motor 41 are mutually permanently connected, and at the uniform velocity circumference rotation can occur this glass disk 2 under the driving of motor 41, and drives the workpiece 100 in glass disk 2 to rotate.

Workpiece firm organization 3 is arranged on the below of flat shake track 1 and glass disk 2 joints, this workpiece firm organization 3 comprises magnet 11 and the first support component 12, this magnet 11 is mutually permanently connected with this first support component 12, and is supported on the below of glass disk 2 by the first support component 12.Particularly, the first support component 12 comprises the first bracing frame 12a, the first gripper shoe 12b, slide block 12c and support bar 12d.It is upper that the first gripper shoe 12b is fixedly mounted on the first bracing frame 12a, and both are mutually vertical.The the first gripper shoe 12b wherein top of one end is fixedly installed connecting rod (not shown), kidney slot 24 is set on slide block 12c, connecting rod on the first gripper shoe 12b inserts in the kidney slot 24 of slide block 12c, slide block 12 and connecting rod are slidably connected mutually, therefore, slide block 12 can or slide around connecting rod rotation.Meanwhile, slide block 12c is all mutually vertical with the first bracing frame 12a, the first gripper shoe 12b.One end of support bar 12d and slide block 12c are mutually permanently connected, the other end and magnet 11 are mutually permanently connected, can be clear that by Fig. 1, magnet 11 is positioned at glass disk 2 belows, mutually vertical with glass disk 2, and the just junction to flat shake track 1 and glass disk 2, but the particular location of magnet 11 can pass through the slidable adjustment of slide block 12.

Because the flat track 1 that shakes exists certain slope, cause the flat joint shaking between track 1 and glass disk 2 to have certain angle.Therefore, in the time that workpiece 100 enters glass disk 2 from the flat track 1 that shakes, can shake, even can topple over, reduce production efficiency.And the magnetic force of magnet 11 can see through glass disk 2, in the time that workpiece 100 falls from the flat track 1 that shakes, magnet 11 can utilize magneticaction absorption workpiece 100, thereby increases the downward power of workpiece 100, workpiece 100 and glass disk 2 are fitted more, avoided workpiece 100 to skew.

Directive wheel detent mechanism 4 comprises motor 38, directive wheel 37 and the second support component 33, and motor 38 and directive wheel 37 are all arranged on the second support component 33, and is all positioned at glass disk 2 tops.Particularly, the second gripper shoe 34 that the second support component 33 comprises the second bracing frame 34 and is mutually permanently connected with the second bracing frame 34.In the second gripper shoe 34, through hole (not shown) is set, motor 38 is arranged in the second gripper shoe 34, thereby and the drive link (not shown) of motor 38 be mutually permanently connected with directive wheel 37 through the through hole of the second gripper shoe 34.Directive wheel 37 can rotatablely move under the driving of motor 38, and the workpiece 100 that the rotation of directive wheel 37 can differ position is directed on same circumference, is convenient to camera 17 captures.

Refracting telescope module 5 comprises camera 17, refracting telescope 18 and the 3rd support component 19, and camera 17 and refracting telescope 18 are all arranged on the 3rd support component 19, are supported by the 3rd support component 19.Particularly, the 3rd support component 19 comprises the 3rd bracing frame 20 and a pair of the 3rd gripper shoe, and this is specially upper backup pad 21a and lower supporting plate 21b to the 3rd gripper shoe.Upper backup pad 21a is fixedly mounted on the 3rd bracing frame 20, and is positioned at the top of glass disk 2, and lower supporting plate 21b is fixedly mounted on the 3rd bracing frame 20 equally, but is positioned at the below of glass disk 2.It is upper that camera 17 is arranged on upper backup pad 21a, and it is upper that refracting telescope 18 is mounted obliquely within lower supporting plate 21b, and refracting telescope 18 also can carry out slight angle and the adjusting of position on lower supporting plate 21b, to reach best radiation response.Glass disk 2 is between camera 17 and refracting telescope 18, and camera 17 is facing to refracting telescope 18, and best angle is camera 12 and being centered close on same vertical line of refracting telescope 18.Refracting telescope 18 can be irradiated to by refraction action the lateral dimension of workpiece 100, and because camera 17 is facing to refracting telescope 18, so camera 17 can obtain the lateral dimension of workpiece 100 by refracting telescope 18.And, because camera 17 is longitudinal setting, take full advantage of having living space of this image screening machine, reduce camera 17 in horizontal taking up room, thereby reduced the volume of this image screening machine.

The operation principle of this image screening machine is: the flat dish that shakes utilizes electric and magnetic oscillation principle, workpiece 100 vibrations are transported to flat shaking on track 1, the flat track 1 that shakes utilizes electric and magnetic oscillation principle equally, and the slope design of the flat track 1 that shakes, and can easily workpiece 100 be transported in glass disk 2.The magnet 11 of the workpiece firm organization 3 of design below glass disk 2 utilizes magnetic force workpiece 100 can be inhaled surely in glass disk 2, ensured workpiece 100 transition stages steadily.Under the driving of motor 41, there is at the uniform velocity circumference rotation in glass disk 2, at the uniform velocity circumference rotation equally also occurs the workpiece 100 in glass disk 2.But, fall the workpiece 100 position disunities glass disk 2 from the flat track 1 that shakes, so, need to use directive wheel 37 that workpiece 100 is directed on same circumference.In the time that workpiece 100 arrives the scope of refracting telescope module 5, under the refraction action of refracting telescope 18, camera 17 can obtain the lateral dimension of workpiece 100.Structure and the size of the workpiece 100 that this image screening machine gets according to camera 17, judge substandard product.

It is to be noted; above-mentioned preferred embodiment is only explanation technical conceive of the present utility model and feature; its object is to allow person skilled in the art can understand content of the present utility model and implement according to this, can not limit protection domain of the present utility model with this.All equivalences of doing according to the utility model Spirit Essence change or modify, within all should being encompassed in protection domain of the present utility model.

Claims (5)

1. the workpiece firm organization of an image screening machine, described image screening machine comprises flat shake track and glass disk, described workpiece shakes orbit transports on glass disk by described putting down, it is characterized in that: described workpiece firm organization comprises magnet, described magnet is arranged on described glass disk below, and is positioned at the joint of described glass disk and the described flat track that shakes.

2. the workpiece firm organization of image screening machine according to claim 1, is characterized in that: described workpiece firm organization also comprises support component, described support component and described magnet are matched.

3. the workpiece firm organization of image screening machine according to claim 2, is characterized in that: described support component comprises bracing frame and gripper shoe, described gripper shoe is fixedly mounted on support frame as described above, and described gripper shoe is mutually vertical with support frame as described above.

4. the workpiece firm organization of image screening machine according to claim 3, is characterized in that: described support component also comprises slide block, described slide block arranges kidney slot, and described gripper shoe arranges connecting rod, and described kidney slot and described connecting rod are matched.

5. the workpiece firm organization of image screening machine according to claim 3, is characterized in that: described support component also comprises support bar, the two ends of described support bar are mutually permanently connected with described slide block and magnet respectively.