CN103124041B - The mechanism realizing terminal transmission, cut and insert - Google Patents

Abstract

The invention provides a kind of mechanism realizing terminal transmission, cut and insert, it comprises material strip conveyer and cuts insertion apparatus, described in cut insertion apparatus comprises slide, the lobe plate be positioned on slide, actuating cam plate seesaw the first cylinder, sliding is arranged at the tool rest of slide front end, the cutting knife be installed on tool rest, is positioned at workbench below tool rest.The described insertion apparatus that cuts also comprises the sliding shoe connecting tool rest and lobe plate, described lobe plate is provided with the track groove that left and right is run through, the described insertion apparatus that cuts comprises the fixed axis be fixed on sliding shoe, and described fixed axis comprises the roller be slidably arranged in described track groove.Can complete cutting of terminal by means of only a cylinder moving and assemble, can realize full-automatic production, decrease manpower and use, improve production efficiency and reduce production cost, mechanism structure of the present invention is simple, stability is high and low cost of manufacture.

Description

The mechanism realizing terminal transmission, cut and insert

Technical field

The present invention relates to the cylinder mechanism of a kind of connector assembling, relate to a kind of mechanism realizing terminal transmission, cut and insert by it.

Background technology

Electric connector has been widely used in being electrically connected between each electronic component in various electronic equipment.General electric connector usually include some carry out Signal transmissions conducting terminal and carrying fix the plastic body of this conducting terminal.Plastic body by injection mo(u)lding, thus is generally all manufacture separately one by one.Conducting terminal is normally by carrying out stamping forming method manufacture by metal material belt, metal material belt punching press by entire volume forms the terminal material belt of entire volume, and then the length needed for concrete electric connector cuts, again the terminal material belt of the predetermined length under cutting is installed in plastic body afterwards, finally makes required electric connector.

Usually, the making technology of connector device matching terminal, generally through transmitting, cut, insert three technological processes, production process need consume a large amount of manpower, improves production cost; As needs realize automated production, each action need use a cylinder, i.e. terminal transmission, cut, the action of inserting needs use three cylinders altogether, make the automatically controlled program of automatic assembling machine device complicated and installation time increase, the mechanism of this structure, its complex structure, run action is loaded down with trivial details, have a strong impact on production efficiency, improve production cost.

Therefore, be necessary a kind of terminal transmission of improvement to be provided, to cut and insert mechanism to solve the problem.

Summary of the invention

The mechanism the object of the present invention is to provide the simple and easily manufactured terminal transmission of a kind of structure, cutting and insert.

For achieving the above object, the invention provides one and realize terminal transmission, the mechanism cutting and insert, it comprises material strip conveyer and cuts insertion apparatus, the described insertion apparatus that cuts comprises slide, be positioned the lobe plate on slide, the first cylinder that actuating cam plate seesaws, slide and be arranged at the tool rest of slide front end, be installed on the cutting knife on tool rest, be positioned at the workbench below tool rest, the described insertion apparatus that cuts also comprises the sliding shoe connecting tool rest and lobe plate, described lobe plate is provided with the track groove that left and right is run through, the described insertion apparatus that cuts comprises the fixed axis be fixed on sliding shoe, described fixed axis comprises the roller be slidably arranged in described track groove.

As a further improvement on the present invention, described slide comprise be recessed to form from left to right one before and after extend installing space, described lobe plate is contained in described installing space, and slide also comprises the vertical slots run through up and down, and described sliding shoe is vertically contained in described vertical slots.

As a further improvement on the present invention, described slide comprises the assembling grove caving in backward from front end and extend, described assembling grove and described vertical slots connect, and described sliding shoe front end is provided with the recess corresponding with assembling grove, and described tool rest extends in recess through described assembling grove.

As a further improvement on the present invention, described lobe plate is provided with first, second stopper slot that described lobe plate is run through in the left and right being positioned at track groove rear end, the described insertion apparatus that cuts comprises first, second positioning sliding block, in the middle part of first, second positioning sliding block described, fixing has first, second slide unit be contained in respectively in first, second stopper slot described respectively, described first stopper slot is positioned at the top of the second stopper slot, and the length of first, second positioning sliding block above-below direction described is identical.

As a further improvement on the present invention, the below of first, second positioning sliding block described is provided with corresponding first, second and moves block, and one end that first, second positioning sliding block described can move block from first, second respectively moves to the other end that first, second moves block.

As a further improvement on the present invention, the described insertion apparatus that cuts comprises bootstrap block, described lobe plate rear end is provided with the extension slot run through up and down, described extension slot top be provided with outwards run through hold opening, described bootstrap block comprises the blocked block be vertically contained in described extension slot, be positioned at the track projection on the left of blocked block and connect the contiguous block of blocked block and track projection, described track projection can drive described blocked block to be moved downward to downwards to be contained in described extension slot completely, simultaneously described contiguous block be contained in described in hold in opening.

As a further improvement on the present invention, described sliding base rear end is provided with the recessed groove to lower recess, described recessed groove rear end is provided with the breach running through and be connected with installing space downwards, and described track projection is positioned at the outside of described slide, and described blocked block is positioned at the rear of described breach.

As a further improvement on the present invention, the described insertion apparatus that cuts comprises the fixed arm be positioned at above bootstrap block, described fixed arm is provided with the runner be resisted against on described track projection, and described track projection comprises the first paragraph track of level and the second segment track extended that is inclined upwardly from front to back respectively.

As a further improvement on the present invention, the described insertion apparatus that cuts comprises the housing being installed on described slide side, described lobe plate is between described slide and described housing, described slide opposite side is provided with location-plate, described location-plate is provided with left and right to be run through and the rectangular through slot extended along the longitudinal direction, described slide is provided with the guide vane end stop that can move forward and backward along groove.

As a further improvement on the present invention, described material strip conveyer comprises material strip transfer cylinder, first fixed block, be installed on the first pressing plate on the first fixed block, the second fixed block being installed on the first fixed block top right-hand member and the second pressing plate be installed on above the second fixed block, form the first material strip between described first pressing plate and the first fixed block and transfer passage, form the second material strip between described second pressing plate and the second fixed block and transfer passage, described first, second material strip transfer passage left and right is through and be located in the same horizontal plane, described first pressing plate is provided with and runs through up and down and the shifting chute be positioned at above described first material strip transfer passage, described material strip conveyer also comprises the material toggling block being driven movement in left-right direction by cylinder, described material toggling block is provided with the convex and tip part extending into the first material strip transfer passage through shifting chute, terminal accommodation groove is formed between described workbench and tool rest, described second material strip transfer passage and terminal accommodation groove left and right through and be located in the same horizontal plane.

The invention has the beneficial effects as follows: terminal transmission of the present invention, cut and insert mechanism and can complete cutting of terminal by means of only a cylinder moving and assemble, full-automatic production can be realized, decrease manpower to use, improve production efficiency and reduce production cost, mechanism structure of the present invention is simple, stability is high and low cost of manufacture.

Accompanying drawing explanation

Fig. 1 is the stereogram of mechanism that the present invention realizes terminal transmission, cuts and insert;

Fig. 2 is the stereogram of the material strip conveyer in mechanism shown in Fig. 1;

Fig. 3 is the view of another angle of material strip conveyer in Fig. 2;

Fig. 4 is the decomposed figure of material strip conveyer in Fig. 2;

Fig. 5 is the decomposed figure of another angle of material strip conveyer in Fig. 4;

Fig. 6 is the stereogram cutting insertion apparatus in mechanism shown in Fig. 1;

Fig. 7 is the view of another angle cutting insertion apparatus in Fig. 6;

Fig. 8 is the decomposed figure cutting insertion apparatus in Fig. 6;

Fig. 9 is another part exploded view cutting insertion apparatus in Fig. 6;

Figure 10 is the another decomposed figure cutting insertion apparatus in Fig. 6.

Embodiment

Describe the present invention below with reference to each execution mode shown in the drawings.But these execution modes do not limit the present invention, the structure that those of ordinary skill in the art makes according to these execution modes, method or conversion functionally are all included in protection scope of the present invention.

Please refer to shown in Fig. 1, the present invention realizes terminal transmission, the mechanism 100 cutting and insert is in order to be sent to assigned address by terminal material belt (not shown), again part terminal (not shown) is cut from terminal material belt, finally, terminal group is loaded in plastic body (not shown), it comprises the base 7 of level, be installed on the mounting panel 8 above base 7, be installed on mounting panel 8 rear end and perpendicular to the baffle plate 9 of mounting panel 8, be installed on the material strip conveyer 1 of mounting panel 8 and cut insertion apparatus 2, described material strip conveyer 1 with cut insertion apparatus 2 and to have cooperatively interacted above-mentioned action.

Consult further shown in Fig. 2 to Fig. 5, described material strip conveyer 1 comprises the fixed station 10 being installed on mounting panel 8, be fixed on material strip transfer cylinder 11 and the material strip transfer device (not shown) of fixed station 10 rear end, described material strip moves cylinder 11 and comprises the cylinder connector 112 of cylinder 111 and in " Γ " type, described cylinder connector 112 can reciprocating motion in left-right direction under the effect of cylinder 111, described cylinder connector 112 comprises the vertical block 1121 that is positioned at and is connected on the left of cylinder 111 and with cylinder 111 and from vertical block 1121 top vertically extending horizontal block 1122 to the right.

Described material strip transfer device 1 also comprises the material strip transfer bed 12 and material strip push part 13 that are installed on fixed station 10 top.Described material strip transfer bed 12 comprises the first fixed block 121 being fixed on fixed station 10 top, the first pressing plate 122 be installed on the first fixed block 121, the second fixed block 123 being installed on the first fixed block 121 top right-hand member and the second pressing plate 124 be installed on above the second fixed block 123.Described first fixed block 121 top is provided with and upwards extends and protrude out the adjutage 125 of described first fixed block 121 to the right and be positioned at the boss 126 on the first fixed block 121 top.Described boss 126 is in the left side of described adjutage 125 and form a draw-in groove 127 between described boss 126 and adjutage 125.The upper surface of described boss 126 is lower than the upper surface of described first adjutage 125.Described adjutage 125 front end is provided with to lower recess and the first groove 1251 run through forward.Described first pressing plate 122 is installed on the top of described adjutage 125, and forms the first material strip between the front end of described first pressing plate 122 and described first groove 1251 and transfer passage 1250.Described first pressing plate 122 front end is provided with to be run through and the shifting chute 1221 extended in left-right direction up and down, and described shifting chute 1221 is positioned at the top of described first material strip transfer passage 1250.Described second fixed block 123 comprises the main part 1230 being installed on boss 126, main body 1230 right-hand member is to downward-extension and the card article 1231 be contained in described draw-in groove 127 and extend to lower recess from described main part 1230 front end and run through forward the second groove 1232 of described main part 1230, described card article 1231 limits described second fixed block 123 and moves left and right, the bottom surface of described second groove 1232 is concordant with the bottom surface of described first groove 1251, the rear end face of described second groove 1232 is concordant with the rear end face of described first groove 1251, described second pressing plate 124 comprises the mounting panel 1241 that is installed on described second boss 126 and extends into the clamping plate portion 1242 in described second groove 1232 downward vertically from mounting panel 1241 front end.Described clamping plate portion 1242 is resisted against the rear end face of described second groove 1242 backward.Form the second material strip between described clamping plate portion 1242 and described second groove 1232 and transfer passage 1240.It is through and be located in the same horizontal plane that described first material strip transfer passage 1250 and described second material strip transfer passage about 1240.

Described material strip push part 13 comprises fixed head 131, be installed on the movable block 132 of fixed head 131 and be installed on the material toggling block 133 of movable block 132.Described fixed head 131 bottom is provided with stretches and the holding tank 1311 that runs through of left and right to fovea superior.The horizontal block 1122 of described cylinder connector 112 is immobilizated in described holding tank 1311, described horizontal block 1122 drives the reciprocating motion in left-right direction of described fixed head 131, described fixed head 131 top is provided with the extension board 1312 that forward horizontal extends, described movable block 132 comprises the level board 1321 being upwards installed on described extension board 1312 bottom and the installation portion 1322 extended downward vertically from level board 1321 rear end, described movable block 132 is positioned at the top of described second pressing plate 124, described fixed head 131 drives the reciprocating motion in left-right direction of described movable block 132, the installation portion 1322 of described movable block 132 is provided with pre-and post perforative installing hole (not shown), described material toggling block 133 comprise roughly rectangular base portion 1331 and from base portion 1331 right-hand member to the convex and tip part 1332 of downward-extension, described base portion 1331 is provided with pre-and post perforative shoulder hole 1333, described shoulder hole 1333 is corresponding with before and after described installing hole and hold pin (not shown) by one and interfix, described movable block 132 drives the reciprocating motion in left-right direction of described material toggling block 133, the thickness of described convex and tip part 1332 fore-and-aft direction is less than the width of described shifting chute 1221 fore-and-aft direction, described convex and tip part 1332 extends in described first material strip transfer passage 1250 through described shifting chute 1221, described convex and tip part 1332 can move left and right in shifting chute 1221, described convex and tip part 1332 can support downwards be contained in described first material strip transfer passage 1250 in terminal material belt on.

Please refer to shown in Fig. 6 to Figure 10, the described insertion apparatus 2 that cuts comprises the first cylinder 6, be fixed on the location-plate 20 of described mounting panel 8, slide the slide 21 be arranged on the left of described location-plate 20, be installed on the housing 27 on the left of described slide 21, lobe plate 23 between described slide 21 and cover plate 22, be installed on the bootstrap block 24 on described lobe plate 23, be installed on the fixed arm 25 that described baffle plate 9 also extends forward, sliding shoe 26, be installed on the tool rest 28 of described sliding shoe 26 front end, be fixed on slide 21 bottom and extend forwardly beyond the back-up block 29 of slide 21, described first cylinder 6 can move reciprocatingly along the longitudinal direction.

Described slide 21 is roughly rectangular, it comprises and is recessed to form an installing space 210 from left to right, run through the vertical slots 211 of described slide 21 up and down, cave in from slide 21 front end assembling grove 212 backward that extend, in installing space 210 left and right run through described slide 21 and the guide groove 213 extended along the vertical direction and be roughly positioned in the middle part of described slide 21 from installing space 210 continue to the right cave in and rectangle first rail groove 214 run through up and down, described installing space 210 upper end wall rear end is provided with the recessed groove 215 to lower recess, described recessed groove 215 backward and run through described slide 21 to the left, described recessed groove 215 rear end is provided with the breach 216 running through and be connected with installing space 210 downwards, described assembling grove 212 extends back and to connect with described vertical slots 211, described guide groove 213 is mutually through with described vertical slots 211, described first rail groove 214 is positioned at the rear of described vertical slots 211.

Described lobe plate 23 is roughly in tabular, the installing space 210 that described lobe plate 23 is installed on described slide 21 is interior and movable in described installing space 210, described lobe plate 23 comprises the support slot 231 run through backward, described first cylinder 6 comprises being fastened in and pushes bar 61 in support slot 231, described lobe plate 23 described push the drive of bar 61 under can move along the longitudinal direction, described lobe plate 23 front end is provided with the track groove 232 that left and right is run through, first of described lobe plate 23 is run through about being positioned at track groove 232 rear, second stopper slot 233, 234, the track bearing of trend of described track groove 232 is for extending from front to back and from up to down extending, described first stopper slot 233 is positioned at the top of described second stopper slot 234, the track bearing of trend of described first stopper slot 233 is from front to back and extends from top to bottom, namely the front end of described first stopper slot 233 is positioned at the top of rear end, the track bearing of trend of described second stopper slot 234 is from front to back and extends from bottom to top, namely the front end of described second stopper slot 234 is positioned at the below of rear end.The rear end of described lobe plate 23 is provided with the extension slot (not shown) run through up and down, described extension slot top be provided with outwards run through hold opening 2351.

Described bootstrap block 24 comprise vertically be contained in described extension slot and extend downwards described extension slot blocked block 241, the track projection 242 extended along the longitudinal direction, connect the contiguous block (not shown) between blocked block 241 and track projection 242 and be installed on blocked block 241 bottom with the latch part 249 preventing described blocked block 241 from upwards departing from described extension slot on the left of blocked block 241.Elastic device is provided with between described bootstrap block 24 and described extension slot, the blocked block 241 of described bootstrap block 24 is on initial convex top of stretching out described extension slot, be contained in described extension slot completely when described blocked block 241 being driven to move down under the External Force Acting that described track projection 242 compresses downwards, now, described contiguous block be contained in described in hold in opening 2351.The end face of described track projection 242 is irregularly shaped, and it comprises the first paragraph track 2421 of level and the second segment track 2422 extended that is inclined upwardly from front to back respectively.When described lobe plate 23 is installed on described slide 21, described track projection 242 is positioned at the outside of described slide 21, and the part of described blocked block 241 described extension slot protruding upward is positioned at the rear of described breach 216.

Described fixed arm 25 lies along forward in the recessed groove 215 of described slide 21, is provided with the runner 251 being installed on described fixed arm 25 on the left of described fixed arm 25, and described runner 251 is downwards against the front end of the first paragraph track 2421 of described track projection 242.

Described location-plate 20 lower surface is fixed on described mounting panel 8, described location-plate 20 rear end is fixed on described baffle plate 9, described location-plate 20 comprises and to cave in the right from left side and to run through forward the rectangular slide groove 201 of the location-plate 20 do not run through backward and left and right is run through and the rectangular through slot 202 extended along the longitudinal direction, described sliding tray 201 is positioned at the top of described groove 202, slide 21 is provided with and is fixed on the right side of slide 21 and the rectangular shaped slider 51 be contained in sliding tray 201, described location-plate 20 is provided with the upper and lower sides that is positioned at slide block 51 blend stop 52 in order to block slide block 51, to prevent, described slide block 51 is outer departs from described sliding tray 201, described slide 21 can drive described slide block 51 movable in described sliding tray 201 when moving along the longitudinal direction.Described slide 21 is also provided with and is fixed on slide 21 and the guide vane end stop 53 extending described location-plate from described groove 202 to the right, a pair block 531 that the described guide vane end stop 53 of restriction moves forward and backward distance is installed on the right side of described location-plate 20, described guide vane end stop 53 when described slide 21 moves along the longitudinal direction, can be driven movable in described groove 202.When described guide vane end stop 53 move forward to be resisted against on block 531 time, described slide block still retaining part is contained in described sliding tray 201, and can not depart from forward described sliding tray 201.When initial position, described guide vane end stop 53 is positioned at the rear end of described groove 202.

Described sliding shoe 26 is in a rectangle, described sliding shoe 26 is vertically contained in the vertical slots 211 of described slide 21, and described sliding shoe 26 slides up and down in vertical slots 211, sliding shoe 26 front end is provided with depression backward and extends and the recess 261 corresponding with before and after the assembling grove 212 of described slide 21, the described insertion apparatus 2 that cuts is provided with and is contained in described guide groove 213 and runs through the fixed axis 54 of described sliding shoe 26, described fixed axis 54 can drive described sliding shoe 26 to move up and down along the track of guide groove 213, the left end of described fixed axis 54 is provided with the roller 541 of slip, described roller 541 is contained in the track groove 232 of described lobe plate 23, described roller 541 can along the orbiting motion of described track groove 232.

Described housing 27 is installed on the left side of described lobe plate 23, described lobe plate 23 is held between described slide 21 and housing 27, be provided with depression and run through the second rail groove 271 of described housing 27 up and down left on the right side of described housing 27, described first rail groove 214 is corresponding with the second rail groove about 271.

Cut insertion apparatus 2 and comprise the first positioning sliding block 55 be contained in the first rail groove 214 and the second positioning sliding block 56 be contained in the second rail groove 271, described first, second positioning sliding block 55, 56 can along first, second rail groove 214, 271 slide up and down, described first, second positioning sliding block 55, 56 is identical in the length of vertical direction, described first, second positioning sliding block 55, 56 are respectively equipped with and run through from middle part and to be contained in described first, second stopper slot 233, in 234 first, second slide unit 551, 561, described first, second slide unit 551, 561 can respectively along described first, second stopper slot 233, the track of 234 slides, drive described first simultaneously, second positioning sliding block 55, 56 move.Because described first stopper slot 233 is positioned at the top of described second stopper slot 234, so when initial position, described first positioning sliding block 55 is positioned at the top of described second positioning sliding block 56.When initial position, first, second slide unit 551,561 described lays respectively at the front end of first, second stopper slot 233,234 described.

Described tool rest 28 is contained in the recess 261 of described sliding shoe 26 through the assembling grove 212 of described slide 21, described sliding shoe 26 can drive described tool rest 28 to move up and down, described tool rest 28 the terminal material belt cutting knife 281 protruding out described tool rest 28 is downwards installed.

The part that back-up block 29 protrudes described slide 21 is provided with the moving part 291 running through setting up and down, elastic construction is provided with in described moving part 291 and described back-up block 29, described moving part 291 can relative to described back-up block 29 resilient movement downwards, described moving part 291 top is fixed with workbench 292, described workbench 292 is positioned at the below of described tool rest 28, described workbench 292 front end is concordant with the front end of tool rest 28, terminal accommodation groove 290 is defined between described workbench 292 and tool rest 28, described cutting knife 281 is positioned at the right side of described workbench 292, it is mutually through and be located in the same horizontal plane that described terminal accommodation groove 290 and described second material strip transfer passage 1240.

Cut insertion apparatus 2 be also provided be fixed on mounting panel 8 first, second move block 31,32, described first, second moves the front that block 31,32 is positioned at corresponding first, second positioning sliding block 55,56 described, described first positioning sliding block 55 is positioned at the top that described first moves block 31, and described second positioning sliding block 56 and described second moves block 32 and partly overlaps at above-below direction.When initial position, described second positioning sliding block 56 is resisted against forward the rear end that described second moves block 32, described first, second moves block 31,32 can interlock mutually, described first, second moves between block 31,32 and mounting panel 8 and is provided with elastic device, automatically can pop up after the power pressed down disappears.

Operation principle of the present invention is:

Described terminal material belt right-to-left puts into described first material strip transfer passage 1250, described material strip transfer cylinder 11 repeatedly moves in left-right direction and drives described material toggling block about 133 repeatedly to move, the convex and tip part 1332 of described material toggling block 133 protrudes in the first material strip transfer passage 1250 holds material strip to hook, thus drive material strip to move, pushed by terminal material belt right-to-left, terminal material belt moves in the second material strip transfer passage 1240 from the first material strip transfer passage 1250.

Described material strip conveyer 1 continues terminal material belt to transmit to the right, until after terminal is positioned at described terminal accommodation groove 290 completely, first cylinder 6 responds, in present embodiment, the signal that puts in place detects by PLC or single-chip microcomputer and controls described first cylinder 6 start, describedly push lobe plate 23 described in bar 61 driven forward, because described second positioning sliding block 56 is resisted against forward the rear end that described second moves block 32, so housing 27 and slide 21 cannot move forward, the track groove 232 of described lobe plate 23 compresses the roller 541 of described fixed axis 54 downwards, fixed axis 54 drives described sliding shoe 26 to move down, and then drive tool rest 28 and cutting knife 281 to move down, terminal completely cuts by cutting knife 281 from material strip, and terminal is pressed on described workbench 292 downwards by tool rest 281, described workbench 292 can upwards elastic movement, so described tool rest 281 and workbench 292 can be firm clamp terminal.

The described bar 61 that pushes continues to push forward described lobe plate 23, the blocked block 241 of described bootstrap block 24 moves forward the rear end of the breach 216 being resisted against described slide 21, first stopper slot 233 of described lobe plate 23 compresses the first positioning sliding block 55 downwards, described second stopper slot 234 upwards raises the second positioning sliding block 56, described first positioning sliding block 55 is downwards by first, second moves block 31, 32 compress downwards, described second moves the below that block 32 is positioned at described second positioning sliding block 56, described blocked block 241 pushes forward described slide 21 and travels forward, drive described tool rest 281 to move forward with workbench 292 simultaneously, until described guide vane end stop 53 moves to the front end of described groove 202 and is resisted against forward on described block 531, simultaneously the runner 251 of described fixed arm 25 is downwards against the rear end of the first paragraph track 2421 of described track projection 242, now, described first moves block 31 pops up block in the rear end of described first positioning sliding block 55, second positioning sliding block 56 is positioned at the top that described second moves block 32, now, slide 21 now cannot move along the longitudinal direction.

Described plastic body is positioned at the below of terminal, the described bar 61 that pushes continues to push forward described lobe plate 23, the second segment track 2422 of described track projection 242 is an inclined ramp, described track projection 242 drives blocked block 241 to be contained in completely in extension slot downwards, now, lobe plate 23 can continue to move forward, the track groove 232 of described lobe plate 23 continues the roller 541 compressing described fixed axis 54 downwards, fixed axis 54 drives described sliding shoe 26 to move straight down, and then drive tool rest 281 and workbench 292 and the terminal that clamps to move down, so that terminal is fit in described plastic body.

Cut insertion apparatus 2 to reset, the described bar 61 that pushes pulls back lobe plate 24, because described first moves block 31 block in the rear end of described first positioning sliding block 55, described slide 21 cannot move backward, now lobe plate 23 drives described tool rest 281 to move up, simultaneously, described second positioning sliding block 56 compresses described second downwards and moves block 32, described first, second moves block 31, 32 downward resilient movement, first stopper slot 233 of lobe plate 23 drives described first positioning sliding block 55 to move to described first and moves the rear of block 31 and drive described slide 21 to move backward, until described guide vane end stop 53 moves to the rear end of described groove 202 and is resisted against on described block 531 backward, now second move block 32 and pop up, second positioning sliding block 56 is positioned at described second and moves block 32 rear, now slide 21 cannot move along the longitudinal direction.Lobe plate 23 continues moving belt moving knife seat 281 backward and returns to initial position, can enter next circulation.

By obtaining above, terminal transmission of the present invention, cut and insert mechanism 100 and only need a cylinder 6 can complete cutting of terminal and assemble, full-automatic production can be realized, decrease manpower to use, improve production efficiency and reduce production cost, mechanism structure of the present invention is simple, stability is high and low cost of manufacture.

Be to be understood that, although this specification is described according to execution mode, but not each execution mode only comprises an independently technical scheme, this narrating mode of specification is only for clarity sake, those skilled in the art should by specification integrally, technical scheme in each execution mode also through appropriately combined, can form other execution modes that it will be appreciated by those skilled in the art that.

A series of detailed description listed is above only illustrating for feasibility execution mode of the present invention; they are also not used to limit the scope of the invention, all do not depart from the skill of the present invention equivalent implementations done of spirit or change all should be included within protection scope of the present invention.

Claims (10)

1. one kind realizes terminal transmission, the mechanism cutting and insert, it comprises material strip conveyer and cuts insertion apparatus, it is characterized in that: described in cut insertion apparatus and comprise slide, be positioned the lobe plate on slide, the first cylinder that actuating cam plate seesaws, slide and be arranged at the tool rest of slide front end, be installed on the cutting knife on tool rest, be positioned at the workbench below tool rest, the described insertion apparatus that cuts also comprises the sliding shoe connecting tool rest and lobe plate, described lobe plate is provided with the track groove that left and right is run through, the described insertion apparatus that cuts comprises the fixed axis be fixed on sliding shoe, described fixed axis comprises the roller be slidably arranged in described track groove.

2. the mechanism realize terminal transmission as claimed in claim 1, cutting and insert, it is characterized in that: described slide comprise be recessed to form from left to right one before and after extend installing space, described lobe plate is contained in described installing space, slide also comprises the vertical slots run through up and down, and described sliding shoe is vertically contained in described vertical slots.

3. the mechanism realize terminal transmission as claimed in claim 2, cutting and insert, it is characterized in that: described slide comprises the assembling grove caving in backward from front end and extend, described assembling grove and described vertical slots connect, described sliding shoe front end is provided with the recess corresponding with assembling grove, and described tool rest extends in recess through described assembling grove.

4. the mechanism realize terminal transmission as claimed in claim 1, cutting and insert, it is characterized in that: described lobe plate is provided with first, second stopper slot that described lobe plate is run through in the left and right being positioned at track groove rear end, the described insertion apparatus that cuts comprises first, second positioning sliding block, in the middle part of first, second positioning sliding block described, fixing has first, second slide unit be contained in respectively in first, second stopper slot described respectively, described first stopper slot is positioned at the top of the second stopper slot, and the length of first, second positioning sliding block above-below direction described is identical.

5. the mechanism realize terminal transmission as claimed in claim 4, cutting and insert, it is characterized in that: the below of first, second positioning sliding block described is provided with corresponding first, second and moves block, and one end that first, second positioning sliding block described can move block from first, second respectively moves to the other end that first, second moves block.

6. realize terminal transmission as claimed in claim 2, the mechanism cutting and insert, it is characterized in that: described in cut insertion apparatus and comprise bootstrap block, described lobe plate rear end is provided with the extension slot run through up and down, described extension slot top be provided with outwards run through hold opening, described bootstrap block comprises the blocked block be vertically contained in described extension slot, be positioned at track projection on the left of blocked block and connect the contiguous block of blocked block and track projection, described track projection can drive described blocked block to be moved downward to downwards to be contained in described extension slot completely, simultaneously described contiguous block be contained in described in hold in opening.

7. the mechanism realize terminal transmission as claimed in claim 6, cutting and insert, it is characterized in that: described sliding base rear end is provided with the recessed groove to lower recess, described recessed groove rear end is provided with the breach running through and be connected with installing space downwards, described track projection is positioned at the outside of described slide, and described blocked block is positioned at the rear of described breach.

8. the mechanism realize terminal transmission as claimed in claim 6, cutting and insert, it is characterized in that: described in cut insertion apparatus and comprise the fixed arm be positioned at above bootstrap block, described fixed arm is provided with the runner be resisted against on described track projection, and described track projection comprises the first paragraph track of level and the second segment track extended that is inclined upwardly from front to back respectively.

9. the mechanism realize terminal transmission as claimed in claim 1, cutting and insert, it is characterized in that: described in cut insertion apparatus and comprise the housing being installed on described slide side, described lobe plate is between described slide and described housing, described slide opposite side is provided with location-plate, described location-plate is provided with left and right to be run through and the rectangular through slot extended along the longitudinal direction, described slide is provided with the guide vane end stop that can move forward and backward along groove.

10. realize terminal transmission as claimed in claim 1, the mechanism cutting and insert, it is characterized in that: described material strip conveyer comprises material strip transfer cylinder, first fixed block, be installed on the first pressing plate on the first fixed block, the second fixed block being installed on the first fixed block top right-hand member and the second pressing plate be installed on above the second fixed block, form the first material strip between described first pressing plate and the first fixed block and transfer passage, form the second material strip between described second pressing plate and the second fixed block and transfer passage, described first, second material strip transfer passage left and right is through and be located in the same horizontal plane, described first pressing plate is provided with and runs through up and down and the shifting chute be positioned at above described first material strip transfer passage, described material strip conveyer also comprises the material toggling block being driven movement in left-right direction by cylinder, described material toggling block is provided with the convex and tip part extending into the first material strip transfer passage through shifting chute, terminal accommodation groove is formed between described workbench and tool rest, described second material strip transfer passage and terminal accommodation groove left and right through and be located in the same horizontal plane.