CN110310822A - A kind of integer type device for inductance production - Google Patents

Abstract

The present invention provides a kind of integer type devices for inductance production, comprising: integer platform；Two first bending platforms, the two first bending platforms symmetrically are arranged on integer platform, the first bending table top being supported to the conductive contact to the inductance before bending is formed on two first bending platforms, the distance of two first bending table tops is equal to or slightly greater than the distance between the two sides for being provided with conductive contact of inductance ontology, and two first bending table tops are located in same level；Two first bending idler wheels, positioned at the surface of corresponding first bending table top, and the minimum clearance between the first bending idler wheel is equal to or slightly greater than the sum of twice of the distance of the two sides for being provided with conductive contact of inductance ontology and the thickness of conductive contact；Bending arm, can be up or down between two first bending table tops, and folded block can selectively from stretching between two first bending table tops or retract.The integer type device can be realized the automatic integer to inductance, high production efficiency, good product quality.

Description

A kind of integer type device for inductance production

Technical field

The present invention relates to the production field of inductance more particularly to a kind of integer type devices for inductance production.

Background technique

Inductance includes inductance ontology and conductive contact, is electrically connected by conductive contact with external circuit, to realize needs Function, inductance ontology can not be electrically connected with the external world.In order to avoid inductance ontology is electrically connected with the external world, need to inductance ontology Insulated paint is sprayed on surface, but in spray painting, and paint cannot be sprayed on conductive contact in order to avoid influence the normal work of conductive contact, This just needs to cover conductive contact in spray painting.

Since inductance itself is smaller, and when producing inductance, there are many inductance quantity of batch production each time, if adopted With conductive contact is covered manually, time-consuming and laborious, at high cost, low efficiency, and it is difficult to ensure that covering effect.

And it needs to carry out multiple bending in inductance production, if one side inductance very little is difficult to grasp using artificial Make, another aspect production efficiency can be very low, it is also difficult to guarantee the quality of production.

Summary of the invention

The main purpose of the present invention is to provide a kind of integer type devices for inductance production, will after spray painting is completed Single inductance is placed on the bending and further integer that can be realized on integer type device to the conductive contact of inductance.

To achieve the above objectives, the technical solution adopted by the present invention are as follows: a kind of integer type device for inductance production, it is special Sign is, comprising:

Integer platform；

Two first bending platforms, the two first bending platforms symmetrically are arranged on integer platform, in two first bending platforms On be formed with the first bending table top being supported to the conductive contact to the inductance before bending, two first bending table tops away from The distance between the two sides for being provided with conductive contact from equal to or slightly greater than inductance ontology, two first bending table tops are located at same On one horizontal plane；

Two first bending idler wheels, positioned at the surface of corresponding first bending table top, and between the first bending idler wheel Minimum clearance is equal to or slightly greater than the distance of the two sides for being provided with conductive contact of inductance ontology and the thickness of conductive contact The sum of twice；

Bending arm, can be up or down between two first bending table tops, and folded block can be selectively from two It stretches out or retracts between one bending table top.

Preferably, further include gib block, be arranged on the reforming station, the vertical plane where the gib block and two first The plane of symmetry of bending platform is coplanar, and the height of the upper surface of the gib block is higher than the height of the first bending idler wheel highest point, described When bending arm is moved upwards up to highest position, the height of upper surface is equal to or slightly above the height of gib block.

Preferably, the cutting station being provided on gib block to cut off conductive contact, in the cutting work The two sides of position are provided with the cutting off tool that can be moved towards, and the height of the blade of the cutting off tool is by the conduction that needs to retain The length of contact determines that the width of the gib block at the cutting station is equal to or slightly less than being provided with for conductive body and leads The distance of the two sides of electrical contact.

Preferably, it is additionally provided with the second bending station on the gib block, is provided in the two sides of the bending station The second folded block that can be moved towards, one end of the close gib block of second folded block are provided with the second crimping roller, institute State the top of the second crimping roller height be lower than be located at the second bending station at inductance ontology lower surface height, it is described Width of the gib block at the second bending station is equal to or slightly less than two conductive contacts after second of bending of conductive contact The distance of free end.

Preferably, micro- whole station is provided on the gib block, being provided in the two sides of micro- whole station being capable of phase To mobile micro- monolith, width of the gib block at micro- whole station is equal to the width at the second bending station.

Preferably, along the feedstock direction from the first bending platform to gib block, the first bending platform, cutting station, the Two bending stations and micro- whole station are set gradually, and the cutting off tool, the second folded block and micro- monolith are located at same shaping On plate, and adjacent distance phase between the two in the first bending platform, cutting station, the second bending station and micro- whole station Together.

It preferably, further include Material moving device to move inductance along the feedstock direction, the Material moving device packet The driving plate that can be moved in the plane of symmetry is included, there are four driver slot, adjacent drives for setting in the bottom of the driving plate The distance of dynamic slot is equal to cutting the distance between station and the second bending station.

Preferably, each driver slot is equal to the edge for the inductance ontology for needing to move every time along the size of the feedstock direction The sum of the size on the feedstock direction.

It preferably, further include composing mechanism, the composing mechanism includes removable along the direction perpendicular to the gib block Dynamic typesetting rewinding plate, setting is parallel to multiple rows of typesetting slot of the length direction of the gib block, institute on typesetting rewinding plate The open at one end of the close gib block of typesetting slot, other end closing are stated, multiple rows of typesetting slot successively receives come since micro- whole station is sent Inductance out.

Compared with prior art, the invention has the following advantages:

The device can carry out integer to inductance, and the bending of the conductive contact including inductance is cut with micro- whole etc., Duo Gegong Skill carries out simultaneously, improves production efficiency, saves manpower, reduces production cost.

Detailed description of the invention

Fig. 1 and 2 is the perspective view of the embodiment of the present invention one；

Fig. 3 and 4 is the structure chart of the rewinding case assembly of the embodiment of the present invention one；

Fig. 5 is the structure chart of the lifting body of the embodiment of the present invention one；

Fig. 6 and 7 is the structure chart of the material fetching mechanism of the embodiment of the present invention one；

Fig. 8-10 is the structure chart of the feed mechanism of the embodiment of the present invention one；

Figure 11-15 is the structure chart of the cutting mechanism of the embodiment of the present invention one；

Figure 16 is the structure chart of the first Zhi Zhen mechanism of the embodiment of the present invention one；

Figure 17-19 is the encapsulated structure chart with module of the embodiment of the present invention one；

Figure 20-21 is the structure chart of the adhesive tape cutting mechanism of the embodiment of the present invention one；

Figure 22 is the structure chart of the adhesive tape pulling mechanism of the embodiment of the present invention one；

Figure 23-24 is the structure chart of the cutting agency of the embodiment of the present invention one；

Figure 25 is the structure chart of inductance group before cutting；

Figure 26 is the structure chart for cutting rear inductance group；

Figure 27 and 28 is the structure chart of the adhesive tape inductance group after encapsulated band；

Figure 29 and 30 is the structure chart of tear tape mechanism and shaping mechanism；

Figure 31-33 is the structure chart of the discharge mechanism of the embodiment of the present invention two；

Figure 34-36 is the structure chart of the material pulling mechanism of the embodiment of the present invention two；

Figure 37 is the structure chart of the Si Liao mechanism of the embodiment of the present invention two；

Figure 38-44 is the structure chart of the shaping mechanism of the embodiment of the present invention three；

Figure 45-46 is the structure chart of the composing mechanism of the embodiment of the present invention three；

Figure 47 is the induction structure figure of first time bending；

Figure 48 be turned off after induction structure figure；

Figure 49 is the induction structure figure after second of bending.

Specific embodiment

It is described below for disclosing the present invention so that those skilled in the art can be realized the present invention.It is excellent in being described below Embodiment is selected to be only used as illustrating, it may occur to persons skilled in the art that other obvious modifications.

Embodiment one

The embodiment is for describing adhesive tape wrapping device.

As shown in figures 1-28, the adhesive tape wrapping device include second support 102 and be supported in second support 102 to The encapsulated band module 160 that the two sides up and down of the conductive contact 122 of workpiece 12 (inductance to encapsulated band) are covered.

Specifically, it is described it is encapsulated with module 160 include the first U-shaped support base for being supported in second support 102 161, two fixed disks 162 that are pivotally supported on the first support base 161 by rotary shaft 168 and it is clamped in two fixed disks Fluted disc 163 between 162 is equably provided with multiple teeth 164, circumferentially, phase on the periphery of the fluted disc 163 It is formed with tooth socket 1641 between adjacent tooth 164, the tooth socket 1641 is equal to or slightly greater than along the size of the circumferencial direction The distance between the two vertical sides of the not set conductive contact 122 of the two of inductance ontology 121, the distance between two fixed disks 162 etc. In or slightly larger than inductance ontology 121 two the distance between the sides for being provided with conductive contact 122, in this way can will be to encapsulated Inductance 12 be placed in tooth socket 1641, two conductive contacts 122 are respectively supported in corresponding fixed disk 162.The rotary shaft 168 are sequentially connected with the first motor 1624 being arranged on the first support base 161.

The encapsulated band module 160 further includes the first adhesive tape fixing seat 165 and the second adhesive tape fixing seat 166, along workpiece 12 moving direction, the second adhesive tape fixing seat 166 are removably secured to the front side of the first support base 161, and described first Adhesive tape fixing seat 165 is removably secured to the rear side of the first support base 161, and the height of the second adhesive tape fixing seat 166 is low In the height of the first adhesive tape fixing seat 165.The adhesive tapes of volume two are provided in each adhesive tape fixing seat, in each adhesive tape fixing seat The adhesive tapes of volume two are arranged along the axis direction of adhesive tape fixing seat, and are observed along the moving direction of workpiece 12, each fixing seat On the adhesive tapes of volume two be located at the two sides of fluted disc 163 and close to fluted disc 163.Adhesive tape in second adhesive tape fixing seat 166 enters Part on to fixed disk 162 with sticking side upward, the adhesive tape in the first adhesive tape fixing seat 165 enters fixed disk Part on 162 with sticking side downward, in this way, the conductive contact of the two sides for the inductance 12 being placed in tooth socket 1641 122 two sides up and down are glued adhesive tape.

Since the tape-stripping in the second adhesive tape fixing seat 166 is in the downside of conductive contact 122, it then becomes necessary in electricity Sense 12 is put into the adhesive tape gluing in the second adhesive tape fixing seat 166 before tooth socket 1641 on the surface of fixed disk 162, for this purpose, It is rotatably provided two second directive wheels 1615 between the second adhesive tape fixing seat 166 and the second adhesive tape fixing seat 166, two Two directive wheels 1615 are corresponded with two fixed disks 162 respectively, while two second directive wheels 1615 are radially close to corresponding Fixed disk 162 and it is lower than upper discharge position of the inductance 12 on fluted disc 163, in this way, when inductance 12 is placed on tooth socket 1641, Adhesive tape in second adhesive tape fixing seat 166 has been fitted in the surface of fixed disk 162.Meanwhile in two second directive wheels 1615 One end close to each other is provided with guiding annular groove, and the adhesive tape is wound on guiding annular groove, the width of the guiding annular groove be equal to or Person is slightly larger than the width of adhesive tape, can guarantee position of the adhesive tape in fixed disk 162, and then in this way to guarantee adhesive tape as much as possible Conductive contact 122 can be touched completely in the longitudinal direction, conductive contact 122 is avoided to expose as far as possible.The upper discharge position is Position when inductance 12 is placed to for the first time in tooth socket 1641, where the tooth socket 1641.

Further, two first are rotatably provided between the second directive wheel 1615 and the second adhesive tape fixing seat 166 to lead To wheel 1614, two first directive wheels 1614 and two second directive wheels 1615 one-to-one correspondence, and the first directive wheel 1614 compared to Second directive wheel 1615 farther away from the rotation axis for passing through fixed disk 162 vertical plane, in the second adhesive tape fixing seat 166 Adhesive tape be wound on first directive wheel 1614 far from the vertical plane side, can guarantee adhesive tape as much as possible in this way It is wound on the second directive wheel 1615.

Further, the upside due to the adhesive tape in the first adhesive tape fixing seat 165 to be pasted onto conductive contact 122, It has to the tape-stripping in first adhesive tape fixing seat 165 could be touched in conduction after inductance 12 is placed on tooth socket 1641 On first 122, for this purpose, being rotatably provided two the 4th directive wheels between the fixed disk 162 and the first adhesive tape fixing seat 165 1617, the 4th directive wheel 1617 is located at the rear of the upper discharge position, i.e., must feeding completion after could be by first For tape-stripping in adhesive tape fixing seat 165 on conductive contact 122, the adhesive tape in the first adhesive tape fixing seat 165 is wound on The side close to upper discharge position of four directive wheels 1617, and adhesive tape in the first adhesive tape fixing seat 165 and fixed disk 162 are right The side of the viscosity for the part answered is downward.Two the 4th directive wheels 1617 are corresponded with two fixed disks 162, and two the 4th lead To wheel 1617 radially close to corresponding fixed disk 162.The structure of two the 4th directive wheels 1617 and act on the second directive wheel 1615 is identical, and and will not be described here in detail.When workpiece 12 is by four directive wheels 1617, in the first adhesive tape fixing seat 165 Adhesive tape is sticked to the upper surface of conductive contact 122.

Further, two thirds are rotatably provided between the first adhesive tape fixing seat 165 and the 4th directive wheel 1617 to lead To wheel 1616, two third directive wheels 1616 are corresponded with two the 4th directive wheels 1617 respectively, and when overlook view, the third is led It is located between the axis of the 4th directive wheel 1617 and the axis of the first adhesive tape fixing seat 165 to the axis of wheel 1616, described first Adhesive tape in adhesive tape fixing seat 165 is wound on the side away from the 4th directive wheel 1617 of third directive wheel 1616, is led by third The contact area of adhesive tape and the 4th directive wheel 1617 is capable of increasing to wheel 1616.

The encapsulated band module 160 further includes two adhesive tape contact rollers 167, two adhesive tape contact rollers 167 respectively be pasted onto electricity Feel 121 two sides of ontology conductive contact 122 on adhesive tape correspond, when in use, two adhesive tape contact rollers 167 with it is corresponding solid The distance between price fixing 162 is equal to or slightly greater than the thickness of conductive contact 122, adhesive tape can be made closely to paste in this way On conductive contact 122 or on corresponding adhesive tape.Preferably, the width of the adhesive tape is greater than the length of conductive contact 122, Adhesive tape is in addition to being pasted on conductive contact 122, additionally it is possible to be pasted on mutual corresponding adhesive tape, especially in conductive contact 122 Length direction outside above and below two adhesive tapes mutually paste.Certainly, two adhesive tape contact rollers 167 can also be integrally formed, right Answer setting annular groove at the position of the fluted disc 163.

Specifically, the contact roller 167 is pivotally supported in contact roller braced frame 1620, the contact roller support Frame 1620 is supported on the first support base 161 by contact roller support plate 1619, and the contact roller braced frame 1620 can Moved along the radial direction of fixed disk 162, when being debugged or being broken down in this way, can by contact roller 167 to The direction far from fixed disk 162 it is mobile, no longer compress.Further, it is arranged in contact roller braced frame 1620 and is parallel to The pull lever 1622 of the moving direction of contact roller 167, the pull lever 1622 are movably supported at pressure along its length direction In bearing up pulley support plate 1619, also, guiding is provided in contact roller braced frame 1620 and positioned at the two sides of pull lever 1622 Bar 1621, the guide rod 1621 is parallel with pull lever 1622 and movably passes through in contact roller support plate 1619, guiding Bar 1621 can guarantee stability of the pull lever 1622 when driving contact roller 167 to move back and forth.It is pulling for operating easily, One end of the separate contact roller braced frame 1620 of bar 1622 is provided with handle 1623, in connecting with pull lever 1622 for handle 1623 The one end connect is provided with disk, and the disk and pull lever 1622 are eccentric hinged, and the circumferential surface of the disk is resisted against contact roller branch It the side away from contact roller 167 of fagging 1619, being capable of band due to eccentric design in this way when operation handle 1623 is rotated Dynamic pull lever 1622 moves back and forth, and then contact roller 167 can be driven to move back and forth.

The adhesive tape wrapping device further includes cutting mechanism 140.In actual production, the initial product for the inductance produced For inductance group 11, inductance group 11 includes multiple inductance 12, and the end of the conductive contact 122 of these inductance 12 is connected with each other, is formed One frame is convenient for the production of early period in this way.But in encapsulated band, inductance 12 must be transported one by one, therefore, Before encapsulated band, it is necessary to cut connected frame.

The cutting mechanism 140 include be supported in first support 101 cut pedestal 141, by column 142 can be upper and lower It is movably supported at the cutter 149 cut on pedestal 141, the cutter 149 can cut off a part of conductive contact 122. Specifically, the upper surface for cutting pedestal 141 is provided with the lower locating piece 147 with certain length, the lower locating piece 147 top has the lower U-type groove 1412 that extends along its length direction, the lower U-type groove 1412 upwardly opening and two End opening, when cutting, the inductance ontology 121 in inductance group 11 is placed on the opening of lower U-type groove 1412, inductance ontology 121 The conductive contacts 122 of two sides be supported on the two sides of lower U-type groove 1412.Meanwhile in order to prevent inductance ontology 121 along lower U Type groove 1412 is stuck in lower U-type groove 1412 when mobile, and the width of the lower U-type groove 1412 is slightly larger than inductance ontology 121 Along the size of the length direction of conductive contact 122.

The cutter 149 is supported on column 142 by cutter mounting plate 143, and cutter mounting plate 143 is relative to vertical Column 142 can move up and down, and then realizes to cut up to 149 and move up and down.

There are two the cutter 149 tools, two cutters 149 in parallel with lower locating piece 147, and between two cutters 149 Distance be equal to lower 147 top of locating piece width, the one side wall of the inner sidewall of one of cutter 149 and lower locating piece 147 Alignment, the inner sidewall of another cutter 149 are aligned with another side wall of lower locating piece 147, and the cutter 149 is along its length Both ends be aligned with the both ends of lower locating piece 147, when cutter 149 be moved down into lower locating piece 147 cooperate when can will lead The others of electrical contact 122 and inductance group 11 are located at the partial cut of 149 lower section of cutter.

In order to avoid when cutter 149 cuts off conductive contact 122, movement by a relatively large margin occurs for the inductance 12 after cutting very To falling from lower locating piece 147, upper locating piece 148, upper 148 energy of locating piece are provided between two cutters 149 Enough move up and down and not when the contact of lower locating piece 147, a part of upper locating piece 148 between two cutters 149 downwards It stretches out, also, is provided with downward opening upper U-type groove 1413 on upper locating piece 148, the both ends of the upper U-type groove 1413 are opened Mouthful, and the width of the upper U-type groove is equal to or slightly greater than the width of lower U-type groove 1413, under the two sidewalls of upper U-type groove End face is provided with multiple notches 1411, and the quantity of the notch 1411 is more than or equal to the conductive contact 122 of respective side Quantity, the distance between adjacent described notch 1411 of the same side are equal between the adjacent conductive contact 122 of the same side Distance, each notch 1411 are equal to or slightly greater than the width of conductive contact 122 along the size of upper 148 length direction of locating piece Degree, can guarantee that each conductive contact 122 can easily limit in notch 1411 in this way.

When cutter mounting plate 143 moves down, upper locating piece 148 is moved down into certain distance and lower locating piece 147 Contact, upper locating piece 148 no longer moves at this time, and cutter 149 is further continued for cutting conductive contact 122 after moving down certain distance It is disconnected.When upper locating piece 148 is resisted against on lower locating piece 147, a part of inductance ontology 121 is located in upper U-type groove, conduction touching First 122 are located in corresponding notch 1411.Meanwhile when upper locating piece 148 is resisted against on lower locating piece 147, the upper U-type groove Depth be limited to U-type groove bottom height be equal to or slightly above inductance ontology 121 upper surface, the notch 1411 Depth be equal to or slightly greater than the thickness of conductive contact 122, can guarantee that inductance ontology 121 and conductive contact 122 are most in this way It may steadily be limited.

Further, in order to facilitate the fixation of cutter 149, the cutter fixed plate 143 lower surface and be located at two cutters Between be provided with connecting plate 1410, the upper end of connecting plate 1410 is fixed in cutter fixed plate 143, and cutter 149 is solid by screw It is scheduled on the side of connecting plate 1410.The upper locating piece 148 can be suspended on the lower section of connecting plate 1410 by spring, and Guiding mechanism can also be set between upper locating piece 148 and cutter 149, preferably mutually matched sliding rail and sliding slot.

The adhesive tape wrapping device further includes being transported to encapsulated band module to the inductance 12 after cutting cutting mechanism 140 The first Zhi Zhen mechanism 150 on 160, first Zhi Zhen mechanism 150 include be supported in first support 101 mounting base 151, It the straight vibration device (also referred to as straight line feeder) 152 that is mounted in mounting base 151 and is mounted on straight on the output end of straight vibration device 152 Shake track 153, and the upper surface of the straight vibration track 153 is provided with the guide groove 154 extended along its length, the guide groove 154 directly vibration track 153 length direction through straight vibration track 153.The width of the guide groove 154 is equal to the width of lower U-type groove Degree, and the two sidewalls of guide groove 15 are aligned with the two sidewalls of lower U-type groove, the height of the upper surface of the straight vibration guideway 153 It is equal to or the height of the upper surface of slightly below lower locating piece 147, in such manner, it is possible to make inductance 12 easily by from lower locating piece 147 shift on straight vibration track 153.After inductance 12 is pulled on straight vibration track 153, a part of inductance ontology 121, which is located at, to be led Into slot 154, the conductive contact 122 of two sides is supported on the side wall of corresponding guide groove 154, while the depth of guide groove 154 Need to guarantee that inductance ontology 121 will not be contacted with the bottom of guide groove 154.When directly vibration device 152 works, can drive positioned at it On inductance 12 from straight vibration track 153 one end it is mobile towards the other end.The straight vibration device uses the prior art, can specifically adopt With Dongguan Shuan Ye mechanical equipment Co., Ltd produce model XL_01 straight line feeder, it is of course also possible to use existing skill The straight vibration device of other models in art.

In order to receive the inductance 12 sent by the first Zhi Zhen mechanism 150, the encapsulated band module 160 further includes splicing group Part, the splicing component include the splicing plate 169 being supported on the first support base 161, and the splicing plate 169 is located at the first support The side close to the second adhesive tape fixing seat 166 of seat 161, the height of the splicing plate 169 is equal to or slightly below straight vibration track One end of 153 height, the straight vibration track 153 is resisted against on splicing plate 169, and be formed on splicing plate 169 along It is parallel to the splicing groove 1690 of the direction setting of the extending direction of guide groove 154, the splicing groove 1690 is to receive by first The two sidewalls of the inductance 12 that Zhi Zhen mechanism 150 is sent, the splicing groove 1690 are aligned with the two sidewalls of guide groove 154, and are connect The height of the bottom of hopper 1690 is equal to or the height of the bottom of slightly below guide groove 154, to guarantee the electricity on guide groove 154 Sense 12 can smoothly enter splicing groove 1690.

Can move in the perpendicular perpendicular to rotary shaft 168 is provided on first support base 161 The inductance 12 being located in splicing groove 1690 can be picked up and be moved to the feeding by one suction nozzle 1610, first suction nozzle 1610 Position is being moved to inductance 12 in the tooth socket 1641 of upper discharge position.Specifically, it is arranged on first support base 161 There are the first translation plates 1613 that can be moved in the perpendicular and along horizontal direction, in first translation plates 1613 On be provided with the first vertically movable vertical plate 1611, first suction nozzle 1610 be fixed in the first vertical plate 1611 and The absorption end of first suction nozzle 1610 is downward.When inductance 12 in place when, the first vertical plate 1611 moves down a distance, and first inhales The absorption end of mouth 1610 is contacted with inductance ontology 121, and getter devices air-breathing, first suction nozzle 1610 such as control air pump can be by inductance Ontology 121 picks up, and the first vertical plate 1611 moves upwards, then the first translation plates 1613 be moved horizontally to discharge position just on Side, after the first vertical plate 1611 moves downward a distance, picks up device and stops working, inductance 12 is fallen in upper discharge position In tooth socket 1641, the first suction nozzle 1610 is returned.

Specifically, the first lifting cylinder 1612, first lifting cylinder are provided in first translation plates 1613 1612 elevating lever is arranged downward and lower end is connect with the first vertical plate 1611, can be realized by the first lifting cylinder 1612 The lifting of first suction nozzle 1610.The first flat-removing air cyclinder 1614, the first translation gas are provided on first support base 161 Cylinder 1614 is horizontally set in the perpendicular, and the cylinder rod of first flat-removing air cyclinder 1614 and the first translation plates 1613 connect It connects, can be realized moving horizontally for the first translation plates 1613 by the first flat-removing air cyclinder 1614 can be realized the first suction nozzle 1610 move horizontally.

Preferably, the splicing groove 1690 is away from the closed at one end of straight vibration track 153, when inductance 12 is moved to splicing groove The first suction nozzle 1610 is moved down and is sucked when 1690 closed one end.Preferably, it is provided on the splicing plate 169 Photoelectric sensor 1618, the infrared emission end and infrared receiver end of the photoelectric sensor 1618 are separately positioned on splicing groove 1690 Two sides and the position of corresponding inductance 12 closed section that is located at splicing groove 1690 at, the photoelectric sensor 1618 and controller It is connected, when controller detects inductance 12 in place by photoelectric sensor 1618, the first lifting cylinder 1612 of controller control, First flat-removing air cyclinder 1610 is mobile being moved to inductance 12 from splicing groove 1690 in upper material position according to preset movement In the tooth socket 1641 set.1618 model LTT-O3N0 of photoelectric sensor, the model Cortex_A73 of controller, certainly Photoelectric sensor 1618 and controller can also use other models in the prior art.

The adhesive tape wrapping device further includes the drawing sealing-tape machine to pull the encapsulated adhesive tape inductance group generated with module 160 Structure 180, the adhesive tape pulling mechanism 180 be arranged in second support 102 relative to encapsulated band module 160 and the first Zhi Zhen mechanism 150 opposite sides.Structural reference Figure 27-28 of the adhesive tape inductance group.

The adhesive tape pulling mechanism 180 includes the straight line mould group 182 being supported in second support 102 by support plate 181, sets It sets the first clamping cylinder 183 on the sliding block of straight line mould group 182 and is arranged on the output end of the first clamping cylinder 183 Two first clamping jaws 184, two first clamping jaws 184 are opposite in the vertical direction or away from movement, and 182 level of straight line mould group is set Set and its length direction perpendicular to rotary shaft 168 axis.First clamping jaw 184 is in straight line mould group 182 close to encapsulated band mould The free end of adhesive tape inductance group is clamped in one end of block 160, and then straight line mould group 182 pulls adhesive tape inductance group away from encapsulated The mobile separate encapsulated one end with module 160 that straight line mould group 182 is moved to until the first clamping jaw 184 in direction with module 160 The first clamping jaw 184 unclamps afterwards, comes back to close encapsulated one end with module 160 of straight line mould group 182.

Adhesive tape cutting mechanism 170 is provided between the adhesive tape pulling mechanism 180 and encapsulated band module 160.By encapsulated The adhesive tape inductance group generated with module 160 is continuous banded structure, being capable of drawing repeatedly for the ease of adhesive tape cutting mechanism 170 Dynamic adhesive tape inductance group, needs for adhesive tape inductance group to be cut into sectional.

The adhesive tape cutting mechanism 170 includes the cutting support base 171 being supported in second support 102, by vertical plate 176 The cutting off tool 178 being supported on cutting support base 171, the vertical plate 176 is vertically arranged and is parallel to the rotary shaft 168 The side of the close adhesive tape pulling mechanism 180 of vertical plate 178 is arranged in axis, the cutting off tool 178, in the cutting off tool 178 Lower section be arranged to be supported on the cutting table 179 on cutting support base 171, pass through cutting off tool 178 and cutting table 179 cooperate energy Enough by the adhesive tape cutting in adhesive tape inductance group.In actual production, the free end that the first clamping jaw 184 hauls adhesive tape inductance group is moved Dynamic, when the first clamping jaw 184 will reach the end of straight line mould group 182, cutting off tool 178, which moves down, cuts adhesive tape inductance group It is disconnected.

Preferably, the side of the close adhesive tape pulling mechanism 180 of vertical plate 178 is provided with cutting cylinder 177, the cutting gas Downward, cutting off tool 178 is fixed on the lower end of the cylinder rod of cutting cylinder 177 to the cylinder rod of cylinder 177.

In order to guarantee that the first clamping jaw 184 can clamp the end of adhesive tape inductance group, first clamping jaw 184 is being located at straight line When one end of the close cutting table 179 of mould group 182, the free end of the first clamping jaw 184 it is close or almost in contact with cutting table 179 simultaneously And when two first clamping jaws 184 are opened, the first clamping jaw 184 of lower section is located at the lower section of the upper surface of cutting table 179, the of top One clamping jaw 184 is located at the top of the upper surface of cutting table 179 in order to which the free end of adhesive tape inductance group enters two first clamping jaws Between 184.

Be provided with hole 1710 at the position for corresponding to cutting table 179 on the vertical plate 176, the adhesive tape inductance group from The through hole 1710 enters cutting table 179.

The adhesive tape cutting mechanism 170 further includes the feeding compensating module being supported on cutting support base 171, is cut due to working as By after the cutting of adhesive tape inductance group, the free end of the adhesive tape inductance group newly formed is located in supporting table 179 breaking tool 178, and first Clamping jaw 184 can not be picked up directly, at this moment drive adhesive tape inductance group to move forward a small distance by feeding compensating module, It is sent to the free end of the adhesive tape inductance group of novel cell between two first clamping jaws 184.

The feeding compensating module includes the compensation cylinder 172 being supported on cutting support base 171, is slidably supported at The pressure plate 175 that compensates the pressing table 173 on cylinder 172 and can be supported on up or down on pressing table 173, pressure plate 175 can be pressed on adhesive tape inductance group on pressing table 173, and the cylinder rod of the compensation cylinder 172 is towards the direction of vertical plate 176 Extend and its free end is connect with pressing table 173, after adhesive tape inductance group is pressed on pressing table 173 by pressure plate 175, mends The stretching of cylinder 172 is repaid, adhesive tape inductance group is moved forward into a small distance.Also, when compensating the stretching of cylinder 172, cutoff tool Tool 178 has retracted, and the first clamping jaw 184 has been positioned at one end of the close cutting table 179 of straight line mould group 182 and opening.

Further, the pressure plate 175 is supported on pressing table 173 by compensating compression cylinder 174, compensates compression cylinder 174 cylinder rod is arranged downward and pressure plate is arranged in its lower end.

Also, lower anti-indent is provided in the upper surface of the pressing table 173 and along the moving direction of adhesive tape inductance group 1711, it is provided with upper anti-indent 1712 at the position of anti-indent 1711 in the case where the lower surface of pressure plate 175 is corresponding, it is against pressure under described The width of slot 1711 and upper anti-indent 1712 slightly larger than inductance ontology 121 along 121 length direction of conductive contact size, and under The inductance ontology 121 that the depth of anti-indent 1711 meets in adhesive tape inductance group is not contacted with its bottom, the depth of upper anti-indent 1712 Degree meet inductance ontology 121 after adhesive tape inductance group is pressed on pressing table 173 by lower platen 175 in adhesive tape inductance group not with The contact of its bottom, will not damage inductance ontology 121 by pressure when adhesive tape inductance group is pressed on pressing table 173 by pressure plate 175 in this way.

One end of the separate vertical plate 176 of the pressing table 173 is provided with U-type groove, is provided with axis in the U-type groove Horizontal pulley 1713, the pulley 1713 is rotatable, and pulley 1713 is arranged at the position of anti-indent 1711 under correspondence There is pulley groove 1714, the width of pulley groove 1714 is equal to the width of lower anti-indent 1711, and adhesive tape inductance group is wound on pulley 1713 Top, and inductance ontology 121 passes through pulley groove 1714, avoids adhesive tape inductance group and pressing table by 1713 one side of pulley Corner angle between friction, while guiding is played the role of by pulley groove 1714.

It is provided between encapsulated band module 160 and adhesive tape cutting mechanism 170 to incude whether adhesive tape inductance group tenses Tension induction mechanism 103, the induction mechanism 103 that tenses is supported on induction bracket 104 in second support 102 and rotatable Ground is supported on the induction wheel 103 in induction bracket 104, and the rotation axis of the induction wheel 103 is parallel to rotary shaft 168, described The height of the axis of induction wheel 103 is lower than in the height of axis and the height of pressing table 173 of the rotary shaft 168 lower one Person, at work, adhesive tape inductance group are located at the lower section of induction wheel 103, i.e. adhesive tape inductance group is normally loose, if adhesive tape is electric Sense group has encountered induction wheel 103, and induction wheel 103 rotates, and by the way that velocity sensor is arranged around induction wheel 103, works as control When device detects that induction wheel 103 rotates by velocity sensor, illustrate that adhesive tape inductance group is being tightened up, at this time adhesive tape pulling mechanism 180 stop drawing adhesive tape inductance group, pull again after waiting for a period of time.

The lower section of first clamping jaw 184 is provided with cutting agency 190.The cutting agency 190 includes passing through blanking Support base 191 is supported on the supporting plate 192 in second support 102.Adhesive tape inductance group, which is clamped, when the second clamping jaw 184 is moved to straight line mould When the end of group 182, cutting off tool 178 cuts off adhesive tape inductance group, is unclamped by the second clamping jaw 184, the adhesive tape electricity after cutting Sense group is fallen on supporting plate 192.

The cutting agency 190 further includes blanking cylinder 193, and the free end of the cylinder rod of the blanking cylinder 193 is hinged In the lower surface of supporting plate 192, the free end of the cylinder body of blanking cylinder 193 is hinged on blanking support base 191, the edge of supporting plate 192 The side of width direction is hinged on blanking support base 191, the side of the separate blanking support base 191 of supporting plate 192 just under Side is provided with rewinding box 194, and when blanking cylinder 193 stretches out, supporting plate 192 is in be horizontally arranged, when blanking cylinder 193 retracts, The one of the separate blanking support base 191 of supporting plate 192 is sloped downwardly, and is located at the adhesive tape inductance after the cutting on supporting plate 192 in this way Group is slipped in rewinding box 194.Staff can hold the adhesive tape inductance group in rewinding box 194 and carry out to inductance ontology 121 Spray painting.

The adhesive tape wrapping device further includes to the feed mechanism 130 to 140 feeding of cutting mechanism.The feed mechanism 130 include the feeding pedestal 131 being supported in first support 101, the feeding that can be supported on up or down on feeding pedestal 131 Plate 135, the feeding slide unit 137 being slidably supported at along the length direction of support plate 135 on the upper surface of support plate 135 with And it is fixed on the feeding clamping cylinder 138 on feeding slide unit 137, the upper flitch 135 is along the length for being parallel to the lower U-type groove It spends direction to extend, the output end of the feeding clamping cylinder 138 is provided with two clamping bars 139, two clamping bars 139 are along feeding The length direction of plate 135 extends.The feeding bar of the length direction extension along upper flitch is provided on the feeding slide unit 137 1310, at work, inductance group 11 is placed on feeding bar 1310, two clamping bars 139 are pressed from both sides from the two sides of inductance group 11 Tightly, the free end of feeding bar 1310 is inserted into lower U-type groove, is moved by control feeding slide unit 137 towards cutting mechanism 140 It is dynamic, inductance group 11 can be sent to the underface of cutter 149.

Specifically, the upper flitch 135 is supported on feeding pedestal 131 by feeding lifting cylinder 136, the feeding liter The free end of the cylinder rod of sending down abnormally ascending cylinder 136 upwardly extends and upper flitch 135 is fixed on the cylinder rod of feeding lifting cylinder 136 The end of free end, can be realized moving up and down in upper flitch 135 by lifting cylinder 136 can be realized positioned at feeding Structure on plate 135 moves up and down.When feeding lifting cylinder 136 stretches out, the height of the upper surface of feeding bar 1310 is higher than The height of the opening of lower U-type groove, in this way will not when feeding bar 1310 is moved to the underface of cutter 149 with inductance group 11 It is contacted with the two sidewalls of lower U-type groove, ensure that the smooth feeding of feed mechanism 130.When inductance group 11 is being moved to cutter 149 just When lower section, feeding clamping cylinder 138 drives two clamping bars 139 to unclamp, and then feeding lifting cylinder 136 retracts, feeding bar 1310 It is moved down into the opening that upper surface is lower than lower U-type groove, inductance group 11 is supported on the two sidewalls of lower U-type groove, and last feeding is sliding Platform 137 drives clamping bar 139 and feeding bar 1310 to retract, at this time since feeding bar 1310 is not contacted with inductance group, upper When expecting that bar 1310 is retracted from lower U-type groove, the retraction of inductance group not will drive.For this purpose, the depth of lower U-type groove is arranged to make feeding bar 1310 when moving down into extreme lower position the lower surface of feeding bar 1310 will not be contacted with the bottom of lower U-type groove.Simultaneously as feeding The height of upper surface of the bar 1310 when to 140 feeding of cutting mechanism is higher than lower U-type groove, and such feeding bar 1310 can will be previous The secondary inductance 12 cut is pushed on the guide groove 154 of straight vibration track 153 of the first Zhi Zhen mechanism 150.

Further, one end of the separate cutting mechanism 140 of the upper flitch 135 is provided with feeding flat-removing air cyclinder 1312, The cylinder rod of the feeding flat-removing air cyclinder 1312 is parallel to the length direction of upper flitch 135 and the feeding flat-removing air cyclinder 1312 The free end of cylinder rod be fixed on feeding slide unit 137, and then feeding can be controlled by controlling feeding flat-removing air cyclinder 1312 Slide unit 137 moves back and forth to realize the feeding to cutting mechanism 140.

Guide plate 132 is provided on the cylinder body of the feeding lifting cylinder 136, the both ends of guide plate 132 are provided with cunning Set, two sliding sleeves are arranged relative to the axisymmetrical of feeding lifting cylinder 136, set at the position of the correspondence sliding sleeve of upper flitch 135 Two guide rods 133 are equipped with, two guide rods 133 are slidably matched with corresponding sliding sleeve, in the driving of feeding lifting cylinder 136 When flitch 135 moves up and down, stable upper flitch 135 can be played the role of.

The upper surface of the feeding bar 1310 is provided with multiple placing grooves 1311, multiple placing grooves 1311 are along feeding bar 1310 length direction arranges and the distance between adjacent placing groove 1311 is equal to two adjacent inductance in inductance group 11 The distance between ontology 121, the quantity of inductance 12 at least equal to one inductance group 11 of quantity of multiple placing grooves 1311, to protect Inductance 12 in card inductance group 11 can be put into placing groove 1311, by the way that inductance ontology 121 is placed into placing groove 1311 In, it can guarantee stability when inductance group 11 is mobile.

The adhesive tape wrapping device further includes placement case assembly 110 to place inductance group 11 and will place case assembly 110 Interior inductance group 11 is transported to the material fetching mechanism 120 on feed mechanism 130.

The placement case assembly 110 has multiple holders 111, and multiple holders 111 are vertically arranged and upper end is formed with Material taking mouth, material fetching mechanism 120 take inductance group 11 away from material taking mouth.Placed cavity, the length of placed cavity are formed in holder 111 It is equal to or slightly greater than the length and width of inductance group 11 with width, can guarantee that inductance group 11 can be placed at placed cavity in this way It is interior and will not run-off the straight.

The material fetching mechanism 120 includes the feeding suction nozzle 124 being supported in first support 101 by feeding bracket 121, institute Stating feeding suction nozzle 124 can move back and forth in the perpendicular of the length direction perpendicular to upper flitch 135, in feeding, In a holder 111 be located at feeding position, feeding suction nozzle 124 the inductance group 11 of taking-up is placed on feeding bar 1310 and Inductance ontology 121 in inductance group 11 is placed in placing groove 1311.

The material fetching mechanism 120 further comprises the feeding installing plate 125 being supported on feeding bracket 121, can be along Feeding can be supported on perpendicular to the mobile feeding translation plates 126 in the direction of the length direction of upper flitch 135 and up or down Feeding lifter plate 127 in translation plates 126, the feeding suction nozzle 124 is supported on feeding lifter plate 127 and feeding suction nozzle 124 Absorption end be arranged downward.The length direction horizontal extension of the feeding installing plate 125 and perpendicular to the length of upper flitch 135 Direction is provided with away from the side of feeding bracket 121 in the feeding installing plate 125 and prolongs along the direction of feeding installing plate 125 The guide rail stretched is provided with the sliding block with guide rail cooperation on feeding lifter plate 127, can be improved feeding by guide rail and sliding block The stability of lifter plate 127 when moving.Further, one end of feeding installing plate 125 is provided with feeding flat-removing air cyclinder 122, The cylinder rod of the feeding flat-removing air cyclinder 122 is parallel to the length direction of feeding installing plate 125 and its free end and feeding are flat Plate 126 is moved to connect.

The side away from feeding installing plate 125 of the feeding translation plates 126 is provided with vertically arranged guide rail, is taking It is provided with the sliding block with guide rail cooperation on material lifter plate 127, about 127 feeding lifter plate can be increased by guide rail and sliding block Stability when mobile.The upper end of feeding translation plates 126 is provided with feeding lifting cylinder 123, the feeding lifting cylinder 123 Cylinder rod be arranged downward and its free end is connect with feeding lifter plate 127.

The feeding suction nozzle 124 have it is multiple, multiple feeding suction nozzles 124 along be parallel to feeding bar 1310 direction arrange Column, and in the inductance group 11 such as quantity of multiple feeding suction nozzles 124 inductance 12 quantity, and adjacent feeding suction nozzle 124 it Between distance be equal to inductance group 11 in adjacent inductive 12 distance, such feeding suction nozzle 124 can be in each inductance group 11 Inductance generate adsorption capacity.Further, in order to guarantee the inductance group 11 in holder 111 being shifted exactly to feeding bar 1310 In placing groove 1311 in, when the feeding flat-removing air cyclinder 1312 retracts, in multiple more than 124 feeding bars 1310 of feeding suction nozzle Placing groove 1311 corresponds.Meanwhile for the ease of feeding, the length direction of the holder 111 is parallel to feeding bar 1310 Length direction, inductance group 11 is put into holder 111 in such a way that its length direction is parallel to the length direction of holder 111 In, multiple holders 111 are parallel to the length direction arrangement of feeding bar 1310.

In order to keep multiple holders 111 successively corresponding with feeding suction nozzle 124, the placement case assembly 110 passes through mobile mould Group 114 is supported in first support 101, and the length direction that the mobile mould group 114 is parallel to feeding bar 1310 is arranged and it Sliding block is upwardly disposed, and the placement case assembly 110 is fixed on the sliding block of mobile mould group 114 by bottom plate 113, is moved by control The movement of dynamic model group 114 is able to drive multiple holders 111 and is successively moved at position corresponding with feeding suction nozzle 124.

Since feeding suction nozzle 124 is in the feeding from holder 111, the distance that feeding suction nozzle 124 moves down is certain , in order to enable to draw inductance group 11 in sustained height in feeding 124 feeding of suction nozzle, in the placement case assembly 110 side and correspond at the position of feeding suction nozzle 124 and be provided with lifting body 129, the lifting body 129 includes setting Jacking mould group 1210 and setting at the position placed the side of case assembly 110 and correspond to feeding suction nozzle 124 is in jacking mould Raising plate 1211 on the sliding block of group 1210, the raising plate 1211 is horizontally disposed and is inserted into waiting the holder of feeding In 111.The jacking mould group 1210 is straight line mould group in the prior art.

It is inserted into holder 111 for the ease of raising plate 1211, the direction jacking mould group 1210 of each holder 111 The jacking opening 112 that side setting extends up and down, is provided with bottom on the bottom of each holder 111 and bottom plate 113 and opens Mouth 115, the size of the bottom opening 115 are equal to or slightly greater than the size of raising plate 1211 and are less than the ruler of inductance group 11 Very little, raising plate 1211 enters in holder 111 from lower part and jacks up inductance group 11, and jacking mould group 1210 moves up every time Amount is the thickness of inductance group 11, can guarantee that the inductance group 11 of the top is always positioned at sustained height in this way.

Embodiment two

After the sectional adhesive tape inductance group that embodiment one generates is painted, need to tear on adhesive tape, the implementation Example is exactly the adhesive tape tearing device for tear tape.

Such as Figure 29-37, the adhesive tape tearing device includes discharge mechanism 210, and staff paints by adhesive tape Inductive component It is placed on discharge mechanism 210 later.

The discharge mechanism 210 includes the feeding mould group 211 being supported on third bracket 201 and is consolidated by support frame 212 The charging tray 213 being scheduled on the output end of feeding mould group 211 is provided with multiple rows of locating slot 214, the positioning on the charging tray 213 Slot 214 is arranged along the moving direction of charging tray 213, and adhesive tape Inductive component after staff is by spray painting is placed on charging tray 213 The inductance ontology 122 of adhesive tape Inductive component was placed in locating slot 214 when upper, the corresponding one section of adhesive tape electricity of every row's locating slot 214 Feel component.

The adhesive tape tearing device further includes material pulling mechanism 220.The material pulling mechanism 220 includes being supported on third bracket 201 On charging bottom plate 221 and by connecting rod 2220 be supported on charging bottom plate 221 on tear glue platform 222, in the charging bottom plate It is vertically provided with fixed plate 2210 on 221 and positioned at the side for the width direction for tearing glue platform 222, in the face of the fixed plate 2210 It is slidably provided with to the side for tearing glue platform 222 and draws flitch 223, the side away from fixed plate 2210 for drawing flitch 223 It is provided with drawing material cylinder 225, the cylinder rod for drawing material cylinder 225 extends up and down, is arranged in the upper end for drawing material cylinder 225 There is drawing material block 224, is drawing the top of material block 224 to be formed with shifting material arm 229, the shifting material arm 229 is vertically arranged, expects cylinder when drawing When 225 cylinder rod stretches out, the two inductance sheets near material pulling mechanism 220 that material arm 229 is inserted into adhesive tape inductance group are moved In gap between body 121, draw flitch 223 mobile away from the direction of discharge mechanism 210 by control, it can be by feeding machine Adhesive tape inductance group after spray painting on structure 210 is drawn to tearing on glue platform 222.The length direction of the fixed plate 2210 and drawing material direction In parallel, in the fixed plate 2210 towards the two horizontally disposed guide rails of side setting for drawing flitch 223, on drawing flitch 223 It is respectively arranged with two sliding blocks for having the guide rail to cooperate.

The fixed plate 2210 both ends and towards drawing the side of flitch 223 to be respectively arranged with two belt pulleys 2212, two Belt pulley 2212 is sequentially connected by belt 2213, and one of belt pulley 2212 is sequentially connected with material motor 2211 is drawn, and draws material Plate 223 is fixed on belt 2213 by connecting plate 2230, by drawing material motor 2211 to drive belt 2213 mobile, can be driven It draws material block 224 mobile and then is able to drive the movement of adhesive tape inductance group.

Described to tear the drawing hopper 2218 being provided on glue platform 222 along drawing material direction to extend, the drawing hopper 2218 is upper Lower direction and drawing material direction, which are run through, tears glue platform 222, and the drawing hopper 2218 expects that arm 229 in same perpendicular, moves with shifting Expect that the width of arm 229 is less than the width of drawing hopper 2218, in drawing material, moves material arm 229 and haul adhesive tape inductance group and enter to draw and expect Slot 2218, at least lower part of the inductance ontology 121 of the adhesive tape inductance group, which is located at, draws in hopper 2218, conductive contact 122 and Adhesive tape, which is supported on, draws 2218 two sides of hopper to tear on glue platform 222, after drawing adhesive tape inductance group to certain distance, draws material cylinder 225 drive shifting material arm 229 to be moved down into the lower surface moved and expect that the top of arm 229 is lower than inductance ontology 122, drawing material motor 2211 Reversion moves material arm 229 and returns at the position of charging tray 213.The locating slot 214 of the charging tray 213 at least tears glue platform 222 close Side be arranged to wears groove 215, the wears groove 215 extends upward through charging tray 213 in the upper and lower of charging tray 213, and staff will be will At least one described gap is located in wears groove 215 when adhesive tape inductance group after spray painting is placed in locating slot 214, expects arm when moving After 229 return, it is moved to the lower section in the gap, material cylinder 225 is drawn to stretch out, material arm 229 is moved and is inserted into the gap.When from After pulling out one section of adhesive tape inductance group in locating slot 214, feeding mould group 211 drives charging tray 213 mobile, and mobile distance is two adjacent The distance between locating slot 214 waits moving and expects that arm 229 carries out drawing material to the adhesive tape inductance group in next locating slot 214.

The material pulling mechanism 220 further includes being supported on up or down on charging bottom plate 221 by mounting plate 2214 Binder item 2217, the binder item 2217 be located at draw hopper 2218 surface, the lower surface of binder item 2217 be provided with The corresponding upper limit position groove 2219 of hopper 2218 is drawn, the length of binder item 2217 is greater than the length of one section of adhesive tape inductance group to whole Section adhesive tape inductance group limit.After position is expected in the drawing of adhesive tape inductance group, binder item 2217 is moved down, when binder item 2217 is moved to When bottom, the top of the inductance ontology 121 in adhesive tape inductance group is located in upper limit position groove 2219, and conductive contact 122 and Adhesive tape on conductive contact 122 is not contacted with binder item 2217, and such inductance ontology 121 is limited in upper limit position groove 2219 and draws Between hopper 2218, when the adhesive tape in adhesive tape inductance group is torn along the direction away from inductance ontology 121, due to upper limit Slot 2219 and the position-limiting action for drawing hopper 2218, inductance ontology 121 is without departing from drawing hopper.

The adhesive tape tearing device further includes Si Liao mechanism 230, and there are two the tools of Si Liao mechanism 230, respectively to inductance sheet The adhesive tape of 121 two sides of body pulls toward different directions and then adhesive tape can be torn.

Each Si Liao mechanism 230 include by tear material frame 231 be supported on third bracket 201 tearing material mould group 232, pass through Lengthened plate 235 is arranged in tearing material cylinder 233 and being fixed on the sliding block for tearing material mould group 232 and tears on the output end for expecting cylinder 233 Two tear feed collet pawl 234, two, which tear feed collet pawl 234, far from or close to and then can be realized clamping or pine in above-below direction It opens, Liang Siliao mechanism 230 is symmetrical arranged relative to drawing hopper 2218, and hopper 2218 draws relatively respectively in Liang Siliao mechanism 230 It is obliquely installed, in Si Liao mechanism 230 at the one end for drawing hopper 2218 nearest, respective side can be clamped by tearing feed collet pawl 234 The edge of adhesive tape, then when tear the material drive of mould group 232 tear feed collet pawl 234 it is mobile towards the other end when, due to tear feed collet pawl 234 away from It is increasingly remoter with a distance from adhesive tape inductance group adhesive tape to be torn in turn.Preferably, the output end court for tearing material cylinder 233 Perpendicular to draw hopper 2218 direction, can guarantee when tearing material in this way, the pulling force for tearing material is perpendicular to adhesive tape inductance group.

Further, adhesive tape in adhesive tape inductance group can be clamped in order to guarantee to tear feed collet pawl 234, in material tearing platform 2220 and Corresponding each Si Liao mechanism 230 is provided with material folding slot 2221 at its position, described to tear at the position of material folding slot 2221 Expect that the width of platform 2220 is less than the width of adhesive tape, a part of such adhesive tape can extend in material folding slot 2221, in material folding slot Adhesive tape in 2221 be it is hanging, the edge of adhesive tape is clamped convenient for tearing feed collet pawl 234 in this way.

Further, pusher is provided on the drawing flitch 223 and positioned at the side for the separate charging tray 213 for moving material arm 229 Inductance 12 after preceding adhesive tape of once tearing can be released by pusher arm 228 and draw hopper 2218 by arm 228.Specifically, material is being drawn It is provided with pusher cylinder 226 on plate 223 and positioned at the side for the separate charging tray 213 for moving material arm 228, the pusher cylinder 226 Cylinder rod is arranged upward, and the upper end of the cylinder rod of pusher cylinder 226 is fixed with expeller 227, and the setting of pusher arm 228 exists The top of expeller 227, when the pusher cylinder 226 is stretched out, the top of pusher arm 228, which is higher than, draws hopper 2218 will draw material Inductance on slot 2218 is released, and when pusher cylinder 226 retracts, the top of pusher arm 228 is lower than drawing hopper 2218 in pusher Arm 228 avoids interfering with the adhesive tape inductance group being located on drawing hopper 2218 when returning.

Embodiment three

The embodiment is integer type device, to carry out integer to the inductance after adhesive tape of tearing in embodiment two.

Such as Figure 38-49, the integer type device includes by the integer pedestal 311 that is supported on the 4th bracket 301, by whole Type column 327 is supported on the integer platform 312 on integer pedestal 311, and two mutually symmetrical the are provided on the integer platform 312 One bending platform 3171 is formed with the first bending platform to be supported to the inductance before bending on two first bending platforms 3171 The distance in face 3172, two first bending platforms 3171 is equal to or slightly greater than be provided with conductive contact 122 two of inductance ontology 121 The distance between side, two first bending table tops 3172 are located in same level, and in each first bending table top 3172 Top is rotatably provided the first bending idler wheel 318, and the minimum clearance between two first bending idler wheels 318 is equal to or bigger In the sum of twice of the thickness of the distance and conductive contact 122 of the two sides for being provided with conductive contact 122 of inductance ontology 121, two First bending idler wheel 318 is symmetrical relative to the symmetrical plane of two first bending platforms 312, and the rotation of two first bending idler wheels 318 Axis is parallel to the symmetrical plane.Gap between first bending idler wheel 318 and corresponding first bending table top 3172 is bigger In the thickness of conductive contact 12 to guarantee that conductive contact 12 can be put into the underface of the first bending idler wheel 318.

The first bending cylinder 316 that cylinder rod is arranged upward is provided on the integer pedestal 311, in the first bending gas The top of the cylinder rod of cylinder 316 is provided with folded block 315, and vertically extending bending arm is provided on the top of folded block 315 3151, the bending arm 3151 is inserted between two first bending platforms 312, when the first bending cylinder 316 is in retracted mode, The top end face of bending arm 3151 is lower than the first bending table top 3172.When the cylinder rod of the first bending cylinder 316 stretches out, bending arm 3151 push up and move up to inductance ontology 121, and after moving up a distance, conductive contact 122 can touch first Bending idler wheel 318, bending arm 3151 continue to move up, at this time quilt under the action of the first bending idler wheel 318 of conductive contact 122 Bending, bending arm 3151 continue to move up, until inductance ontology 121 to be ejected to the gap between two first bending idler wheels 318, Under the action of the first bending idler wheel 318, inductance ontology 121 can be fitted in by 122 bending of conductive contact and as much as possible Side, referring to fig. 47.

Further, in order to which the product generated in embodiment two to be delivered directly in the shaping mechanism, described The side of separate discharge mechanism 210 on three brackets 201 positioned at material pulling mechanism 220 is provided with the second Zhi Zhen mechanism 240, and described the Two Zhi Zhen mechanisms 240 are identical as the working principle of the first Zhi Zhen mechanism 150, and and will not be described here in detail.On the integer platform 312 and Splicing block 313 is provided on front side of feedstock direction positioned at the first bending platform 312, be provided on splicing block 313 along into Expect the feed well 314 that direction extends, one end of the feed well 314 is to receive the inductance sent by the second Zhi Zhen mechanism 240 12, the gap between the other end and two first bending platforms 312 is aligned, and the upper surface of the two sidewalls of feed well 314 and first Bending table top 3172 is aligned, and the groove width of one end of the feed well 314 is greater than the groove width of the other end, in this way convenient for charging.

The splicing block 313 is fitted in the side of two first bending platforms 312, the gap edge that two first bending platforms 312 limit The size of feedstock direction is equal to twice of size of two vertical sides of the not set conductive contact of inductance ontology 121, in this way the Bending can be carried out to the conductive contact 122 of two inductance 12 simultaneously at one bending position.

Gib block 334 is additionally provided on integer platform 312, the gib block 334 extends along feedstock direction, and along into Expect direction observation, the vertical plane where gib block 334 is overlapped with the plane of symmetry, also, along feedstock direction, the gib block 334 are arranged in the rear side of the first bending wheel 318.

Along feedstock direction, it is disposed on the gib block 334 conductive contact 122 to be again switched off Cutting station, conductive contact 122 is carried out to the second bending station of bending again and to conductive contact 122 is further It is pressed on micro- whole station on the surface of inductance ontology 121, and is provided with cutting off tool in the two sides of the gib block 334 320, the second folded block 321 and micro- monolith 323.Since the cutting mechanism 140 in embodiment one cuts conductive contact 122 When, in order to guarantee that conductive contact 122 can have more part that can paste with adhesive tape 13, the part of the reservation of conductive contact 122 It is more longer than part actually required, need using cutting off tool 320 by conductive contact 122 is extra and cutaway.It is logical Cross the second folded block 321 can by conductive contact 122 again bending conductive contact 122 is attached to electricity close to the part of free end Feel the lower surface of ontology 121.In preceding bending twice, conductive contact 122 is not necessarily bonded with inductance ontology 121 completely, Conductive contact 122 is compressed towards inductance ontology 1 again by micro- monolith 323, conductive contact 122 and electricity can be made as much as possible Feel ontology 1 to be bonded.

The cutting off tool 320 of 334 two sides of gib block, the second folded block 321 and micro- monolith 323 are symmetrical arranged, and structure It is identical.The cutting off tool 320 of the same side, the second folded block 321 and micro- monolith 323 are located on same integer plate 335, and And each integer plate 335 can be slidably mounted on integer platform 312 along separate or close direction, be cut by moving on to Breaking has the 320, second folded block 321 and micro- monolith 323 can be achieved at the same time the processing of three stations.In each integer plate The side of 335 separate gib block 334 is provided with integer cylinder 336, and the cylinder rod of the integer cylinder 336 is towards gib block The free end of 334 settings and gib block 334 is connect with trim panel 335, can control trim panel 335 by integer cylinder 336 Move back and forth.

Width of the gib block 334 at the position of cutting station is equal to or slightly less than being provided with for inductance ontology and leads The distance of the two sides of electrical contact is so that the conductive contact of the inductance after first time bending can be stuck on gib block 334 to cut It is disconnected.Depending on the length for the conductive contact 122 that the height of the blade of the cutting off tool 320 retains as needed, the electricity after cutting Sense 12 referring to fig. 48.

Width of the gib block 334 at the second bending station is equal to or slightly less than in 122 second folding of conductive contact The distance of the free end of two conductive contacts 122 after curved.The height of the upper surface of second folded block 321, which is lower than, is in the second folding The height of the lower surface of conductive body 121 at curved station.In order to reach better bending effect, in second folded block One end of 321 close gib block 334 is rotatably provided the second crimping roller 322, the rotary shaft of second crimping roller 322 Line is parallel to the extending direction of gib block 334 and the height of the highest point of the second crimping roller 322 is slightly below in the second bending The height of the lower surface of conductive body 121 at station, it is preferable that the height of the highest point of second crimping roller 322 is equal to The height of the upper surface of second folded block 321.Inductance after second of bending referring to fig. 49.

Width of the gib block 334 at micro- whole station is equal to the width at the second bending station.Micro- monolith The extension 324 extended towards gib block 334 is provided on the upside of one end of 323 close gib block 334, in the gib block Limited block 325 is provided at 334 two sides and the position of corresponding micro- whole station, the height of the upper surface of the limited block 325 is omited Lower than the height of the free end of conductive contact 122, the height of the lower surface of the extension 324 is higher than the upper table of limited block 325 The height in face collides to avoid extension 324 and limited block 325.

The height of the gib block 334 is higher than the height of the highest point of the first bending idler wheel 318, when the first bending gas When cylinder 316 stretches out, the height of the upper surface of the bending arm 3151 is equal to the height of gib block 334 in order to the inductance after bending 12 can smoothly enter into gib block 334.

The integer type device further includes the Material moving device to move inductance between different station.The Material moving device Including the shifting material bracket 337 being supported on integer platform 312 and it is supported on shifting material bracket 337 and gib block 334 can be being passed through Vertical plane in the driving plate 331 that moves, the driving plate 331 is vertically arranged and the setting of its bottom is there are four driver slot 333, The driver slot 333 is equal to the not set conductive contact 122 of inductance ontology 121 along the size of the length direction of gib block 334 Twice of the distance between two vertical sides, i.e., each driver slot 333 can accommodate two inductance ontologies 121 simultaneously and then can Two inductance 12 are driven simultaneously.Four driver slots 333 arrange that equally, the first bending station is (electric in the form of equidistant 12 position at the first bending idler wheel 318 when bending of sense), cutting station, the second bending station and micro- whole station be also with Equidistant form arrangement, and the distance between the distance between adjacent driver slot 333 adjacent stations are equal.

When driving plate 331 works, driving plate 331 is moved downward, and four driver slots 333 are aligned with four stations respectively, After driving plate 331 is moved downwardly to certain distance, the inductance 12 on different station enters corresponding driver slot 333, driving Plate 331 is mobile towards feedstock direction, and the inductance on the first bending station, cutting station and the second bending station, which is successively moved to, to be cut On disconnected station, the second bending station and micro- whole station, the inductance on micro- whole station is moved out of, and then driving plate 331 moves up And it returns to enter and move material next time.

Preferably, driving lifter plate 329 moving up and down, the driving plate are provided on shifting material bracket 337 331 are mounted on driving lifter plate 329, and the driving plate 331 can be along gib block 334 relative to driving lifter plate 329 Extending direction moves back and forth.Specifically, setting driving lifting cylinder 330, the driving lifting air on shifting material bracket 337 The cylinder rod of cylinder 330 is arranged downward and lower end is connect with driving lifter plate 329, is provided with driving on driving lifter plate 329 The cylinder rod of cylinder 332, the driving cylinder 332 is parallel to the extending direction and its free end and driving plate of gib block 334 331 connections.Further, the driving lifter plate 329 and move material bracket 337 between, driving plate 331 and driving lifter plate 329 it Between be all made of sliding rail and sliding block cooperation form.

Further, the integer type device further includes composing mechanism 340.The composing mechanism 340 includes with seat typesetting bracket The 341 typesetting mould groups 342 being supported on the 4th bracket 301 and the typesetting rewinding plate being supported on the sliding block of typesetting mould group 342 343, multiple rows of typesetting slot 344 is provided on typesetting rewinding plate 343, the moving direction of the typesetting rewinding plate 343 is perpendicular to institute State the extending direction of gib block 334, the length direction of the typesetting slot 344 along the extending direction for being parallel to gib block 334, this The inductance 12 that sample is moved out of from gib block 334 is able to enter into typesetting slot 344.

Specifically, the typesetting slot 344 towards the open at one end of gib block 334, other end closing, to avoid inductance 12 It is fallen from the other end.After the inductance 12 on a typesetting slot 344 reaches certain amount, typesetting mould group 342 drives typesetting rewinding Plate 343 moves a certain distance, and inductance is moved into next typesetting slot 344.

Further, reclaiming plate is provided on the integer platform 312 and along the end that feedstock direction is located at gib block 334 326, blow tank 327 is provided on reclaiming plate 326, the blow tank 327 extends along the direction for being parallel to gib block 334, The width of the blow tank 327 is slightly larger than the distance between two sides for being provided with conductive contact 122 of inductance ontology 121 and conduction The sum of twice of the thickness of contact 122, the blow tank 327 can be aligned with typesetting slot 344, and then when driving plate 331 is being driven When dynamic inductance 12 is mobile, inductance 12 can be moved in typesetting slot 344 by blow tank 327.

It should be noted that three equipment in embodiment one, embodiment two and embodiment three can be used alone, Can be used as an assembly line come using.

The basic principles, main features and advantages of the present invention have been shown and described above.The technology of the industry Personnel are it should be appreciated that the present invention is not limited to the above embodiments, and what is described in the above embodiment and the description is only the present invention Principle, various changes and improvements may be made to the invention without departing from the spirit and scope of the present invention, these variation and Improvement is both fallen in the range of claimed invention.The present invention claims protection scope by appended claims and its Equivalent defines.

Claims (9)

1. a kind of integer type device for inductance production characterized by comprising

Integer platform；

Two first bending platforms, the two first bending platforms symmetrically are arranged on integer platform, the shape on two first bending platforms At the first bending table top for thering is the conductive contact of the inductance to doubling before curved to be supported, the distance etc. of two first bending table tops In or slightly larger than inductance ontology the distance between the two sides for being provided with conductive contact, two first bending table tops are located at same water In plane；

Two first bending idler wheels, positioned at the surface of corresponding first bending table top, and the minimum between the first bending idler wheel Gap is equal to or slightly greater than twice of the distance of the two sides for being provided with conductive contact of inductance ontology and the thickness of conductive contact The sum of；

Bending arm, can be up or down between two first bending table tops, and folded block can be selectively from two first foldings It stretches out or retracts between curved table top.

2. a kind of integer type device for inductance production according to claim 1, which is characterized in that it further include gib block, It is arranged on the reforming station, the vertical plane where the gib block is coplanar with the plane of symmetry of two first bending platforms, the guiding The height of the upper surface of item is higher than the height of the first bending idler wheel highest point, and the bending arm is moved upwards up to highest position When, the height of upper surface is equal to or slightly above the height of gib block.

3. a kind of integer type device for inductance production according to claim 2, which is characterized in that described on gib block It is provided with the cutting station to cut off conductive contact, the two sides of the cutting station are provided with cutting of can moving towards Breaking tool, the height of the blade of the cutting off tool is determined by the length for the conductive contact for needing to retain, in the cutting station The width of the gib block at place is equal to or slightly less than the distance of the two sides for being provided with conductive contact of conductive body.

4. a kind of integer type device for inductance production according to claim 3, which is characterized in that on the gib block It is additionally provided with the second bending station, the second folded block that can be moved towards is provided in the two sides of the bending station, it is described One end of the close gib block of second folded block is provided with the second crimping roller, and the height of the top of second crimping roller is lower than The height of the lower surface of inductance ontology at the second bending station, width etc. of the gib block at the second bending station In or be slightly less than the distance of the free end of two conductive contacts after second of bending of conductive contact.

5. a kind of integer type device for inductance production according to claim 4, which is characterized in that on the gib block It is provided with micro- whole station, the two sides of micro- whole station are provided with the micro- monolith that can be moved towards, the gib block is micro- Width at whole station is equal to the width at the second bending station.

6. a kind of integer type device for inductance production according to claim 5, which is characterized in that along from the first bending To the feedstock direction of gib block, the first bending platform, cutting station, the second bending station and micro- whole station are successively set platform Set, the cutting off tool, the second folded block and micro- monolith are located on same trim panel, and the first bending platform, cutting station, Adjacent distance between the two is identical in second bending station and micro- whole station.

7. a kind of integer type device for inductance production according to claim 6, which is characterized in that further include to will be electric Feel the Material moving device moved along the feedstock direction, the Material moving device includes the driving that can be moved in the plane of symmetry Plate, in the bottom of the driving plate, there are four driver slots, the distance of adjacent driver slot to be equal to cutting station and the second folding for setting The distance between curved station.

8. it is according to claim 7 it is a kind of for inductance production integer type device, which is characterized in that each driver slot along The size of the feedstock direction is equal to the inductance ontology for needing movement every time along the sum of the size on the feedstock direction.

9. a kind of integer type device for inductance production according to claim 8, which is characterized in that further include type-setting machine Structure, the composing mechanism include along the moveable typesetting rewinding plate in direction perpendicular to the gib block, in typesetting rewinding plate Upper that the multiple rows of typesetting slot for being parallel to the length direction of the gib block is arranged, one end of the close gib block of the typesetting slot is opened Mouthful, other end closing, multiple rows of typesetting slot successively receives the inductance come since micro- whole station submitting.