CN105642748A

CN105642748A - Riveting equipment

Info

Publication number: CN105642748A
Application number: CN201610088382.7A
Authority: CN
Inventors: 廖金安
Original assignee: Shenzhen Jinlifeng Hardware Manufacturing Co Ltd
Current assignee: Shenzhen Jinlifeng Hardware Manufacturing Co Ltd
Priority date: 2016-02-17
Filing date: 2016-02-17
Publication date: 2016-06-08
Anticipated expiration: 2036-02-17
Also published as: CN105642748B

Abstract

The invention provides riveting equipment. According to the riveting equipment, when the rear half portion of a switching conductive copper sheet is punched, two second trimming puncher pins carry out punching at the same time to form the rear half portion of the switching conductive copper sheet. When the front half portion of the switching conductive copper sheet is punched, the front half portion of the switching conductive copper sheet is separated from a brass strip through two separation puncher pins at the same time. The two second puncher pins abut against a contact piece at the same time for crude riveting, two third puncher pins abut against the contact piece at the same time for fine riveting, and the work efficiency is high. Switching conductive copper sheet punching is completed in a mold seat, meanwhile, the contact piece is riveted to the switching conductive copper sheet, the work efficiency is further improved and is ten times that of traditional manual riveting, and therefore labor cost is reduced. By means of a feeding machine, the feeding safety is high, and the phenomenon of occupational injury accidents in the prior art is avoided.

Description

Riveting equipment

Technical field

The present invention relates to a kind of riveting equipment.

Background technology

At present, clipping in die cavity by tweezers by contact and die-cut good switches conductive copper sheet, carry out riveted with manual little punch press, this kind of method production efficiency is low, and human cost is high, and is easily pressed onto hands in the process of riveted thus causing industrial accident.

Summary of the invention

It is an object of the invention to overcome above-mentioned the deficiencies in the prior art, it is provided that a kind of work efficiency is high and uses safe riveting equipment.

The present invention is realized in, a kind of riveting equipment, including one for carrying the feeder of pyrite billot, one for make cross section be circular contact vibration and the vibrating disk moved forward, one for being riveted to by the contact of conveying with the mold base on the switches conductive copper sheet of pyrite billot punching molding;

Described mold base includes a die shoe and a upper bolster, described upper bolster is driven by a lowering or hoisting gear and moves up and down and coordinate with described die shoe, described die shoe upper surface middle part is provided with two groups of symmetrical spaced limited blocks along its length, a slideway being used for described pyrite billot traverse is formed between limited block described in two, described die shoe from left to right offers two punchings being positioned at described slideway and being horizontally arranged at interval successively, be horizontally arranged at interval two first trimming holes, the two second trimming holes being horizontally arranged at interval, two chutes that parallel interval is arranged, it is respectively adjacent on the right side of chute described in two to arrange and for placing two first mounting grooves of contact, one first square opening, one second square opening and two sorting holes being horizontally arranged at interval,

Chute described in two is arranged along described die shoe width respectively, described chute be respectively arranged at two ends with one first escape groove and one second escape groove that run through described die shoe, a slide block it is slidably equipped with in described chute, be provided with one first guiding surface on the upside of described slide block one end, downside is provided with one second guiding surface, be provided with one the 3rd guiding surface on the upside of the described slide block other end, downside is provided with one the 4th guiding surface, and slide block side upper surface described in two offers one respectively for placing the second mounting groove of described contact; Being provided with a first square bent insert in described first square opening, described first side, bent insert upper end is provided with one first inclined-plane, is provided with one second bent insert in described second square opening, and described second side, bent insert upper end is provided with a first step;

Described die shoe is provided with one at guide rail between chute described in two along its width side, described guide rail offers two for carrying the guide groove of contact, guide groove one end described in two connects with the second mounting groove described in two respectively, the other end of guide groove described in two connects with described vibrating disk respectively, described mold base side is provided with one for making contact to the blowning installation of movement in described second mounting groove, and described blowing device blows afloat pipeline respectively through one and connects with described guide groove;

Described upper bolster is from left to right sequentially installed with two first drifts matched with punching described in two respectively, two first trimming punches matched with the first trimming hole described in two respectively, two second trimming punches matched with two second trimming holes respectively, it is positioned at slide block range of activity described in two and is located at above the second mounting groove described in two for the contact compressing the second mounting groove described in two for the first time two second drifts being riveted on described switches conductive copper sheet, it is positioned at above the first mounting groove described in two for the contact compressing the first mounting groove described in two for the second time two the 3rd drifts it being firmly riveted on described switches conductive copper sheet, up and down be arranged in correspondence two described in the first escape groove two after slotting tool enter son, up and down be arranged in correspondence two described in the second escape groove two before slotting tool enter son, it is positioned at one first bending above described first bent insert and is fixed into son, it is positioned at square second bending above described second bent insert and is fixed into son and two separate punches matched with sorting hole described in two respectively,

Punching described in two is formed for installing the rivet hole of described contact after coordinating with the first drift described in corresponding two respectively on described switches conductive copper sheet, the first trimming hole described in two coordinates with the first trimming punch described in corresponding two respectively after formation one is positioned at the groove in the middle part of described switches conductive copper sheet first half, the second trimming hole described in two forms described switches conductive copper sheet latter half after coordinating with the second trimming punch described in corresponding two respectively, sorting hole described in two forms described switches conductive copper sheet first half with after separate punches cooperation described in corresponding two respectively;

Described rear slotting tool enters son and enters a sub middle side part towards relative described front slotting tool and offer a groove, described groove lower end offers one the 5th guiding surface, described 5th guiding surface upper end is connected with described bottom portion of groove, described front slotting tool enters son and enters lower end, sub-side towards relative described rear slotting tool and offer a second step, described second step upper end offers one the 6th guiding surface, the lower end of described 6th guiding surface is connected with bottom described second step, described 5th guiding surface and described 6th guiding surface are oppositely arranged, described first bending is fixed into sub-lower end and is provided with second inclined-plane of one and described first slopes which match, described second bending is fixed into sub-side and is provided with a boss matched with described first step.

Specifically, the centrage of the 3rd drift described in the centrage and two of the second drift described in two is on same straight line.

Preferably, the angle between described first inclined-plane and horizontal plane is 45 ��.

Preferably, the angle between described second inclined-plane and horizontal plane is 45 ��.

Specifically, the cross section of described guide groove is inverted T shape.

Riveting equipment provided by the invention, its die-cut open the light conductive copper sheet latter half time, two the second trimming punch die-cut formation simultaneously are opened the light conductive copper sheet latter half, die-cut open the light conductive copper sheet first half time, two separate punches conductive copper sheet first half that simultaneously will open the light is separated from pyrite billot, two the second drifts compress contact respectively simultaneously and carry out thick riveted, and two the 3rd drifts compress contact respectively simultaneously and carry out essence riveted, and work efficiency is high; And it is die-cut and be riveted on switches conductive copper sheet by contact to complete switches conductive copper sheet in mold base, further increases work efficiency simultaneously, efficiency is the decades of times of traditional-handwork riveted joint, thus reducing labour cost; By feeder feeding security performance high, it is to avoid prior art occurs the phenomenon of industrial accident.

Accompanying drawing explanation

Fig. 1 is the schematic diagram of the riveting equipment that the embodiment of the present invention provides.

Fig. 2 is the schematic diagram of lower mold seat in the riveting equipment that the embodiment of the present invention provides.

Fig. 3 is the schematic diagram of mold seat in the riveting equipment that the embodiment of the present invention provides.

Fig. 4 is the process structure schematic diagram of the riveting equipment that the embodiment of the present invention provides.

Fig. 5 is the schematic diagram of slide block duty in the riveting equipment that the embodiment of the present invention provides.

Fig. 6 is the schematic diagram of slide block another kind duty in the riveting equipment that the embodiment of the present invention provides.

Fig. 7 is the schematic diagram of slide block in the riveting equipment that the embodiment of the present invention provides.

Fig. 8 is A place enlarged drawing in Fig. 6.

Fig. 9 is the schematic diagram that in the riveting equipment that the embodiment of the present invention provides, the first bent insert and the first bending are fixed into son.

Figure 10 is that in the riveting equipment that the embodiment of the present invention provides, the second bent insert and the second bending are fixed into son by the schematic diagram of 90 �� of bendings of switches conductive copper sheet.

Figure 11 be in the riveting equipment that the embodiment of the present invention provides separate punches by switches conductive copper sheet first half from the schematic diagram separated pyrite billot.

Figure 12 is the schematic diagram of the conductive copper sheet that opens the light of molding in the riveting equipment that the embodiment of the present invention provides.

Figure 13 is the schematic diagram of contact in the riveting equipment that the embodiment of the present invention provides.

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.

As shown in Figure 1, a kind of riveting equipment that the embodiment of the present invention provides, including one for carry the feeder 2, of pyrite billot 1 for make the contact 3 that cross section is circular vibrate and to move forward vibrating disk 4, for the contact 3 of conveying being riveted to the mold base 6 on the switches conductive copper sheet 5 of pyrite billot 1 punching molding.

As shown in Fig. 2 ~ Fig. 4, Figure 12 and Figure 13, described mold base 6 includes die shoe 7 and a upper bolster 8, upper bolster 8 is driven by a lowering or hoisting gear (not shown) and moves up and down and coordinate with die shoe 7, die shoe 7 upper surface middle part is provided with two groups of symmetrical spaced limited blocks 71 along its length, a slideway 72 being used for pyrite billot 1 traverse is formed between two limited blocks 71, limited block 71 plays the effect that pyrite billot 1 is spacing, it is to avoid the phenomenon that pyrite billot 1 both sides swing; Die shoe 7 from left to right offers successively and is positioned at slideway 72 and two punchings 73 being horizontally arranged at interval, two chutes 76 that the two first trimming holes 74 that are horizontally arranged at interval, the two second trimming holes 75 being horizontally arranged at interval, parallel interval are arranged, is respectively adjacent on the right side of two chutes 76 and arranges and for two first mounting groove 77,1 first square opening 78,1 second square openings 79 placing contact 3 and two sorting holes 710 being horizontally arranged at interval.

Such as Fig. 2, Fig. 7, Fig. 9 and Figure 10 and shown, chute 76 described in two is arranged along die shoe 7 width respectively, chute 76 be respectively arranged at two ends with one first escape groove 761 and one second escape groove 762 running through die shoe 7, a slide block 70 it is slidably equipped with in chute 76, be provided with one first guiding surface 701 on the upside of slide block 70 one end, downside is provided with one second guiding surface 702, be provided with one the 3rd guiding surface 703 on the upside of slide block 70 other end, downside is provided with one the 4th guiding surface 704, and two slide block 70 side upper surfaces offer one respectively for placing the second mounting groove 711 of contact 3; One the first square bent insert 712 is installed in first square opening 78, first side, bent insert 712 upper end is provided with one first inclined-plane 7121, being provided with one second bent insert 713 in second square opening 79, the second side, bent insert 713 upper end is provided with a first step 7131.

As shown in Figure 1, Figure 2 with shown in Fig. 8, described die shoe 7 is provided with a guide rail 9 between two chutes 76 along its width side, guide rail 9 offers two for carrying the guide groove 91 of contact 3, two guide groove 91 one end connect with two second mounting grooves 711 respectively, the other end of two guide grooves 91 connects with vibrating disk 4 respectively, mold base 6 side is provided with one for making contact 3 to the blowning installation (not shown) of movement in the second mounting groove 711, and blowing device blows afloat pipeline 10 respectively through one and connects with guide groove 91.

As shown in Figure 3 and Figure 4, described upper bolster 8 is from left to right sequentially installed with two first drifts 81 matched with two punchings 73 respectively, two first trimming punches 82 matched with two first trimming holes 74 respectively, two second trimming punches 83 matched with two second trimming holes 75 respectively, it is positioned at two slide block 70 range of activity and is located at above two second mounting grooves 711 for the contact 3 compressing two second mounting grooves 711 for the first time two second drifts 84 being riveted on switches conductive copper sheet 5, it is positioned at above two first mounting grooves 77 for the contact 3 compressing two first mounting grooves 77 for the second time two the 3rd drifts 85 it being firmly riveted on switches conductive copper sheet 5, after in up and down two first escape groove 761 being arranged in correspondence two, slotting tool enters son 86, before in up and down two second escape groove 762 being arranged in correspondence two, slotting tool enters son 87, it is positioned at square one first bending above the first bent insert 712 and is fixed into son 88, it is positioned at one second bending above the second bent insert 713 and is fixed into son 89 and two separate punches 810 matched with two sorting holes 710 respectively.

Such as Fig. 2 ~ Fig. 4, shown in Figure 11 and Figure 12, two punchings 73 form the rivet hole 11 for installing contact 3 after coordinating with two first corresponding drifts 81 respectively on switches conductive copper sheet 5, after two first trimming holes 74 coordinate with two first corresponding trimming punches 82 respectively, formation one is positioned at the groove 53 in the middle part of switches conductive copper sheet 5 first half 52, two second trimming holes 75 form switches conductive copper sheet 5 latter half 51 after coordinating with two second corresponding trimming punches 83 respectively, two sorting holes 710 form switches conductive copper sheet 5 first half 52 after coordinating with two corresponding separate punches 810 respectively,

As shown in Figure 5 and Figure 6, described rear slotting tool enter son 86 towards relative front slotting tool enter son 87 1 middle side parts offer a groove 861, groove 861 lower end offers one the 5th guiding surface 862, 5th guiding surface 862 upper end is connected with bottom groove 861, front slotting tool enters son 87 and enters sub 86 lower ends, side towards relative rear slotting tool and offer a second step 871, second step 871 upper end offers one the 6th guiding surface 872, the lower end of the 6th guiding surface 872 is connected with bottom second step 871, 5th guiding surface 862 and the 6th guiding surface 872 are oppositely arranged, first bending is fixed into sub 88 lower ends and is provided with one and first the second inclined-plane 881 that match, inclined-plane 7121, first inclined-plane 7121 is used for the first time bending of switches conductive copper sheet 5 latter half 51 after coordinating with the second inclined-plane 881, second bending is fixed into sub 89 sides and is installed with a boss 891 matched with first step 7131, first step 7131 and boss 891 match after for by the second time bending of switches conductive copper sheet 5 latter half 51, switches conductive copper sheet 5 latter half 51 bending at twice can make switches conductive copper sheet 5 latter half 51 uniform force, avoid the phenomenon that 51 bendings of switches conductive copper sheet 5 latter half are ruptured to 90 ��.

Specifically, the centrage of the 3rd drift 85 described in the centrage and two of the second drift 84 described in two is on same straight line.

As shown in Figure 9 and Figure 10, it is preferable that the angle between described first inclined-plane 7121 and horizontal plane is 45 ��, and the angle between the second inclined-plane 881 and horizontal plane is 45 ��, switches conductive copper sheet 5 latter half 51 uniformly bending at twice is made.

As shown in figure 13, specifically, the cross section of described guide groove 91 is inverted T shape, and the contact 3 that cross section can be T-shaped by inverted T shape guide groove 91 is spacing, it is to avoid due to contact 3 phenomenon that stress upwards arches upward in the process moved forward.

The operation principle of the present invention is: first, feeder 2 send in mold base 6 by pyrite billot 1; Then, lowering or hoisting gear drives mold 8 to move down, the circular hole 11 for installing contact 3 gone out by two first drifts 81 on pyrite billot 1 simultaneously, the groove 53 on switches conductive copper sheet 5 first half 52 gone out by two first trimming punches 82 on pyrite billot 1 simultaneously, and two second trimming punches 83 are die-cut formation switches conductive copper sheet 5 latter half 51 simultaneously; Meanwhile, vibrating disk 4 vibrates in the guide groove 91 vibrating on guide rail 9 respectively by the contact 3 placed in vibrating disk 4; Followed by, gassing pipe 10 blow and make in the second mounting groove 711 that contact 3 moves on slide block 70;

Followed by, lowering or hoisting gear drives mold 8 to move up, rear slotting tool enters son 86 and front slotting tool enters son 87 and moves up, 5th guiding surface 862 compresses second guiding surface 702 of slide block 70 one end makes second step 871 place that slide block 70 slotting tool forward enters son 87 move, when after slotting tool enter son 86 towards front slotting tool enter son 87 lower end, side abut with slide block 70 one end, the other end of slide block 70 enters bottom the second step 871 of son 87 when abutting with front slotting tool, slide block 70 stops mobile, now, second mounting groove 711 is docked and connected with guide groove 91, contact 3 in guide groove 91 is moved quickly in the second mounting groove 711 by the thrust of gas in gassing pipe 10,

Lowering or hoisting gear drives mold 8 to move down, rear slotting tool enters son 86 and front slotting tool enters son 87 and moves down, front slotting tool enters the 6th guiding surface 872 of son 87 and compresses the 3rd guiding surface 703 of slide block 70 to make slide block 70 slotting tool backward enter in the groove 861 of son 86 mobile, current slotting tool enter son 87 towards rear slotting tool enter son 86 upper end, side abut with slide block 70 one end, the other end of slide block 70 enters bottom the groove 861 of son 87 when abutting with rear slotting tool, slide block 70 stops mobile, now, the contact 3 placed in second mounting groove 711 is placed exactly in circular hole 11 also to be located at the lower section of the second drift 84 simultaneously, meanwhile the second drift 84 moves down punching press contact 3, the outer deformation of contact 3 is big, namely achieve and contact 3 is riveted to switches conductive copper sheet 5, followed by, feeder 2 is feeding forward successively, the 3rd drift 85 compress and carry out essence riveted, compress contact 3 for twice, it is possible to make contact 3 uniform stressed, completes the contact 3 riveted work of qualified products,

Followed by, feeder 2 is feeding forward successively again, it is fixed into the second inclined-plane 881 of son 88 by the first inclined-plane 7121 of the first bent insert 712 and the first bending to cooperate and compress latter half 51 first time making switches conductive copper sheet 5 and pre-bend, then puts switches conductive copper sheet 5 latter half 51 second time bending and molding in place (namely completing in the 51 90 degree of bendings of switches conductive copper sheet 5 latter half) after being matched by first step 7131 and boss 891;

Finally, the first half 52 of switches conductive copper sheet 5 is delivered to below separate punches 810 by feeder 2 successively, lowering or hoisting gear drives mold 8 to move down, separate punches 810 moves down, can by the first half 52 of switches conductive copper sheet 5 from sorting hole 710 die-cut out, make switches conductive copper sheet 5 separate with pyrite billot 1, complete the high speed stamping of switches conductive copper sheet 5 with this and contact 3 be riveted on switches conductive copper sheet 5 simultaneously.

Riveting equipment provided by the invention, its die-cut open the light conductive copper sheet 5 latter half 51 time, two the second trimming punch 83 die-cut formation simultaneously are opened the light conductive copper sheet latter half, die-cut open the light conductive copper sheet 5 first half 52 time, two separate punches 810 conductive copper sheet 5 first half 52 that simultaneously will open the light is separated from pyrite billot 1, two the second drifts 84 compress contact 3 respectively simultaneously and carry out thick riveted, two the 3rd drifts 85 compress contact 3 respectively simultaneously and carry out essence riveted, and work efficiency is high; And it is die-cut and be riveted on switches conductive copper sheet 5 by contact 3 to complete switches conductive copper sheet 5 in mold base 6, further increases work efficiency simultaneously, efficiency is the decades of times of traditional-handwork riveted joint, thus reducing labour cost; By feeder 2 feeding security performance high, it is to avoid prior art occurs the phenomenon of industrial accident.

The above is the preferred embodiment of the present invention; it should be pointed out that, for those skilled in the art, under the premise without departing from the principles of the invention; can also making some improvements and modifications, these improvements and modifications are also considered as protection scope of the present invention.

Claims

1. a riveting equipment, it is characterized in that, including one for carrying the feeder of pyrite billot, one for make cross section be circular contact vibration and the vibrating disk moved forward, one for the contact of conveying being riveted to the mold base on the switches conductive copper sheet of pyrite billot punching molding;

Punching described in two coordinate with the first drift described in corresponding two respectively die-cut after formed for installing the rivet hole of described contact on described switches conductive copper sheet, first trimming hole described in two coordinates die-cut rear formation one to be positioned at the groove in the middle part of described switches conductive copper sheet first half respectively with the first trimming punch described in corresponding two, second trimming hole described in two coordinates the described switches conductive copper sheet latter half of die-cut rear formation with the second trimming punch described in corresponding two respectively, sorting hole described in two coordinates the described switches conductive copper sheet first half of die-cut rear formation respectively with separate punches described in corresponding two,

2. riveting equipment according to claim 1, it is characterised in that described in the centrage and two of the second drift described in two, the centrage of the 3rd drift is on same straight line.

3. riveting equipment according to claim 1, it is characterised in that the angle between described first inclined-plane and horizontal plane is 45 ��.

4. riveting equipment according to claim 1, it is characterised in that the angle between described second inclined-plane and horizontal plane is 45 ��.

5. riveting equipment according to claim 1, it is characterised in that the cross section of described guide groove is inverted T shape.