CN102856760A - Vertical injection molding, punch forming and tin soldering system for production using terminal material strips - Google Patents
Vertical injection molding, punch forming and tin soldering system for production using terminal material strips Download PDFInfo
- Publication number
- CN102856760A CN102856760A CN2011101814696A CN201110181469A CN102856760A CN 102856760 A CN102856760 A CN 102856760A CN 2011101814696 A CN2011101814696 A CN 2011101814696A CN 201110181469 A CN201110181469 A CN 201110181469A CN 102856760 A CN102856760 A CN 102856760A
- Authority
- CN
- China
- Prior art keywords
- driving mechanism
- cylinder
- seat
- supporting seat
- strip
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Granted
Links
Images
Abstract
The invention discloses a vertical injection molding, punch forming and tin soldering system for production using terminal material strips. The vertical injection molding, punch forming and tin soldering system sequentially comprises an automatic slitting machine, a vertical injection molding machine, an automatic punching machine and an automatic tin soldering machine from upstream to downstream. The automatic slitting machine is capable of automatically moving a material strip and slitting the material strip into two material strip units widthwise. The vertical injection molding machine is capable of injection molding on the two material strip units to form a product and automatically moving the material strip units. The automatic punching machine is capable of punching the product to form a finished product and waste material strips and automatically moving the waste material strips. The automatic tin soldering machine is capable of automatically taking the finished product, dipping contact pins to be soldered with scaling powder, and soldering tin. By the aid of the automatic slitting machine, the vertical injection molding machine, the automatic punching machine and the automatic tin soldering machine, products produced by using the terminal material strips can be produced continuously and automatically, manpower and time are saved, and production efficiency is improved.
Description
Technical field
What the present invention relates to use terminal material belt production fires injection moulding, punch forming and scolding tin system from a standing position.
Background technology
When using terminal material belt to produce, need manually terminal material belt to be put into mould, then fire injection moulding from a standing position and form product, operating efficiency and output are all lower like this, fire the product that injects from a standing position and also need pass through punch forming, these two operations of haptic element scolding tin, and these two operations all are to adopt manual work mode, namely manually product is put into diel and carried out punching press, then manually haptic element is immersed and carry out scolding tin in the tin liquor stove, need to expend a large amount of manpowers like this, and production efficiency is low.
Summary of the invention
The realization that the purpose of this invention is to provide automation uses the terminal material belt quantity-produced to fire injection moulding, punch forming and scolding tin system from a standing position.
For achieving the above object, the technical solution used in the present invention is: that uses terminal material belt production fires injection moulding, punch forming and scolding tin system from a standing position, all have a plurality of perforation in the dual-side section of described strip, described a plurality of perforation arranges separately along the length direction of described strip, and this system comprises successively from the upstream to the downstream
Can automatically spur described strip moves also and a described strip can be cut apart the automatic slitting machine that forms two billot tape cells at Width;
Can on described two billot tape cells, injection moulding form the injection molding machine of firing from a standing position that product also can spur described strip cell moving automatically;
Can form finished product and scrap belt and can automatically spur the automatic punching machine that described scrap belt moves described product punching press, described finished product has jack, and described finished product has the outwardly directed scolding tin haptic element for the treatment of in the two opposite outer that is positioned at described jack both sides;
Can automatically get described finished product and then the described scolding tin haptic element for the treatment of be carried out the automatic tin welding machine of soldering flux applying, scolding tin.
Preferably, described automatic slitting machine comprises supporting base, can be contained in the looping disk that rotates to discharge strip on the described supporting base, be arranged on the chute feeder that to accommodate described strip on the work top of described supporting base, be arranged on described chute feeder bottom land at the locational lower cutter corresponding with position to be cut on the described strip, the upper slitter that can be arranged on up or down on the described supporting base and can match described strip is cut with described lower cutter, can be arranged on movably forward and backward the material feeding seat on the described supporting base, be positioned at the keeper of described chute feeder top, be arranged on the elastic component that this keeper elastic-restoring force can be provided between described material feeding seat and the described keeper, described chute feeder distributes along the fore-and-aft direction of described work top, and connect at this fore-and-aft direction, the relative left and right sides cell wall of described chute feeder all extends laterally at the position that joins with bottom land, formation can be accommodated described strip both sides of the edge also can be so that the guide passage that a plurality of continuously arranged described perforation in this strip dual-side section is exposed, have before backward gradually downward-sloping setting on the described keeper and can insert the lug boss of the perforation of exposing described guide passage, be provided with on the described supporting base and can drive the first driving mechanism that described material feeding seat moves forward and backward, can drive the second driving mechanism that described upper slitter moves up and down.
Further preferably, described the first driving mechanism, described the second driving mechanism include cylinder, the cylinder body of described cylinder all is fixedly installed on the described supporting base, the expansion link of the cylinder of described the first driving mechanism and described material feeding seat fix setting, this expansion link distributes along the direction that moves forward and backward of described material feeding seat, the expansion link of the cylinder of described the second driving mechanism and described upper slitter fix setting, and this expansion link distributes along the direction that moves up and down of described upper slitter.
Preferably, the described injection molding machine of firing from a standing position comprises the supporting seat that has work top and can carry out injection moulding at described work top, the guide platform that can be arranged on up and down on the described supporting seat and distribute along the fore-and-aft direction of described work top, be positioned at described guide platform top and can be arranged on movably along the fore-and-aft direction of described work top positioning seat on the described supporting seat, has the chute feeder that to accommodate described two billot tape cells on the described guide platform, described chute feeder extends along the fore-and-aft direction of described work top, and connect at this fore-and-aft direction, the relative left and right sides cell wall of described chute feeder all extends laterally at the position that joins with bottom land, formation can be accommodated described two billot tape cell lateral edges also can be so that the guide passage that a plurality of continuously arranged described perforation on this strip unit side portion is exposed, be provided with the contact pin that can insert in the perforation of exposing described guide passage on the described positioning seat downwards, be provided with the lift drive mechanism that can drive the lifting of described guide platform on the described supporting seat, what can drive that described positioning seat moves draws the material driving mechanism.
Further preferably, described lift drive mechanism comprises cylinder, the cylinder body of described cylinder is fixedly installed on the described supporting seat, the expansion link of described cylinder and described guide platform fix setting, this expansion link distributes along the lifting direction of described guide platform, the described material driving mechanism that draws comprises Rodless cylinder, mobile cylinder body and the described positioning seat of described Rodless cylinder fix setting, this moves the moving direction of cylinder body along the moving direction distribution of described positioning seat, and the cylinder barrel of described Rodless cylinder is fixedly installed on the described supporting seat.
Preferably, described automatic punching machine comprises the supporting seat with work top, can be arranged on movably along the left and right directions of described work top the counterdie on the described work top, can be arranged on up or down on the described supporting seat and also can cooperate the patrix that described product is carried out punching press with described counterdie, can be arranged on up or down on the described supporting seat and lay respectively at posterolateral guide platform before its work top, can be arranged on movably forward and backward on the described supporting seat and be positioned at drawing of described guide platform top and expect seat, all has chute feeder on the described guide platform, described chute feeder extends along the front and back horizontal direction, and connect in this front and back horizontal direction, the relative left and right sides cell wall of described chute feeder all extends laterally at the position that joins with bottom land, in the chute feeder of described work top rear side guide platform, form and to accommodate in the described product two billot tape cell lateral edges and so that the guide passage that a plurality of continuously arranged described perforation on this strip unit side portion is exposed, in the chute feeder of described work top front side guide platform, form and to accommodate described scrap belt lateral edges also so that the guide passage that a plurality of continuously arranged described perforation on this scrap belt is exposed, the described contact pin that is provided with on the material seat in the perforation that can insert scrap belt side portion in the described chute feeder downwards that draws is provided with on the described supporting seat and can drives the 3rd driving mechanism that described patrix moves up and down, can drive the 4 wheel driven actuation mechanism that described guide platform moves up and down, can drive described the 5th driving mechanism that draws the material seat to move forward and backward, can drive the counterdie driving mechanism of described counterdie move left and right.
Further preferably, described the 3rd driving mechanism, described 4 wheel driven actuation mechanism, described counterdie driving mechanism includes cylinder, the cylinder body of described cylinder all is fixedly installed on the described supporting seat, the expansion link of the cylinder of described the 3rd driving mechanism and described patrix fix setting, this expansion link distributes along the direction that moves up and down of described patrix, the expansion link of the cylinder of described 4 wheel driven actuation mechanism and described guide platform fix setting, this expansion link distributes along the direction that moves up and down of described guide platform, the expansion link of the cylinder of described counterdie driving mechanism and described counterdie fix setting, this expansion link distributes along the move left and right direction of described counterdie, described the 5th driving mechanism comprises Rodless cylinder, the mobile cylinder body of described Rodless cylinder and the described material seat that draws fix setting, and distribute along the described direction that moves forward and backward of material seat of drawing, the cylinder barrel of described Rodless cylinder is fixedly installed on the described supporting seat.
Preferably, described automatic tin welding machine comprises supporting seat, can be arranged on movably Connection Block on the described supporting seat along the left and right horizontal direction, can vertically be arranged on movably the mounting panel on the described Connection Block, can be arranged on rotationally up and down the support plate of stating finished product in the jack that also can insert described finished product on the described mounting panel with the support residence, can drive the 6th driving mechanism that described Connection Block moves, can drive the 7th driving mechanism that described mounting panel moves, can drive the 8th driving mechanism that described support plate rotates, being arranged on the described supporting seat and being positioned at described support plate below can be for flux bath and the tin liquor stove that the scolding tin haptic element stretches into for the treatment of of described finished product, and described flux bath and tin liquor stove are spaced along the left and right horizontal moving direction of described Connection Block.
Further preferably, described the 6th driving mechanism, described the 7th driving mechanism includes cylinder, be fixedly installed the cylinder body of the cylinder of described the 6th driving mechanism on the described supporting seat, the expansion link of this cylinder distributes along the left and right horizontal moving direction of described Connection Block, and fix setting with described Connection Block, be fixedly installed the cylinder body of the cylinder of described the 7th driving mechanism on the described Connection Block, the expansion link of this cylinder distributes along the vertical moving direction of described mounting panel, and fix setting with described mounting panel, described the 8th driving mechanism comprises the motor that is fixed on the described mounting panel, the first gear, tooth bar, the second gear, described motor has the output shaft that extends along the left and right horizontal moving direction of described Connection Block, fixed cover is provided with described the first gear on this output shaft, described the first gear is meshed with described tooth bar and is connected, described tooth bar can be arranged on the described mounting panel movably, described tooth bar also is meshed with described the second gear and is connected, described the second gear fixed cover is located on the rotation axis, offer perforate on the described mounting panel, described rotation axis is inserted in the described perforate, described support plate and described rotation axis fix setting, and described support plate extends along the left and right horizontal moving direction of described Connection Block.
Preferably, described system also comprises the scrap belt material collecting device, described scrap belt material collecting device comprises bracing frame, rotation is arranged on the looping disk that is used for the described scrap belt of rolling on the support frame as described above, the upstream below that is arranged on the support frame as described above and is positioned at described looping disk can contact with sagging scrap belt and then send the inductor of run signal, be arranged on the drive motors that then run signal that can receive described inductor on the support frame as described above starts the operation setting-up time, the rotational axis line along continuous straight runs of described looping disk extends, and coincide with the central axis of this looping disk, the output shaft of described drive motors is fixedly installed on the center of described looping disk.
Because the utilization of technique scheme, the present invention compared with prior art has following advantages: by automatic slitting machine, fire injection molding machine, automatic punching machine, automatic tin welding machine from a standing position, realize using the terminal material belt continuous automatic production to go out finished product, save artificial and time, enhance productivity.
Description of drawings
Accompanying drawing 1 is schematic perspective view of the present invention;
Accompanying drawing 2 is the sectional perspective schematic diagram of automatic slitting machine among the present invention;
Accompanying drawing 3 is for firing the sectional perspective schematic diagram of injection molding machine from a standing position among the present invention;
Accompanying drawing 4 is the schematic perspective view of automatic punching machine among the present invention;
Accompanying drawing 5 is the schematic perspective view of automatic tin welding machine among the present invention;
Accompanying drawing 6 is the schematic perspective view of the support plate support finished product on the mounting panel in the automatic tin welding machine of the present invention;
Accompanying drawing 7 is the schematic perspective view of scrap belt material collecting device among the present invention.
Embodiment
Further set forth the present invention below in conjunction with accompanying drawing.
In Fig. 1-7, use the injection moulding of firing from a standing position of terminal material belt production, punch forming and scolding tin system, wherein all have a plurality of perforation 23 in the dual-side section of terminal material belt 18, a plurality of perforation 23 arrange separately along the length direction of strip 18, in this system, a terminal material belt 18 is cut apart formation two billot tape cells 19, injection moulding forms product 58 on two billot tape cells 19, then product 58 forms finished product 9 and scrap belt 35 through punch forming, realize the continuous production of system by self-feeding, and the finished product after the punch forming 9 is automatically crawled, then automatically carries out soldering flux applying, scolding tin.Specifically be described below:
In Fig. 1, system comprises successively automatic slitting machine, fires injection molding machine, automatic punching machine, automatic tin welding machine from a standing position from the upstream to the downstream, automatic slitting machine can automatically spur strip 18 and move, and a strip 18 can be cut apart formation two billot tape cells 19 at Width, realize the Automatic continuous itemize of strip 18; Fire from a standing position injection molding machine can be on two billot tape cells 19 injection moulding form product 58, and can automatically spur strip unit 19 and move, realize penetrating continuously injection moulding; Automatic punching machine can form finished product 9 and scrap belt 35 to product 58 punching presses, and can automatically spur scrap belt 35 and move, realize the Automatic continuous punching press of product, the finished product 9 of formation has jack, and finished product 9 has the outwardly directed scolding tin haptic element for the treatment of in the two opposite outer that is positioned at the jack both sides; Automatic tin welding machine can be got finished product 9 automatically, then finished product 9 is treated that the scolding tin haptic element carries out soldering flux applying, scolding tin automatically.System also comprises the scrap belt material collecting device, and the scrap belt material collecting device is used for automatic rolling scrap belt 35, thereby the full-automatic of the system of realization produced continuously.
In Fig. 1 and 2, automatic slitting machine comprises supporting base 16, can be contained in the looping disk 17 that rotates to discharge strip 18 on the supporting base 16, be arranged on the chute feeder 20 that to accommodate strip 18 on the work top of supporting base 16, be arranged on chute feeder 20 bottom lands at the locational lower cutter 26 corresponding with position to be cut on the strip 18, the upper slitter 24 that can be arranged on up or down on the supporting base 16 and can match strip 18 is cut with lower cutter 26, can be arranged on movably forward and backward the material feeding seat 29 on the supporting base 16, be positioned at the keeper of chute feeder 20 tops, be arranged on the elastic component that this keeper elastic-restoring force can be provided between material feeding seat 29 and the keeper, chute feeder 20 distributes along the fore-and-aft direction of work top, and connect at this fore-and-aft direction, the relative left and right sides cell wall of chute feeder 20 all extends laterally at the position that joins with bottom land, formation can be accommodated strip 18 both sides of the edge also can be so that the guide passage 21 that a plurality of continuously arranged perforation 23 in these strip 18 dual-side sections is exposed, here our length direction that defines strip 18 is fore-and-aft direction, strip 18 moves forward in the guide passage 21 of chute feeder 20, realization is from the continuous itemize of the strip 18 of looping disk 17 releases, and send into and fire from a standing position in the injection molding machine, the length direction of strip 18 is consistent with moving direction, moving forward by material feeding seat 29 and keeper of strip 18 realizes, have before backward gradually downward-sloping setting on the keeper and can insert the lug boss of the perforation of exposing guide passage 21, be provided with on the supporting base 16 and can drive the first driving mechanism that material feeding seat 29 moves forward and backward, can drive the second driving mechanism that upper slitter 24 moves up and down, upper slitter 24 is contained in the upper cutter head 25, and the second driving mechanism drives upper cutter head 25 and moves up and down.Strip 18 is through in the guide passage 21, lug boss on the keeper inserts on the strip 18 and exposes in the perforation 23 of guide passage 21, the first driving mechanism drives material feeding seat 29 and moves forward, then the lug boss on the keeper also moves forward by the 23 promotion strips 18 of boring a hole, then the first driving mechanism driving material feeding seat 29 is mobile backward, and by the elastic-restoring force of elastic component, the lug boss on the keeper streaks strip 18 backward, then finish the mobile backward of keeper, but strip 18 is not mobile.Under the effect of the second driving mechanism, upper slitter 24 moves down, and cooperates with lower cutter 26, and cutting strip 18 forms two billot tape cells 19, and next the first driving mechanism continuation driving strip 18 moves forward, and then upper slitter 24 can carry out new cutting with lower cutter 26.In Fig. 2, strip 18 comprises dual-side section, a plurality of intermediate products section between dual-side section, a plurality of intermediate products section arranges separately along the length direction of strip 18, the setting that is centrosymmetric of adjacent two intermediate products sections, each intermediate products section all extends from a side portion, form the position to be cut of strip 18 with the junction of another side portion, upper slitter 24 can cut this position to be cut with lower cutter 26.The first driving mechanism, the second driving mechanism comprise respectively cylinder 27 and 59, cylinder 27 and 59 cylinder body all are fixedly installed on the supporting base 16, the expansion link of cylinder 27 and material feeding seat 29 fix setting, this expansion link distributes along the direction that moves forward and backward of material feeding seat 29, the expansion link of cylinder 59 and upper slitter 24 fix setting, and this expansion link distributes along the direction that moves up and down of upper slitter 24.
Two billot tape cells 19 are sent into continuously and are fired from a standing position in the injection molding machine, such as Fig. 1 and 3, fire injection molding machine from a standing position and comprise the supporting seat 28 that has work top and can carry out at work top injection moulding, the guide platform 30 that can be arranged on up and down on the supporting seat 28 and distribute along the fore-and-aft direction of work top, be positioned at guide platform 30 tops and can be arranged on movably along the fore-and-aft direction of work top positioning seat 39 on the supporting seat 28, has the chute feeder 37 that to accommodate two billot tape cells 19 on the guide platform 30, chute feeder 37 extends along the fore-and-aft direction of work top, and connect at this fore-and-aft direction, the relative left and right sides cell wall of chute feeder 37 all extends laterally at the position that joins with bottom land, formation can be accommodated two billot tape cells, 19 lateral edges also can be so that the guide passage 38 that a plurality of continuously arranged perforation 23 on these strip unit 19 side portion is exposed, here our length direction that defines strip unit 19 is fore-and-aft direction, strip unit 19 moves forward in the guide passage 38 of chute feeder 37, realization continuous injection moulding on strip unit 19 forms product 58, and send in the automatic punching machine, the length direction of strip unit 19 is consistent with moving direction, moving forward by positioning seat 39 of strip unit 19 realizes, be provided with the contact pin 40 that can insert in the perforation 23 of exposing guide passage 38 on the positioning seat 39 downwards, be provided with the lift drive mechanism that can drive 30 liftings of guide platform on the supporting seat 28, what can drive that positioning seat 39 moves draws the material driving mechanism, two billot tape cells 19 are through in the guide passage 38 of chute feeder 37, injection moulding is complete firing from a standing position, thereby in the time of need to moving forward the continuous injection moulding of strip unit 19 energy, pass through lift drive mechanism, driving guide platform 30 rises, so that the contact pin 40 on the positioning seat 39 inserts in the perforation 23 of strip unit 19 side portion, then move forward by drawing the material driving mechanism to drive positioning seat 39, then spurring strip unit 19 moves, after pulling puts in place, driving guide platform 30 by lift drive mechanism descends, contact pin 40 is separated with perforation 23, then by drawing the material driving mechanism to drive positioning seat 39 homings.Lift drive mechanism comprises the cylinder (not shown), the cylinder body of cylinder is fixedly installed on the supporting seat 28, the expansion link of cylinder and guide platform 30 fix setting, this expansion link distributes along the lifting direction of guide platform 30, draw the material driving mechanism to comprise Rodless cylinder, mobile cylinder body 41 and the positioning seat 39 of Rodless cylinder fix setting, and this moves the moving direction of cylinder body along the moving direction distribution of positioning seat 39, and the cylinder barrel 42 of Rodless cylinder is fixedly installed on the supporting seat 28.
In Fig. 1 and 5 and 6, automatic tin welding machine comprises supporting seat 1, can along continuous straight runs be arranged on movably the Connection Block 2 on the supporting seat 1, can vertically be arranged on movably the mounting panel 3 on the Connection Block 2, can be arranged on rotationally up and down the support plate of living finished product in the jack that also can insert finished product 9 on the mounting panel 3 with support, can drive the first driving mechanism that Connection Block 2 moves, the second driving mechanism that can drive installation plate 3 moves, can drive the 3rd driving mechanism that the support plate rotates, being arranged on the supporting seat 1 and being positioned at support plate below can be for flux bath 4 and the tin liquor stove 5 that scolding tin haptic element 15 stretches into for the treatment of of finished product 9, flux bath 4 and tin liquor stove 5 along Connection Block 2 to move horizontally direction spaced.This automatic tin soldering device is when work, the first driving mechanism drives Connection Block 2 levels and moves forward, move to the position for the treatment of scolding tin finished product place with the support plate on the mounting panel 3, the support plate inserts in the jack of finished product 9, mobile straight up on Connection Block 2 by the second driving mechanism mounting panel 3, then support plate support plays finished product 9, be that finished product 9 is along with the support plate raises, in order to guarantee stably support finished product 9 of support plate, the support plate extends along the direction that moves horizontally of Connection Block 2, then Connection Block 2 levels retreat, come the position of flux bath 4, realize the up and down rotation of support plate on mounting panel 3 by the 3rd driving mechanism, thereby the scolding tin haptic element 15 for the treatment of with finished product 9 both sides can insert in the flux bath 4 down respectively, be stained with scaling powder, then Connection Block 2 moves horizontally the position of coming tin liquor stove 5 again, equally, the up and down rotation of support plate on mounting panel 3, the scolding tin haptic element 15 for the treatment of with finished product 9 both sides can insert in the tin liquor stove 5 down respectively, finish scolding tin, the operation of this scolding tin can be finished by automation equipment, saves time and manually, enhances productivity.
In Fig. 1, the first driving mechanism, the second driving mechanism include cylinder, be fixedly installed the cylinder body of cylinder 7 on the supporting seat 1, the expansion link of cylinder 7 extends along the direction that moves horizontally of Connection Block 2, the expansion link of cylinder 7 and Connection Block 2 fix setting, be fixedly installed the cylinder body of cylinder 8 on the Connection Block 2, the expansion link of cylinder 8 extends along the vertical moving direction of mounting panel 3, the expansion link of cylinder 8 and mounting panel 3 fix setting, like this, flexible by expansion link on cylinder 7, the cylinder 8 realized the vertical movement of the moving horizontally of Connection Block 2, mounting panel 3.In other execution mode, the first driving mechanism, the second driving mechanism also can cooperate to realize by motor, leading screw the vertical movement of the moving horizontally of Connection Block, mounting panel with nut.
In Fig. 2, the 3rd driving mechanism comprises the motor 10 that is fixed on the mounting panel 3, the first gear 11, tooth bar 12, the second gear 13, be fixed with motor 10 on the mounting panel 3, motor 10 has the output shaft that direction is extended that moves horizontally along Connection Block 2, fixed cover is provided with the first gear 11 on this output shaft, the first gear 11 is meshed with tooth bar 12 and is connected, tooth bar 12 can be arranged on the mounting panel 3 movably, tooth bar 12 also is meshed with the second gear 13 and is connected, the second gear 13 fixed covers are located on the rotation axis 14, offer perforate on the mounting panel 3, rotation axis 14 is inserted in the perforate, support plate and rotation axis 14 fix setting, and the support plate extends along the direction that moves horizontally of Connection Block 2.Like this, motor 10 drives the first gear 11 and rotates, by tooth bar 12, drive to the second gear 13, drive rotation axis 14 and rotate, namely the support plate is realized rotating up and down, thereby can spin upside down with the finished product with scolding tin, finish smoothly the scolding tin for the treatment of scolding tin haptic element 15 of finished product both sides.
After finished product 9 scolding tin are finished, finished product 9 need to separate from the support plate, when the support plate is lived finished product 9 by the jack support of inserting finished product 9, have at least part to be lower than mounting panel 3 or support plate on the finished product 9, be provided with discharging seat 6 on the supporting seat 1, as shown in Figure 1, discharging seat 6 can be lower than towards the direction conflict finished product 9 that finished product 9 and support plate are separated the part of mounting panel 3 or described support plate, and realization finished product 9 separates with the support plate.Be provided with the blanking inclined-plane 22 that is positioned at discharging seat 6 belows on the supporting seat 1, can guide finished product 9 to fall by blanking inclined-plane 22, so that the finished product 9 that is soldered tin is with after the support plate separates, along 22 landings of blanking inclined-plane to storage location.
In Fig. 1 and 7, the scrap belt material collecting device, comprise bracing frame 31, rotation is arranged on the looping disk 32 that is used for rolling scrap belt 35 on the bracing frame 31, be arranged on the bracing frame 31 and be positioned at the inductor 34 of the upstream below of looping disk 32, be arranged on the drive motors 33 on the bracing frame 31, the rotational axis line along continuous straight runs of looping disk 32 extends, and coincide with the central axis of this looping disk 32, the output shaft of drive motors 33 is fixedly installed on the center of looping disk 32, drive motors 33 can rotate with looping disk 32 like this, rolling scrap belt 35, the above mentions, inductor 34 is positioned at the below, upstream of looping disk 32, inductor 34 can contact with sagging scrap belt 35, then send run signal to drive motors 33, after drive motors 33 receives the run signal of inductor 34, outputting power is to looping disk 32, that is to say, after producing scrap belt 35, scrap belt 35 increases gradually, the scrap belt 35 that increases can be sagging, after touching inductor 34, inductor 34 sends run signal to motor 33, motor 33 drives looping disk 32 and rotates, motor 33 can the operation setting-up times, for example 5 seconds or 10 seconds etc., and this setting-up time those skilled in the art can come to select as the case may be, then looping disk 32 can wind up the scrap belt 35 that produces, after surpassing setting-up time, motor 33 can be out of service, and then looping disk 32 also can stop to reel, until the new scrap belt that produces is abundant, thereby sagging touch inductor after, motor just can drive looping disk 32 and again rotate, the coiling scrap belt.Looping disk 32 has the hopper 36 that connects along circumferential direction in peripheral surface, hopper 36 can stably be accommodated scrap belt 35, because scrap belt 35 is wound on the looping disk 32, can reduce like this reservoir volume of waste material, and scrap belt cooperating by inductor and motor, realize that automatic winding on looping disk, does not need manual operation, then rewinding is convenient.
Claims (10)
1. that uses terminal material belt production fires injection moulding, punch forming and scolding tin system from a standing position, all have a plurality of perforation in the dual-side section of described strip, described a plurality of perforation arranges separately along the length direction of described strip, it is characterized in that: this system comprises successively from the upstream to the downstream
Can automatically spur described strip moves also and a described strip can be cut apart the automatic slitting machine that forms two billot tape cells at Width;
Can on described two billot tape cells, injection moulding form the injection molding machine of firing from a standing position that product also can spur described strip cell moving automatically;
Can form finished product and scrap belt and can automatically spur the automatic punching machine that described scrap belt moves described product punching press, described finished product has jack, and described finished product has the outwardly directed scolding tin haptic element for the treatment of in the two opposite outer that is positioned at described jack both sides;
Can automatically get described finished product and then the described scolding tin haptic element for the treatment of be carried out the automatic tin welding machine of soldering flux applying, scolding tin.
2. use terminal material belt according to claim 1 production fires injection moulding from a standing position, punch forming and scolding tin system, it is characterized in that: described automatic slitting machine comprises supporting base, can be contained in the looping disk that rotates to discharge strip on the described supporting base, be arranged on the chute feeder that to accommodate described strip on the work top of described supporting base, be arranged on described chute feeder bottom land at the locational lower cutter corresponding with position to be cut on the described strip, the upper slitter that can be arranged on up or down on the described supporting base and can match described strip is cut with described lower cutter, can be arranged on movably forward and backward the material feeding seat on the described supporting base, be positioned at the keeper of described chute feeder top, be arranged on the elastic component that this keeper elastic-restoring force can be provided between described material feeding seat and the described keeper, described chute feeder distributes along the fore-and-aft direction of described work top, and connect at this fore-and-aft direction, the relative left and right sides cell wall of described chute feeder all extends laterally at the position that joins with bottom land, formation can be accommodated described strip both sides of the edge also can be so that the guide passage that a plurality of continuously arranged described perforation in this strip dual-side section is exposed, have before backward gradually downward-sloping setting on the described keeper and can insert the lug boss of the perforation of exposing described guide passage, be provided with on the described supporting base and can drive the first driving mechanism that described material feeding seat moves forward and backward, can drive the second driving mechanism that described upper slitter moves up and down.
3. use terminal material belt according to claim 2 production fires injection moulding from a standing position, punch forming and scolding tin system, it is characterized in that: described the first driving mechanism, described the second driving mechanism includes cylinder, the cylinder body of described cylinder all is fixedly installed on the described supporting base, the expansion link of the cylinder of described the first driving mechanism and described material feeding seat fix setting, this expansion link distributes along the direction that moves forward and backward of described material feeding seat, the expansion link of the cylinder of described the second driving mechanism and described upper slitter fix setting, and this expansion link distributes along the direction that moves up and down of described upper slitter.
4. use terminal material belt according to claim 1 production fires injection moulding from a standing position, punch forming and scolding tin system, it is characterized in that: the described injection molding machine of firing from a standing position comprises the supporting seat that has work top and can carry out injection moulding at described work top, the guide platform that can be arranged on up and down on the described supporting seat and distribute along the fore-and-aft direction of described work top, be positioned at described guide platform top and can be arranged on movably along the fore-and-aft direction of described work top positioning seat on the described supporting seat, has the chute feeder that to accommodate described two billot tape cells on the described guide platform, described chute feeder extends along the fore-and-aft direction of described work top, and connect at this fore-and-aft direction, the relative left and right sides cell wall of described chute feeder all extends laterally at the position that joins with bottom land, formation can be accommodated described two billot tape cell lateral edges also can be so that the guide passage that a plurality of continuously arranged described perforation on this strip unit side portion is exposed, be provided with the contact pin that can insert in the perforation of exposing described guide passage on the described positioning seat downwards, be provided with the lift drive mechanism that can drive the lifting of described guide platform on the described supporting seat, what can drive that described positioning seat moves draws the material driving mechanism.
5. use terminal material belt according to claim 4 production fires injection moulding from a standing position, punch forming and scolding tin system, it is characterized in that: described lift drive mechanism comprises cylinder, the cylinder body of described cylinder is fixedly installed on the described supporting seat, the expansion link of described cylinder and described guide platform fix setting, this expansion link distributes along the lifting direction of described guide platform, the described material driving mechanism that draws comprises Rodless cylinder, mobile cylinder body and the described positioning seat of described Rodless cylinder fix setting, this moves the moving direction of cylinder body along the moving direction distribution of described positioning seat, and the cylinder barrel of described Rodless cylinder is fixedly installed on the described supporting seat.
6. use terminal material belt according to claim 1 production fires injection moulding from a standing position, punch forming and scolding tin system, it is characterized in that: described automatic punching machine comprises the supporting seat with work top, can be arranged on movably along the left and right directions of described work top the counterdie on the described work top, can be arranged on up or down on the described supporting seat and also can cooperate the patrix that described product is carried out punching press with described counterdie, can be arranged on up or down on the described supporting seat and lay respectively at posterolateral guide platform before its work top, can be arranged on movably forward and backward on the described supporting seat and be positioned at drawing of described guide platform top and expect seat, all has chute feeder on the described guide platform, described chute feeder extends along the front and back horizontal direction, and connect in this front and back horizontal direction, the relative left and right sides cell wall of described chute feeder all extends laterally at the position that joins with bottom land, in the chute feeder of described work top rear side guide platform, form and to accommodate in the described product two billot tape cell lateral edges and so that the guide passage that a plurality of continuously arranged described perforation on this strip unit side portion is exposed, in the chute feeder of described work top front side guide platform, form and to accommodate described scrap belt lateral edges also so that the guide passage that a plurality of continuously arranged described perforation on this scrap belt is exposed, the described contact pin that is provided with on the material seat in the perforation that can insert scrap belt side portion in the described chute feeder downwards that draws is provided with on the described supporting seat and can drives the 3rd driving mechanism that described patrix moves up and down, can drive the 4 wheel driven actuation mechanism that described guide platform moves up and down, can drive described the 5th driving mechanism that draws the material seat to move forward and backward, can drive the counterdie driving mechanism of described counterdie move left and right.
7. use terminal material belt according to claim 6 production fires injection moulding from a standing position, punch forming and scolding tin system, it is characterized in that: described the 3rd driving mechanism, described 4 wheel driven actuation mechanism, described counterdie driving mechanism includes cylinder, the cylinder body of described cylinder all is fixedly installed on the described supporting seat, the expansion link of the cylinder of described the 3rd driving mechanism and described patrix fix setting, this expansion link distributes along the direction that moves up and down of described patrix, the expansion link of the cylinder of described 4 wheel driven actuation mechanism and described guide platform fix setting, this expansion link distributes along the direction that moves up and down of described guide platform, the expansion link of the cylinder of described counterdie driving mechanism and described counterdie fix setting, this expansion link distributes along the move left and right direction of described counterdie, described the 5th driving mechanism comprises Rodless cylinder, the mobile cylinder body of described Rodless cylinder and the described material seat that draws fix setting, and distribute along the described direction that moves forward and backward of material seat of drawing, the cylinder barrel of described Rodless cylinder is fixedly installed on the described supporting seat.
8. use terminal material belt according to claim 1 production fires injection moulding from a standing position, punch forming and scolding tin system, it is characterized in that: described automatic tin welding machine comprises supporting seat, can be arranged on movably Connection Block on the described supporting seat along the left and right horizontal direction, can vertically be arranged on movably the mounting panel on the described Connection Block, can be arranged on rotationally up and down the support plate of stating finished product in the jack that also can insert described finished product on the described mounting panel with the support residence, can drive the 6th driving mechanism that described Connection Block moves, can drive the 7th driving mechanism that described mounting panel moves, can drive the 8th driving mechanism that described support plate rotates, being arranged on the described supporting seat and being positioned at described support plate below can be for flux bath and the tin liquor stove that the scolding tin haptic element stretches into for the treatment of of described finished product, and described flux bath and tin liquor stove are spaced along the left and right horizontal moving direction of described Connection Block.
9. use terminal material belt according to claim 8 production fires injection moulding from a standing position, punch forming and scolding tin system, it is characterized in that: described the 6th driving mechanism, described the 7th driving mechanism includes cylinder, be fixedly installed the cylinder body of the cylinder of described the 6th driving mechanism on the described supporting seat, the expansion link of this cylinder distributes along the left and right horizontal moving direction of described Connection Block, and fix setting with described Connection Block, be fixedly installed the cylinder body of the cylinder of described the 7th driving mechanism on the described Connection Block, the expansion link of this cylinder distributes along the vertical moving direction of described mounting panel, and fix setting with described mounting panel, described the 8th driving mechanism comprises the motor that is fixed on the described mounting panel, the first gear, tooth bar, the second gear, described motor has the output shaft that extends along the left and right horizontal moving direction of described Connection Block, fixed cover is provided with described the first gear on this output shaft, described the first gear is meshed with described tooth bar and is connected, described tooth bar can be arranged on the described mounting panel movably, described tooth bar also is meshed with described the second gear and is connected, described the second gear fixed cover is located on the rotation axis, offer perforate on the described mounting panel, described rotation axis is inserted in the described perforate, described support plate and described rotation axis fix setting, and described support plate extends along the left and right horizontal moving direction of described Connection Block.
10. use terminal material belt according to claim 1 production fires injection moulding from a standing position, punch forming and scolding tin system, it is characterized in that: described system also comprises the scrap belt material collecting device, described scrap belt material collecting device comprises bracing frame, rotation is arranged on the looping disk that is used for the described scrap belt of rolling on the support frame as described above, the upstream below that is arranged on the support frame as described above and is positioned at described looping disk can contact with sagging scrap belt and then send the inductor of run signal, be arranged on the drive motors that then run signal that can receive described inductor on the support frame as described above starts the operation setting-up time, the rotational axis line along continuous straight runs of described looping disk extends, and coincide with the central axis of this looping disk, the output shaft of described drive motors is fixedly installed on the center of described looping disk.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201110181469.6A CN102856760B (en) | 2011-06-30 | 2011-06-30 | Vertical injection molding, punch forming and tin soldering system for production using terminal material strips |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201110181469.6A CN102856760B (en) | 2011-06-30 | 2011-06-30 | Vertical injection molding, punch forming and tin soldering system for production using terminal material strips |
Publications (2)
| Publication Number | Publication Date |
|---|---|
| CN102856760A true CN102856760A (en) | 2013-01-02 |
| CN102856760B CN102856760B (en) | 2014-12-10 |
Family
ID=47403079
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CN201110181469.6A Active CN102856760B (en) | 2011-06-30 | 2011-06-30 | Vertical injection molding, punch forming and tin soldering system for production using terminal material strips |
Country Status (1)
| Country | Link |
|---|---|
| CN (1) | CN102856760B (en) |
Cited By (11)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN104917035A (en) * | 2015-07-02 | 2015-09-16 | 吴中区横泾博尔机械厂 | Pin inserting lower support mold mechanism for adjustable pin inserting machines |
| CN104979739A (en) * | 2015-07-02 | 2015-10-14 | 吴中区横泾博尔机械厂 | Pin feeding stepping apparatus of adjustable pin insertion machine |
| CN105075034A (en) * | 2013-02-22 | 2015-11-18 | 古河电气工业株式会社 | Terminal manufacturing apparatus, and welding apparatus |
| CN106514005A (en) * | 2017-01-05 | 2017-03-22 | 江苏大学 | Method and equipment for building nickel protective screen through double-face laser ablation of electric coupler terminal |
| CN108032005A (en) * | 2018-01-23 | 2018-05-15 | 广东新科炬机械制造有限公司 | A kind of multicore soldering tin wire extruder |
| CN109205244A (en) * | 2018-10-09 | 2019-01-15 | 凯尔信汽车零部件(京山)有限公司 | A kind of pre-inserted shear of material of band assembly |
| CN109434337A (en) * | 2018-12-19 | 2019-03-08 | 浙江大学自贡创新中心 | A kind of feeding device when the beam welding for carrier roller of belt conveyer |
| CN111755841A (en) * | 2020-06-16 | 2020-10-09 | 温州市力博电子有限公司 | Wiring terminal and production process thereof |
| CN112467494A (en) * | 2020-12-14 | 2021-03-09 | 湖南汽车工程职业学院 | Bending and cutting machine for automobile connector terminals |
| CN116191163A (en) * | 2023-05-04 | 2023-05-30 | 江西海桦电子有限公司 | Pin forming machine |
| CN108032005B (en) * | 2018-01-23 | 2024-04-30 | 广东新科炬机械制造有限公司 | Multicore soldering tin wire extruder |
Citations (10)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| JPH01157078A (en) * | 1987-12-11 | 1989-06-20 | Matsushita Electric Ind Co Ltd | Manufacture of conductor with insulator |
| JPH06205522A (en) * | 1992-08-07 | 1994-07-22 | Alcatel Cable | Coating and molding machine of device of submarine link, its application and device coated with the coating and molding machine |
| CN1301070A (en) * | 1999-12-23 | 2001-06-27 | 富士康(昆山)电脑接插件有限公司 | Raw material band of terminals and method for producing terminals |
| JP2003206071A (en) * | 2002-01-11 | 2003-07-22 | Toyota Industries Corp | Filament winding device |
| CN2923269Y (en) * | 2006-07-18 | 2007-07-18 | 品翔电通股份有限公司 | Horizontal jet-out forming machine |
| CN200967102Y (en) * | 2006-11-14 | 2007-10-31 | 富港电子(东莞)有限公司 | Iron case cutting machine |
| CN201120513Y (en) * | 2007-11-27 | 2008-09-24 | 东莞市众信电子涂装自动化设备厂 | Automatic tin soldering machine |
| CN201411275Y (en) * | 2009-06-18 | 2010-02-24 | 桐乡市万达利电器有限公司 | Time delay stopping device of wire winding machine |
| CN101908703A (en) * | 2009-06-05 | 2010-12-08 | 富港电子(东莞)有限公司 | Automatic soldering machine and soldering method thereof |
| CN201711413U (en) * | 2010-03-25 | 2011-01-19 | 河南鸿马实业有限公司 | Hole punching machine |
-
2011
- 2011-06-30 CN CN201110181469.6A patent/CN102856760B/en active Active
Patent Citations (10)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| JPH01157078A (en) * | 1987-12-11 | 1989-06-20 | Matsushita Electric Ind Co Ltd | Manufacture of conductor with insulator |
| JPH06205522A (en) * | 1992-08-07 | 1994-07-22 | Alcatel Cable | Coating and molding machine of device of submarine link, its application and device coated with the coating and molding machine |
| CN1301070A (en) * | 1999-12-23 | 2001-06-27 | 富士康(昆山)电脑接插件有限公司 | Raw material band of terminals and method for producing terminals |
| JP2003206071A (en) * | 2002-01-11 | 2003-07-22 | Toyota Industries Corp | Filament winding device |
| CN2923269Y (en) * | 2006-07-18 | 2007-07-18 | 品翔电通股份有限公司 | Horizontal jet-out forming machine |
| CN200967102Y (en) * | 2006-11-14 | 2007-10-31 | 富港电子(东莞)有限公司 | Iron case cutting machine |
| CN201120513Y (en) * | 2007-11-27 | 2008-09-24 | 东莞市众信电子涂装自动化设备厂 | Automatic tin soldering machine |
| CN101908703A (en) * | 2009-06-05 | 2010-12-08 | 富港电子(东莞)有限公司 | Automatic soldering machine and soldering method thereof |
| CN201411275Y (en) * | 2009-06-18 | 2010-02-24 | 桐乡市万达利电器有限公司 | Time delay stopping device of wire winding machine |
| CN201711413U (en) * | 2010-03-25 | 2011-01-19 | 河南鸿马实业有限公司 | Hole punching machine |
Cited By (16)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN105075034A (en) * | 2013-02-22 | 2015-11-18 | 古河电气工业株式会社 | Terminal manufacturing apparatus, and welding apparatus |
| CN105075034B (en) * | 2013-02-22 | 2018-04-24 | 古河电气工业株式会社 | Terminal manufacture device and welder |
| US9985405B2 (en) | 2013-02-22 | 2018-05-29 | Furukawa Automotive Systems Inc. | Terminal manufacturing apparatus and welding apparatus |
| CN104979739A (en) * | 2015-07-02 | 2015-10-14 | 吴中区横泾博尔机械厂 | Pin feeding stepping apparatus of adjustable pin insertion machine |
| CN104917035A (en) * | 2015-07-02 | 2015-09-16 | 吴中区横泾博尔机械厂 | Pin inserting lower support mold mechanism for adjustable pin inserting machines |
| CN106514005A (en) * | 2017-01-05 | 2017-03-22 | 江苏大学 | Method and equipment for building nickel protective screen through double-face laser ablation of electric coupler terminal |
| CN106514005B (en) * | 2017-01-05 | 2018-04-03 | 江苏大学 | The method and equipment of nickel screen barrier are established in a kind of electric connector terminal double-sided laser ablation |
| CN108032005B (en) * | 2018-01-23 | 2024-04-30 | 广东新科炬机械制造有限公司 | Multicore soldering tin wire extruder |
| CN108032005A (en) * | 2018-01-23 | 2018-05-15 | 广东新科炬机械制造有限公司 | A kind of multicore soldering tin wire extruder |
| CN109205244A (en) * | 2018-10-09 | 2019-01-15 | 凯尔信汽车零部件(京山)有限公司 | A kind of pre-inserted shear of material of band assembly |
| CN109434337B (en) * | 2018-12-19 | 2024-03-29 | 浙江大学自贡创新中心 | Feeding device used for welding carrier roller cross beams of belt conveyor |
| CN109434337A (en) * | 2018-12-19 | 2019-03-08 | 浙江大学自贡创新中心 | A kind of feeding device when the beam welding for carrier roller of belt conveyer |
| CN111755841A (en) * | 2020-06-16 | 2020-10-09 | 温州市力博电子有限公司 | Wiring terminal and production process thereof |
| CN112467494A (en) * | 2020-12-14 | 2021-03-09 | 湖南汽车工程职业学院 | Bending and cutting machine for automobile connector terminals |
| CN112467494B (en) * | 2020-12-14 | 2022-02-08 | 湖南汽车工程职业学院 | Bending and cutting machine for automobile connector terminals |
| CN116191163A (en) * | 2023-05-04 | 2023-05-30 | 江西海桦电子有限公司 | Pin forming machine |
Also Published As
| Publication number | Publication date |
|---|---|
| CN102856760B (en) | 2014-12-10 |
Similar Documents
| Publication | Publication Date | Title |
|---|---|---|
| CN102856760B (en) | Vertical injection molding, punch forming and tin soldering system for production using terminal material strips | |
| CN211071475U (en) | Digit control machine tool mould punching press mechanism | |
| CN110033905A (en) | A kind of cable recyclable device | |
| CN202199877U (en) | Automatic tin-soldering device | |
| CN102873257B (en) | Chain joint assembling method | |
| CN102938474A (en) | Parallelly connected piece packing mechanism of battery plate | |
| CN216161597U (en) | Novel full-automatic wire winding, peeling and tinning machine for flat wire | |
| CN207857685U (en) | Metal material belt punching mechanism | |
| CN201761892U (en) | Power battery current collector feeding machine | |
| CN202412347U (en) | Multi-row program-controlled automatic punching and cutting machine | |
| CN202352774U (en) | Automatic sleeving machine | |
| CN102848040B (en) | Automatic soldering device | |
| CN211386562U (en) | Continuous punching press mechanism of runway lamp inner cup | |
| CN214176090U (en) | Double-station battery core forming equipment | |
| CN201261277Y (en) | Perforating, splitting and sash forming machine for paper pallet paper surface | |
| CN211915144U (en) | Refrigerant bottle base stretching device capable of automatically feeding and discharging | |
| CN204486601U (en) | A kind of induction type diel and panel positioning device thereof | |
| CN203428081U (en) | Smoke laminated packaging machine | |
| CN201456081U (en) | Automatic forming device of insertion element short leg | |
| CN202725738U (en) | Material belt buffer device for ganged punching | |
| CN111889563A (en) | Cable wire transmission assembly processing production customization is equipped | |
| CN202935981U (en) | Automatic discharge mechanism of copper foil roll | |
| CN220161455U (en) | Tapping machine feeding mechanism with guide structure | |
| CN204523979U (en) | A kind of open enclosure continuous producing apparatus of long cylindrical roller bearing | |
| CN204632633U (en) | A kind of switch contact blow-out grid automatic processing device |
Legal Events
| Date | Code | Title | Description |
|---|---|---|---|
| C06 | Publication | ||
| PB01 | Publication | ||
| C10 | Entry into substantive examination | ||
| SE01 | Entry into force of request for substantive examination | ||
| C14 | Grant of patent or utility model | ||
| GR01 | Patent grant |