CN212159607U - Detection apparatus for electric capacity aluminum hull - Google Patents

Abstract

A detection device for capacitor aluminum shells is characterized in that a conveying belt is driven by a driving wheel to move rightwards, through holes are machined in the belt surface of the conveying belt, a blanking barrel is rotatably arranged above the conveying belt, blanking holes are machined in the barrel wall surface of the blanking barrel, the lower position of the blanking barrel is a blanking position, the blanking barrel rotates anticlockwise, the movement is synchronous with the conveying belt, a surrounding plate surrounds the lower half part of the blanking barrel, a surrounding plate hole is machined in the lower position of the surrounding plate, an upper imager and a lower imager are arranged on the upper side and the lower side of the conveying belt and are located on the right side of the blanking barrel at the same time, a glass baffle is arranged below the conveying belt, the glass baffle extends rightwards from the blanking position and passes through the upper imager and the lower imager, and the; because the motion of unloading bucket and conveyer belt is synchronous, the electric capacity aluminum hull is by unloading position unloading to the through-hole of conveyer belt in, the arrangement of electric capacity aluminum hull is very regular, goes up imager and down imager and regularly shoots the electric capacity aluminum hull of arranging, later, the electric capacity aluminum hull leaves the glass baffle and falls to the play flitch and export.

Description

Detection apparatus for electric capacity aluminum hull

Technical Field

The utility model relates to a detection apparatus for electric capacity aluminum hull.

Background

The capacitor aluminum shell is formed by punching an aluminum strip through a progressive die, the formed capacitor aluminum shell needs to be subjected to cleaning, drying and detection before bagging and selling, the detection means that a certain amount of samples are selected from the capacitor aluminum shells cleaned in the same batch by workers, whether oil stains exist on the inner walls of the samples is observed manually, the amount of the oil stains existing in the capacitor aluminum shells in the batch is estimated, the finished products after cleaning can be bagged and sold generally when the proportion of the oil stains existing in the finished products is required to be below 2%, the manual sampling inspection mode is low in efficiency, and corresponding estimation results are only used for reference.

SUMMERY OF THE UTILITY MODEL

To the weak point that exists in the above-mentioned problem, the utility model provides a detection device of electric capacity aluminum hull.

In order to achieve the above object, the utility model provides a detection apparatus for electric capacity aluminum hull, include:

the conveying belt is driven by a driving wheel to move rightwards, and through holes are uniformly processed on the belt surface of the conveying belt;

the blanking barrel is rotatably arranged above the conveying belt, blanking holes are uniformly processed in the barrel wall surface of the blanking barrel, a blanking position is arranged at the lower position of the blanking barrel, the distance between two adjacent blanking holes is matched with the distance between two adjacent through holes, the blanking barrel rotates anticlockwise, and the movement is synchronous with the conveying belt;

the coaming surrounds the lower half part of the blanking barrel, and a coaming hole is processed at the lower position of the coaming;

the upper imager and the lower imager are oppositely arranged on the upper side and the lower side of the conveying belt and are positioned on the right side of the blanking barrel;

the glass baffle is arranged below the conveying belt, extends rightwards from the discharging position and passes through the upper imager and the lower imager;

the discharging plate is arranged below the conveying belt and is positioned between the glass baffle and the driving wheel, and the discharging plate is obliquely arranged;

because the motion of unloading bucket and conveyer belt is synchronous, the electric capacity aluminum hull is supported by the glass baffle in the through-hole on the conveyer belt by unloading position unloading, and the arrangement of electric capacity aluminum hull is very regular, goes up imager and down the imager and regularly shoots the electric capacity aluminum hull of arranging, and later, the electric capacity aluminum hull leaves the glass baffle and falls to the play flitch and export.

Preferably, the circumference of the driving wheel is provided with a convex column structure, and the shape of the convex column is matched with that of the through hole;

in the technical scheme, the convex columns are matched with the through holes, so that the conveyer belt can be effectively prevented from slipping, and the conveyer belt and the blanking barrel are ensured to be highly synchronous.

Preferably, an end cover of the blanking barrel is provided with a feed inlet which can be opened and closed;

in the technical scheme, the capacitor aluminum shell can be added into the discharging barrel through the charging opening.

Preferably, the inner end of the blanking hole is provided with a lead-in port in a conical surface;

in the technical scheme, the lead-in port can facilitate the entry of the capacitor aluminum shell in the blanking barrel, thereby facilitating the blanking of the blanking barrel.

Preferably, the blanking barrel and the conveying belt are output by the same power mechanism through a speed change system;

in the technical scheme, the device adopts one set of power mechanism, and the structure is compact.

The utility model discloses beneficial effect for prior art does: the prior art is low in efficiency through a manual sampling inspection mode, the device can accurately determine the number of defective products in the batch of capacitor aluminum shells by analyzing images shot by the upper imager and the lower imager, and when the number of defective products is large and does not meet the delivery requirement, the defective products need to be reworked and cleaned again.

Drawings

Fig. 1 is a front view of a device for detecting an aluminum capacitor case according to the present invention;

FIG. 2 is an enlarged view of position A of FIG. 1;

FIG. 3 is an enlarged view of position B of FIG. 2;

FIG. 4 is a cross-sectional view of an aluminum capacitor case;

fig. 5 is a top view of the aluminum capacitor case.

In the figure: 1. a driving wheel; 2. a conveyor belt; 21. a through hole; 3. a discharge plate; 4. a lower imager; 5. an upper imager; 6. a glass baffle; 7. enclosing plates; 71. a surrounding plate hole; 8. a blanking barrel; 81. a blanking hole; 811. an inlet port; 9. and (5) discharging the material.

Detailed Description

As shown in fig. 1, fig. 2 and fig. 3, the detection device for an aluminum capacitor case according to the embodiment of the present invention includes a conveyor belt 2, the conveyor belt 2 is driven by a driving wheel 1 to move to the right, and through holes 21 are uniformly processed on the belt surface of the conveyor belt 2; the blanking barrel 8 is rotatably arranged above the conveying belt 2, blanking holes 81 are uniformly processed on the barrel wall surface of the blanking barrel 8, a blanking position 9 is arranged at the lower position of the blanking barrel 8, the distance between two adjacent blanking holes 81 is matched with the distance between two adjacent through holes 21, the blanking barrel 8 rotates anticlockwise, and the movement is synchronous with the conveying belt 2; the coaming 7 surrounds the lower half part of the blanking barrel 8, and a coaming hole 71 is processed at the lower position of the coaming 7; the upper imager 5 and the lower imager 4 are oppositely arranged on the upper side and the lower side of the conveyer belt 2 and are positioned on the right side of the blanking barrel 8; the glass baffle 6 is arranged below the conveying belt 2, extends rightwards from the blanking position 9 and passes through the upper imager 5 and the lower imager 4; the discharging plate 3 is arranged below the conveying belt 2 and is positioned between the glass baffle 6 and the driving wheel 1, and the discharging plate 3 is obliquely arranged; wherein, the circumference of the driving wheel 1 is provided with a convex column structure, and the shape of the convex column is matched with the through hole 21; an end cover of the blanking barrel 8 is provided with a feed inlet which can be opened and closed; the inner end of the blanking hole 81 is provided with a conical introducing port 811; the blanking barrel 8 and the conveying belt 2 are output by the same power mechanism through a speed change system.

Because the motion of unloading bucket and conveyer belt is synchronous, the electric capacity aluminum hull is supported by the glass baffle in the through-hole on the conveyer belt by unloading position unloading, and the arrangement of electric capacity aluminum hull is very regular, goes up imager and down the imager and regularly shoots the electric capacity aluminum hull of arranging, and later, the electric capacity aluminum hull leaves the glass baffle and falls to the play flitch and export.

When in specific use, the utility model is described with the attached drawings for the convenience of understanding;

a certain amount of capacitance aluminum shells to be detected are added into a blanking barrel by workers (added from a feeding port arranged on an end cover of the blanking barrel), a starting device is used, a driving wheel drives a conveying belt to rotate to the right, the blanking barrel rotates anticlockwise and keeps synchronization with the conveying belt, the capacitance aluminum shells in the blanking barrel sequentially enter through a blanking hole and a coaming hole (a glass baffle plate plays a role of early support), the capacitance aluminum shells are regularly arranged in the through holes on the conveying belt and are conveyed to the right to pass through an upper imager and a lower imager (the capacitance aluminum shells are arranged in the through holes, so that the upper imager and the lower imager are needed), the upper imager and the lower imager take periodic shots, the shot pictures are analyzed, the number of the capacitance aluminum shells which are not thoroughly cleaned is recorded, then the capacitance aluminum shells leave the glass baffle plate, blanking is carried out under the guiding effect of the blanking plate due to dead weight, collected by workers, when the number of defective products does not meet the delivery requirement, the batch of capacitor aluminum shells needs to be reworked and cleaned again.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (5)

1. The utility model provides a detection apparatus for electric capacity aluminum hull which characterized in that: comprises the steps of (a) preparing a mixture of a plurality of raw materials,

the conveying belt (2) is driven by the driving wheel (1) to move rightwards, and through holes (21) are uniformly processed on the belt surface of the conveying belt (2);

the blanking barrel (8) is rotatably arranged above the conveying belt (2), blanking holes (81) are uniformly processed on the barrel wall surface of the blanking barrel (8), a blanking position (9) is arranged at the lower position of the blanking barrel (8), the distance between every two adjacent blanking holes (81) is matched with the distance between every two adjacent through holes (21), the blanking barrel (8) rotates anticlockwise, and the movement is synchronous with the conveying belt (2);

the coaming (7) surrounds the lower half part of the blanking barrel (8), and a coaming hole (71) is processed at the lower position of the coaming (7);

the upper imager (5) and the lower imager (4), the upper imager (5) and the lower imager (4) are oppositely arranged on the upper side and the lower side of the conveying belt (2) and are simultaneously positioned on the right side of the blanking barrel (8);

the glass baffle (6) is arranged below the conveying belt (2), extends rightwards from the blanking position (9) and passes through the upper imager (5) and the lower imager (4);

go out flitch (3), go out flitch (3) and locate conveyer belt (2) below is located simultaneously glass baffle (6) reach between action wheel (1), it sets up to go out flitch (3) slope.

2. The apparatus for inspecting capacitive aluminum case according to claim 1, wherein: the periphery of the driving wheel (1) is provided with a convex column structure, and the shape of the convex column is matched with that of the through hole (21).

3. The apparatus for inspecting capacitive aluminum case according to claim 1, wherein: an end cover of the blanking barrel (8) is provided with a feed inlet which can be opened and closed.

4. The apparatus for inspecting capacitive aluminum case according to claim 1, wherein: the inner end of the blanking hole (81) is provided with a conical introducing port (811).

5. The apparatus for inspecting capacitive aluminum case according to claim 1, wherein: the blanking barrel (8) and the conveying belt (2) are output by the same power mechanism through a speed change system.

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