CN103413677B - The shaping shearing of full-automatic vertical inductance component pin detects all-in-one - Google Patents

Abstract

The shaping shearing that the invention discloses full-automatic vertical inductance component pin detects all-in-one, comprises pedestal, described pedestal is provided with feed arrangement, cutting device and drawing mechanism successively along the direction of transfer of inductance component; Above described cutting device, be provided with conveyer, described conveyer is slidably connected to support plate, and described support plate is connected on pedestal by piston C.From said structure, the shaping shearing of full-automatic vertical inductance component pin of the present invention detects all-in-one, and whole operating process gets involved without the need to operative employee, reduces the labour intensity of operative employee; By means of only an equipment, can complete simultaneously inductance component pin shaping, shear and conductivity detection multistep operation, reduce the production cost of enterprise, also improve production efficiency simultaneously; After underproof inductance component being detected, underproof inductance component can be carried out separated and collected by equipment automatically, improves the qualification rate of product; Carry out the shaping of pin by mould and shear, shear effect is good, improves the quality of product.

Description

The shaping shearing of full-automatic vertical inductance component pin detects all-in-one

Technical field

The present invention relates to electronic device and manufacture field, the shaping shearing being specifically related to a kind of full-automatic vertical inductance component pin detects all-in-one.

Background technology

Along with the development of science and technology, electronic equipment appears at us at one's side more and more, brings great convenience to our life.The extensive application of electronic equipment, causes the demand of electric elements very big.Inductance component after carrying out sleeve pipe, just need its pin to carry out respectively shaping, shear and the operation of conductivity detection.In current manufacturing enterprise, this few step operation needs to be carried out by hand by operative employee, and not only speed is slower, and pin after shaping shearing is irregular, affect sale and the use of product, in addition when operative employee manually carries out conductivity detection, detect error rate relatively high; Some enterprise have purchased corresponding equipment, respectively to inductance component carry out shaping, shear and conductivity detection, improve production efficiency, reduce detection error rate, but production cost be higher.

Summary of the invention

The object of the invention is to: overcome the deficiencies in the prior art, a kind of shaping shearing of full-automatic vertical inductance component pin is provided to detect all-in-one, full-automatic molding, shearing and conductivity detection are carried out to the pin of inductance component, speed of production is fast, conforming product rate is high, save a large amount of labour, reduce the production cost of enterprise.

The technical solution used in the present invention is:

The shaping shearing of full-automatic vertical inductance component pin detects all-in-one, comprises pedestal, described pedestal is provided with feed arrangement, cutting device and drawing mechanism successively along the direction of transfer of inductance component; Above described cutting device, be provided with conveyer, described conveyer is slidably connected to support plate, and described support plate is connected on pedestal by piston C.By the present invention can carry out simultaneously inductance component pin shaping, shear and the conductivity detection of inductance component, reduce production cost, alleviate the labour intensity of operative employee, improve production efficiency.

The further improvement project of the present invention is that described feed arrangement comprises the feed rail being fixed on pedestal, and described feed rail is fixed on pedestal by cushion block.

The present invention further improvement project is, the upper surface of described feed rail is provided with feed well, and the bottom land medium position place of described feed well is provided with pin groove, and the groove width of feed well equals or slightly larger than the maximum gauge of inductance component.

The present invention further improvement project is, described cutting device comprises multiple contiguous block A set successively along inductance component direction of transfer on pedestal and contiguous block B, the end face that described contiguous block A is relative with contiguous block B is fixed with pressing die, spike mould, shaper, cutting mould respectively and surveys electric mould.By various mould, ensure that the pin shearing of inductance component is effective, improve the quality of product.

The present invention further improvement project is, described contiguous block A and contiguous block B realize the pressing die of end face, spike mould, shaper, cutting mould respectively by piston A and survey the pressing of electric mould or be separated; Described contiguous block A is located on backing plate, and contiguous block B is located at bearing.

The present invention further improvement project is, described conveyer comprises multiple feed point, and described feed point is fixed on substrate this side towards cutting device, and described substrate one end is connected with piston, and described substrate is slidably connected to support plate.

The present invention further improvement project is, the spacing between described feed point equals the spacing between contiguous block A or contiguous block B, on the downward projection of the described feed point axis between contiguous block A and contiguous block B.

The present invention further improvement project is, is provided with fixture, is provided with electromagnet bottom all the other feed points bottom the feed point of this one end of feed arrangement, and the electromagnet bottom the feed point coordinated with the electric mould of survey is coated with insulating material.

The present invention further improvement project is, the conductive contact end set by surveying on electric mould passes contiguous block and contacts with the pin of inductance component.Ensure the conductivity detection effect of inductance component.

The present invention further improvement project is, described drawing mechanism comprises the plectrum in blow tank and blow tank, described blow tank is downward-sloping along the direction of transfer of inductance component, and last feed point lower position is fixed in the upper end of blow tank, and the other end stretches out pedestal; Described plectrum is movably connected in blow tank.

When the present invention uses, inductance component enters feed well, when the inductance component in feed well arrives feed rail end, signal controlling piston rod B stretches out piston B, feed point is made to drive clamp movement to feed rail end, and dropping to specified altitude assignment by the effect of piston C, fixture clamps inductance component; Feed point rises afterwards, and moves to subsequent processing, until inductance component is positioned at above pressing die, bending pin, by pressing die pressing, flattens by piston A; Now feed point rises, and moves to last operation, and feed point declines after moving to an operation, next inductance component is picked up, the electromagnet energising simultaneously bottom all the other feed points, and the piston rod A of piston A returns in piston A, driven mold is separated, and electromagnet is by inductance component adhesive; The feed point picking inductance component rises and continues to move to subsequent processing, when the inductance component that pin flattens moves to spike die location place, after feed point declines, electromagnet power-off, simultaneously spike mould pressing, and feed point rises a backward upper operation again moves, and again decline, electromagnet is energized, and mould is separated; Repeat said process, the pin of inductance component carried out respectively flatten, spike, sizing, shearing and conductivity detection; After qualified inductance component being detected, signal controlling plectrum is allocated to a direction, makes qualified inductance component be collected in a material collecting device; After underproof inductance component being detected, signal controlling plectrum is allocated to another direction, and underproof inductance component is collected in another material collecting device.

Beneficial effect of the present invention is:

The first, the shaping shearing of full-automatic vertical inductance component pin of the present invention detects all-in-one, and whole operating process gets involved without the need to operative employee, reduces the labour intensity of operative employee, improves production efficiency.

The second, the shaping shearing of full-automatic vertical inductance component pin of the present invention detects all-in-one, by an equipment, complete simultaneously inductance component pin shaping, shear and the multiple operation of conductivity detection of inductance component, reduce the production cost of enterprise, also improve production efficiency simultaneously.

Three, the shaping shearing of full-automatic vertical inductance component pin of the present invention detects all-in-one, and after underproof inductance component being detected, underproof inductance component can be carried out separated and collected by equipment automatically, improves the qualification rate of product.

Four, the shaping shearing of full-automatic vertical inductance component pin of the present invention detects all-in-one, and carry out the shaping of pin by mould and shear, shear effect is good, improves the quality of product.

accompanying drawing illustrates:

Fig. 1 is the schematic front view of structure first station of the present invention.

Fig. 2 be structure first station of the present invention overlook partial schematic sectional view.

Fig. 3 is the schematic front view of structure second station of the present invention.

Fig. 4 be structure second station of the present invention overlook partial schematic sectional view.

embodiment:

Shown in composition graphs 1, Fig. 2, Fig. 3 and Fig. 4, the shaping shearing of full-automatic vertical inductance component pin of the present invention detects all-in-one, the pillar 2 comprising pedestal 1 and be located at bottom pedestal 1, described pedestal 1 is provided with feed arrangement, cutting device and drawing mechanism successively along the direction of transfer of inductance component 18; Above described cutting device, be provided with conveyer, described conveyer is slidably connected to support plate 6, and described support plate 6 is connected on pedestal 1 by piston C19; Described feed arrangement comprises feed rail 10, and described feed rail 10 is fixed on pedestal 1 by cushion block 4; The upper surface of described feed rail 10 is provided with feed well, the bottom land medium position place of described feed well is provided with pin groove, the groove width of feed well equals or slightly larger than the maximum gauge (in the implementation case, the groove width of feed well equals the maximum gauge of inductance component) of inductance component; Described cutting device comprises multiple contiguous block A8 set successively along inductance component 18 direction of transfer on pedestal 1 and contiguous block B20, the end face that described contiguous block A8 is relative with contiguous block B20 is fixed with pressing die, spike mould, shaper, cutting mould respectively and surveys electric mould; Described contiguous block A8 and contiguous block B20 realize the pressing die of end face, spike mould, shaper, cutting mould respectively by piston A11 and survey the pressing of electric mould or be separated; Described contiguous block A8 is located on backing plate 3, and contiguous block B20 is located at bearing 5, and described backing plate 3 is fixed on pedestal 1 with bearing 5; Described conveyer comprises multiple feed point 9, and described feed point 9 is fixed on substrate 7 this side towards cutting device, and described substrate 7 one end is connected with piston, and described substrate 7 is slidably connected to support plate 6; Described substrate 7 is slidably connected by piston B14 and support plate 6, and glide direction is parallel with the direction of transfer of inductance component 18, and the end winding support of piston rod B17 is in the end face of substrate 7, and piston B14 is fixed on support plate 6 by fixed mount 16; Described support plate 6 is movably connected on the top of bearing 5 by piston C19, the piston rod of described piston C19 protrudes upward, and end winding support is in support plate 6 bottom surface; Spacing between described feed point 9 equals the spacing between contiguous block A8 or contiguous block B20, on the downward projection of described feed point 9 axis between contiguous block A8 and contiguous block B20; Bottom the feed point 9 of this one end of feed arrangement, be provided with fixture 15, be provided with electromagnet bottom all the other feed points 9, the electromagnet bottom the feed point 9 coordinated with the electric mould of survey is coated with insulating material; Conductive contact 12 end set by surveying on electric mould passes contiguous block 8 and contacts with the pin of inductance component 18; Described drawing mechanism comprises the plectrum 21 in blow tank 13 and blow tank, and described blow tank 13 is downward-sloping along the direction of transfer of inductance component 18, and last feed point 9 lower position is fixed in the upper end of blow tank 13, and the other end stretches out pedestal 1; Described plectrum 21 is movably connected in blow tank.

Claims (8)

1. the shaping shearing of full-automatic vertical inductance component pin detects all-in-one, it is characterized in that: comprise pedestal (1), described pedestal (1) is provided with feed arrangement, cutting device and drawing mechanism successively along the direction of transfer of inductance component (18); Above described cutting device, be provided with conveyer, described conveyer is slidably connected to support plate (6), and described support plate (6) is by piston C(19) be connected on pedestal (1); Described cutting device comprises multiple contiguous block A(8 set successively along inductance component (18) direction of transfer on pedestal (1)) and contiguous block B(20), described contiguous block A(8) with contiguous block B(20) relative end face is fixed with pressing die, spike mould, shaper, cutting mould respectively and surveys electric mould.

2. the shaping shearing of full-automatic vertical inductance component pin as claimed in claim 1 detects all-in-one, it is characterized in that: described feed arrangement comprises the feed rail (10) being fixed on pedestal (1), the upper surface of described feed rail (10) is provided with feed well, the bottom land medium position place of described feed well is provided with pin groove, and the groove width of feed well equals or slightly larger than the maximum gauge of inductance component.

3. shaping the shearings detection all-in-one of full-automatic vertical inductance component pin as claimed in claim 1, is characterized in that: described contiguous block A(8) with contiguous block B(20) respectively by piston A(11) realize the pressing die of end face, spike mould, shaper, cutting mould and survey the pressing of electric mould or be separated.

4. the shaping shearing of full-automatic vertical inductance component pin as claimed in claim 3 detects all-in-one, it is characterized in that: described conveyer comprises multiple feed point (9), described feed point (9) is fixed on substrate (7) this side towards cutting device, described substrate (7) one end is connected with piston, and described substrate (7) is slidably connected to support plate (6).

5. the shaping shearing of full-automatic vertical inductance component pin as claimed in claim 4 detects all-in-one, it is characterized in that: the spacing between described feed point (9) equals contiguous block A(8) or contiguous block B(20) between spacing, the downward projection of described feed point (9) is positioned at contiguous block A(8) and contiguous block B(20) between axis on.

6. the shaping shearing of the full-automatic vertical inductance component pin as described in claim 4 or 5 detects all-in-one, it is characterized in that: feed point (9) bottom near this one end of feed arrangement is provided with fixture (15), all the other feed points (9) bottom is provided with electromagnet, is coated with insulating material with the electromagnet surveying feed point (9) bottom that electric mould coordinates.

7. the shaping shearing of the full-automatic vertical inductance component pin as described in claim 4 or 5 detects all-in-one, it is characterized in that: conductive contact (12) end set by surveying on electric mould passes contiguous block (8) and contacts with the pin of inductance component (18).

8. the shaping shearing of full-automatic vertical inductance component pin as claimed in claim 1 detects all-in-one, it is characterized in that: described drawing mechanism comprises the plectrum (21) in blow tank (13) and blow tank, described blow tank (13) is downward-sloping along the direction of transfer of inductance component (18), last feed point (9) lower position is fixed in the upper end of blow tank (13), and the other end stretches out pedestal (1); Described plectrum (21) is movably connected in blow tank.