CN105826788A - Terminal and internal frame combination machine - Google Patents

Abstract

The invention provides a terminal and internal frame combination machine. A rear processing machine of the existing connection terminal riveter is provided, and the rear processing machine mainly comprises a machine setting. With the machine, a semi-finished product produced after a stripped wire and a terminal are riveted can be systematically integrated with an internal frame feeder, and a joint assembly machine sequentially assembles semi-finished terminals and internal frame materials one by one, thus achieving automatic and efficient production.

Description

Terminal and internal frame unit mahine

Technical field

The present invention relates to a kind of plug spare part and manufacture machine, espespecially a kind of terminal and internal frame unit mahine.

Background technology

The manufacture of general attaching plug, electric wire is first positioned over the conveying crawler belt preset of a peeling riveting line machine by its previous operations often, it is taken up in order of priority and carries out peeling and (one end of electric wire will divest the rubber being cladded with, and make heart yearn naked go out), then carry out the electric wire riveting after this terminal and peeling is formed terminal semi-finished product.

Again due to plug ejection formation, it will usually carrying out internal frame combination operation, the combination operation of this internal frame is mainly the most affixed with these terminal semi-finished product with wire rack material in, in order to the injection molding operation of follow-up plastic shell.

But terminal semi-finished product are fixed on internal frame in advance, it is extended through this internal frame respectively, even utilize the mechanism of clamping or other Primary Location to reach to have been manually done by terminal semi-finished product often.

By aforementioned sight, owing to production equipment and the flow process that a kind of terminal semi-finished product are quickly fixed on internal frame cannot be set up, the most also have influence on the continuity of riveting line operation.Produce progressive slow thus and be short of the production efficiency of one-stop operation.

Summary of the invention

Because prior art institute art weak point, designer of the present invention proposes the means of a kind of solution, and these means are about a kind of terminal and internal frame unit mahine, it is characterised in that including:

One internal frame feeder: include a charging tray, this charging tray connects an internal frame delivery chute, forms one first transport path along this internal frame delivery chute；This charging tray is for placing the interior wire rack material of plural number, to be at one's beck and call or to force each interior wire rack material to be advanced along this first transport path；

One terminal wire riveting machine: include a conveying crawler belt and a terminal wire riveting machine body, the outer rim of this conveying crawler belt is provided with plural number placing trough separately, plant for plural number electric wire or terminal semi-finished product, this conveying crawler belt forms one second transport path in actuator state, and this terminal wire riveting machine body is located at one section of portion of this second transport path；

The most charge-coupled vertical machine: be located at this first transport path and the end of this second transport path, vertical for the plural terminals semi-finished product on this conveying crawler belt to be carried out respectively group with each interior wire rack material；

One power take-off unit: include a motor, this motor power connects a body of rod, and this body of rod arranges one first cam set and one second cam set separately；The one first interlinked mechanism component power of not moving connects this first cam set and this terminal wire riveting machine, the one second interlinked mechanism component power of not moving connects this second cam set and this meeting charge-coupled power unit, drives this terminal wire riveting machine and this meeting charge-coupled power unit to carry out start for during this motor start by each cam set and each interlinked mechanism group.

In described terminal and internal frame unit mahine: being additionally provided with a power take-off unit, this power take-off unit includes a motor, and this motor power connects a body of rod, and this body of rod arranges one first cam set and one second cam set separately；The one first interlinked mechanism component power of not moving connects this first cam set and this terminal wire riveting machine, the one second interlinked mechanism component power of not moving connects this second cam set and this meeting charge-coupled power unit, drives this terminal wire riveting machine and this meeting charge-coupled power unit to carry out start for during this motor start by each cam set and each interlinked mechanism group.

In described terminal and internal frame unit mahine: this terminal wire riveting machine includes one first supply unit, this first supply unit includes a pedestal, this pedestal is arranged over the casting die of this first interlinked mechanism group of a connection, this casting die bottom surface is provided with one away from one section of portion of this conveying crawler belt and lacks portion, to make this casting die and this pedestal jointly define a track, and this bottom surface, scarce portion is provided with a chute；One slide block is located in this track, this the first interlinked mechanism group connects this slide block for driving this slide block to do traverse motion along this track, this slide block end face wears downwards two-phase Spaced perforations, it is respectively equipped with a cylinder in each perforation, the top of each cylinder is respectively equipped with a guide wheel, and each guide wheel relative to the end face of this slide block formed naked go out, when this casting die is suppressed downwards, each guide wheel is received respectively and is located in this chute, and the other end of each cylinder be respectively relative to the bottom surface of this slide block formed naked go out and common these terminal semi-finished product of clipping.

In described terminal and internal frame unit mahine: this first cam set includes one first cam and one second cam, this the first interlinked mechanism group includes one first interlinked mechanism and one second interlinked mechanism, this first interlinked mechanism connects this first cam and this casting die respectively, drive this casting die that this pedestal and each guide wheel from top to bottom carry out direct or indirect compacting for this first cam by this first interlinked mechanism, this second interlinked mechanism connects this second cam and this traction piece respectively, this slide block is driven to carry out for this second cam by this second interlinked mechanism traverse motion.

Described terminal with in internal frame unit mahine: vertical to also setting one first spring, one end of this first spring connects the outside of this first interlinked mechanism, and the other end is fixedly arranged on a fixture.

In described terminal and internal frame unit mahine: the charge-coupled vertical machine of this meeting is provided with one first piece under pressure, this first piece under pressure is positioned at this second transport path end, the end of this first piece under pressure includes the first fork, the second fork, third fork part, the dual-side of this second fork forms the hypotenuse from top to bottom swum outside to inside, and have groove between this first fork and second fork, and have groove between this second fork and third fork part, this the second interlinked mechanism group connects this first piece under pressure, does vertical to moving back and forth for interlocking this first piece under pressure；One transverse-moving mechanism is located at this first transport path end, one Lifting bench is located at below this first piece under pressure, and it is positioned at a side of this transverse-moving mechanism, this transverse-moving mechanism is available for will be located in the interior wire rack material of this first transport path end and is delivered to this Lifting bench, this the second interlinked mechanism group connects this Lifting bench, does vertical to moving back and forth for interlocking this Lifting bench.

In described terminal and internal frame unit mahine: this second cam set includes one the 3rd cam and one the 4th cam, this the second interlinked mechanism group includes one the 3rd interlinked mechanism and one the 4th interlinked mechanism, 3rd interlinked mechanism connects the 3rd cam and this Lifting bench respectively, and the 4th interlinked mechanism connects the 4th cam and this first piece under pressure respectively.

Described terminal with in internal frame unit mahine: vertical to setting one second spring and one the 3rd spring, this second spring one end connects a fixture, the other end connects the 3rd interlinked mechanism, and the 3rd spring one end connects this fixture, and the other end connects the 4th interlinked mechanism.

In described terminal and internal frame unit mahine: set one first detecting control unit at this first transport path end, this the first detecting control unit is electrically connected with this internal frame feeder, what this first detecting control unit was available for detecting the interior wire rack material of this transport path end has stateless, controls the start of this internal frame feeder.

In described terminal and internal frame unit mahine: be additionally provided with one second detecting control unit at this Lifting bench, this the second detecting control unit is electrically connected with this motor, this the second detecting control unit is available for detecting this interior wire rack material and is positioned over the situation of this Lifting bench, to decide whether that controlling this motor stops start.

The present invention can provide the rearmounted machine table of existing linking terminal wire riveting machine, electric wire after peeling and terminal can be carried out produced terminal semi-finished product and interior wire rack material after riveting line operation by this board, carry out group at the charge-coupled vertical machine of meeting vertical, reach the production operation of automatization, efficient activity.

Accompanying drawing explanation

Fig. 1 is the outside drawing of the present invention；

Fig. 2 is the side perspective view of the present invention；

Fig. 3 is the power take-off unit of the present invention, meeting charge-coupled vertical machine, the schematic diagram of the first supply unit；

Fig. 4 is power take-off unit and the casting die connection relationship schematic diagram of the present invention；

Fig. 5 is power take-off unit and the slide block connection relationship schematic diagram of the present invention；

Fig. 6 is the close-up schematic view of the K3 position of the first supply unit shown in Fig. 4 of the present invention；

Fig. 7 is power take-off unit and the Lifting bench connection relationship schematic diagram of the present invention；

Fig. 8 is power take-off unit and the first piece under pressure connection relationship schematic diagram of the present invention；

Fig. 9 is the relative position view respectively detecting control unit, transverse-moving mechanism and Lifting bench of the present invention；

Figure 10 is the enlarged partial sectional view of the K4 position of the terminal wire riveting machine shown in Fig. 7 of the present invention；

Figure 11 be the present invention Fig. 2 shown in terminal wire riveting machine side view in K2 position partial enlarged drawing；

Figure 12 be the present invention Fig. 1 in can the K1 position partial enlarged drawing of charge-coupled vertical machine.

Description of reference numerals: A-terminal and internal frame unit mahine；B-terminal semi-finished product；B1-two-terminal dice；1-internal frame feeder；11-charging tray；12-internal frame delivery chute；2-terminal wire riveting machine；21-terminal wire riveting machine body；22-carries crawler belt；221-placing trough；23-the first supply unit；230-cylinder；231-pedestal；232-casting die；232A-the first casting die；232B-the second casting die；233-lacks portion；234-guide wheel；235-track；236-pressing part；237A-spring；237B-spring；238-slide block；239-bores a hole；24-the 3rd detecting unit；3-power take-off unit；31-motor；The 32-body of rod；33-the first cam set；331-the first cam；332-the second cam；333-the 5th cam；34-the second cam set；341-the 3rd cam；342-the 4th cam；35-the first interlinked mechanism group；351-the first interlinked mechanism；352-the second interlinked mechanism；353-the first spring；354-the 5th interlinked mechanism；36-the second interlinked mechanism group；361-the 3rd interlinked mechanism；362-the 4th interlinked mechanism；363-spring；364-spring；4-can charge-coupled vertical machine；41-the first piece under pressure；411-the first fork；412-the second fork；413-third fork part；Groove between 414-；Groove between 415-；42-transverse-moving mechanism；43-Lifting bench；44-the second piece under pressure；46-pushing tow platform；5-first detects control unit；6-second detects control unit.

Detailed description of the invention

Below by graphic auxiliary, the structure of the present invention, feature and embodiment are described, make your audit crew have for the present invention and further understand.

Referring to shown in Fig. 1, the present invention is about a kind of terminal and internal frame unit mahine A, including:

One internal frame feeder 1:

Refer to Fig. 1 and coordinate shown in Fig. 3, this internal frame feeder 1 includes a charging tray 11, this charging tray 11 connects an internal frame delivery chute 12, one first transport path is formed along this internal frame delivery chute 12, this internal frame feeder 1 is with vibrations or with means such as conveying mechanisms, and in ordering about or forcing the plural number in this charging tray 11, wire rack material C moves along this first transport path.

One terminal wire riveting machine 2:

Refer to Fig. 1 and coordinate shown in Fig. 2, Fig. 3, Fig. 4, Fig. 5 and Fig. 6, this terminal wire riveting machine 2 includes a conveying crawler belt 22, this conveying crawler belt 22 forms one second transport path in actuator state, the outer rim of this conveying crawler belt 22 is provided with plural number placing trough 221 separately, places for plural number electric wire or terminal semi-finished product B.This terminal wire riveting machine 2 also includes a terminal wire riveting machine body 21, this terminal wire riveting machine body 21 is located at one section of portion of this second transport path, and wherein the terminal semi-finished product B of this specification indication refers to electric wire product after this terminal wire riveting machine body 21 carries out riveting line with two-terminal dice B1.

This terminal wire riveting machine 2 further includes one first supply unit 23, and this first supply unit 23 is located at one section of portion of this second transport path, and between this terminal wire riveting machine body 21 and this second transport path end.This first supply unit 23 includes a pedestal 231, this pedestal 231 is arranged over a casting die 232, this casting die 232 bottom surface is provided with one away from one section of portion of this conveying crawler belt 22 and lacks portion 233, to make this casting die 232 jointly define a track 235 with this pedestal 231, and this pedestal 231 defines a pressing part 236 adjacent to the apical margin of this conveying crawler belt 22 between this scarce portion 233 jointly, this pressing part 236 is available for two-terminal dice B1 of this terminal semi-finished product B and places.The terminal semi-finished product B exported due to this terminal wire riveting machine body 21, two-terminal dice B1 easily has the situation that height is uneven, and the unfavorable charge-coupled vertical machine 4 of aftermentioned meeting that this terminal semi-finished product B and this interior wire rack material C carries out group is vertical, hence this, this terminal semi-finished product B is suppressed by the present invention by this casting die 232, and it can be made the most smooth.

This first supply unit 23 still includes a slide block 238, and this slide block 238 is drawn by external force for this slide block 238 in being located at this track 235, and carries out traverse motion in this track 235.This slide block 238 end face wears downwards two-phase Spaced perforations 239, it is respectively equipped with a cylinder 230 in each perforation 239, and each cylinder 230 end face is provided with a guide wheel 234, and each guide wheel 234 relative to the end face of this slide block 238 formed naked go out, hence this, when this casting die 232 is suppressed downwards, can form compacting to each guide wheel 234, each cylinder 230 be then one end move down and relative to the bottom surface of this slide block 238 formed naked go out, and then make two cylinder 230 one end separately can clamp this two-terminal dice B1.Hence this, carry out clipping by two cylinders 230 separately to this two-terminal dice B1, then coordinates the traction of this conveying crawler belt 22, and make this terminal semi-finished product B obtain this second transport path end in the past and move.

In addition, please also refer to shown in Fig. 6, Figure 10 and Figure 11, present pre-ferred embodiments is that this casting die 232 includes one first casting die 232A and one second casting die 232B, this first casting die 232A is to provide and suppresses this two-terminal dice B1, and worn a hole corresponding with this slide block 238 towards bottom surface by end face, and this second casting die 232B is located in this hole for suppressing this slide block 238.Hence this, this terminal wire riveting machine A preferably start flow process is: this first casting die 232A is driven by the first interlinked mechanism 351 described later and suppresses this two-terminal dice B1 downwards, then while this first casting die 232A moves up, this second casting die 232B is driven by the 5th interlinked mechanism 354 described later and suppresses this guide wheel 234 downwards, and make two cylinder 230 clippings separately live this two-terminal dice B1 as aforementioned, finally this slide block 238 coordinates this conveying crawler belt 22 this two-terminal dice B1 to be moved toward this second transport path end.And in Figure 11, the 237A effect of this spring is to provide jacking force when this first casting die 232A moves up, and this spring 237B same be to provide the jacking force that this second casting die 232B moves up.

And for making each cylinder 230 have preferably clipping power and degree of stability to this two-terminal dice B1, this cylinder 230, this guide wheel 234, the quantity of this perforation 239 are preferably three, centrally located cylinder 230 is the central space through this two-terminal dice B1, and it is then two sides laying respectively at this two-terminal dice B1 in two cylinders 230.Additionally, coordinate this slide block 238 must move the quantity of this terminal semi-finished product B simultaneously, the quantity of this cylinder 230 is preferably the multiple of 3.

One power take-off unit 3:

Referring to Fig. 3 and coordinate shown in Fig. 1, this power take-off unit 3 includes a motor 31, and this motor 31 power connects a body of rod 32, and this body of rod 32 arranges one first cam set 33 and one second cam set 34 separately.One first interlinked mechanism group 35 power respectively connects this first cam set 33 and this terminal wire riveting machine 2, and one second interlinked mechanism group 36 power respectively connects this second cam set 34 and the charge-coupled vertical unit 4 of meeting described later.Hence this, when this motor 31 start, by each cam set 33,34 and each interlinked mechanism group 35,36, can drive this terminal wire riveting machine 2 and the charge-coupled vertical unit 4 of this meeting to carry out start.Additionally, it is worth mentioning that the start of this motor 31 is preferably mated with this terminal wire riveting machine 2.

The most charge-coupled vertical machine 4:

Referring to Fig. 3 and coordinate shown in Fig. 7, Fig. 8, Fig. 9 and Figure 12, the charge-coupled vertical machine 4 of this meeting is located at this first transport path and the end of this second transport path, vertical for the plural terminals semi-finished product B on this conveying crawler belt 22 carries out group respectively with each interior wire rack material C.And the charge-coupled vertical machine 4 of this meeting mainly includes one first piece under pressure 41 and one second piece under pressure 44, this first piece under pressure 41 and this second piece under pressure 44 are respectively positioned on the second transport path end, and side on rear side of this second piece under pressure 44, and the end of this first piece under pressure 41 includes the first to a third fork part 411,412,413, the dual-side of this second fork 412 forms the hypotenuse of from top to bottom ecto-entad, and have between groove 414 between, and this second fork 412 and third fork part 413 between this first fork 411 and second fork 412 and have groove 415 between.This second piece under pressure 44 is then that the dual side-edge of root edge is formed from top to bottom and the hypotenuse of ecto-entad.

The charge-coupled vertical machine 4 of this meeting still includes transverse-moving mechanism 42, Lifting bench 43 and a pushing tow platform 46, this transverse-moving mechanism 42 is located at this first transport path end, this Lifting bench 43 and this pushing tow platform 46 are then provided at below this first piece under pressure 41, and it is positioned at a side of this transverse-moving mechanism 42, and this Lifting bench 43 and this pushing tow platform 46 are when pushing tow, this pushing tow platform 46 is positioned at this Lifting bench 43 rear, and this transverse-moving mechanism 42 is available for will be located in the interior wire rack material C of this first transport path end and moves to this Lifting bench 43.nullThis terminal semi-finished product B of this second transport path end is first delivered to the charge-coupled vertical machine 4 of this meeting by this slide block 238，Then this pushing tow platform 46 inclination that first upwards this two-terminal dice B1 of pushing tow makes，Then，This first piece under pressure 41 and this second piece under pressure 44 are suppressed downwards，This first piece under pressure 41 is the middle compacting of two electric wires，This two electric wire is made to move to this groove 414 along the rim of this second fork 412、In 415，The formation made separates，This second piece under pressure 44 is then compacting in the middle of this two-terminal dice B1，Make rotates 90 degree toward left and right directions respectively，Then by this Lifting bench 43 upwards by this interior wire rack material C jacking to this second transport path end，This terminal semi-finished product B is made to fall into the corresponding breach of this interior wire rack material C，To complete the assembling of this terminal semi-finished product B and interior wire rack material C.

The following is and first introduce this first cam set 33 and this first interlinked mechanism group 35:

Referring to Fig. 3 and coordinate shown in Fig. 4 and Fig. 5, this first cam set 33 includes one first cam 331 and one second cam 332, and each cam 331,332 is the one section of portion being located at this body of rod 32 separately.This first interlinked mechanism group 35 includes one first interlinked mechanism 351 and one second interlinked mechanism 352, this first interlinked mechanism 351 connects this first cam 331 and this casting die 232 respectively, to make this first interlinked mechanism 351 by the drive of this first cam 331, and this casting die 232 is affected to carry out moving back and forth of above-below direction.In addition, the outside of this first interlinked mechanism 351 preferably connects one end of one first spring 353, the other end of this first spring 353 is then fixedly arranged on a fixture, elastic restoring force by this first spring 353, this first cam 331 is made to be easier to drive this first interlinked mechanism 351 to move back and forth up and down, this terminal and internal frame unit mahine A, all can be as the uses of this fixture in addition to this first interlinked mechanism 351.This second interlinked mechanism 3 connects this second cam and this slide block respectively, when rotating for this second cam 332, drives this slide block 238 to carry out traverse motion by this second interlinked mechanism 352.

In addition, this the first interlinked mechanism group 35 preferably includes one the 5th interlinked mechanism 354, and this first cam set 33 preferably includes the 5th cam 333 of connection the 5th interlinked mechanism 354, and the 5th interlinked mechanism 354 connects and interlocks this second casting die 232B moves back and forth up and down, and this first interlinked mechanism 351 preferably connects and interlocks this first casting die 232A moves back and forth up and down.

The following is and introduce this second cam set 34 and this second interlinked mechanism group 36:

Refer to Fig. 3 and coordinate Fig. 7, shown in Fig. 8, this second cam set 34 includes one the 3rd cam 341, and one the 4th cam 342, this the second interlinked mechanism group 36 includes one the 3rd interlinked mechanism 361, and one the 4th interlinked mechanism 362, 3rd interlinked mechanism 361 connects the 3rd cam 341 and this Lifting bench 43 respectively, by the 3rd cam 341 and the 3rd interlinked mechanism 361, it is available for driving this Lifting bench 43 to carry out vertical to movement, 4th interlinked mechanism 362 connects the 4th cam 342 respectively, and this first piece under pressure 41, by the 4th interlinked mechanism 362, and the 4th cam 342, it is available for driving this first piece under pressure 41 to carry out vertical to movement.

In addition, for making this first piece under pressure 41 and this Lifting bench 43 have pressure and the effect of pushing tow down, further it is respectively perpendicular to setting a spring 363,364, this spring 363 one end connects this fixture, the other end connects the 3rd interlinked mechanism 361, and one end of this spring 364 connects this fixture, and the other end connects the 4th interlinked mechanism 362, by the elastic force of this spring 363,364, to promote aforesaid effect.

Coordinate shown in Fig. 9 referring again to Fig. 1, the present invention the most also can be embodied as: sets one first detecting control unit 5 in this first transport path end, this the first detecting control unit 5 is electrically connected with this internal frame feeder 1, what this first detecting control unit 5 was available for detecting the interior wire rack material C of this transport path end has stateless, control the start of this internal frame feeder 1, with avoid this internal frame feeder 1 continuously by this interior wire rack material C toward this first transport path end feed.Moreover, more more setting one second detecting control unit 6 in this Lifting bench 43, this second detecting control unit 6 is used primarily as detecting is abnormal, to avoid exception that board places because of this interior wire rack material C and impaired.Such as in wire rack material C as interior in this does not falls completely within this Lifting bench when this interior wire rack material C is the most correctly placed into this Lifting bench 43 or when this interior wire rack material C is delivered to this Lifting bench 43 the most as scheduled, all can be identified that generation stops this motor 31 start extremely.

Moreover, the present invention preferably arranges one the 3rd detecting unit 24 in this second transport path end, and the 3rd detecting unit 24 is electrically connected with this power take-off unit 3.When the 3rd detecting unit 24 detect this second transport path end have this terminal semi-finished product B time, this power take-off unit 3 can be controlled and suspend start, to avoid this slide block 238 continuously to be carried toward the charge-coupled vertical machine 4 of this meeting by this terminal semi-finished product B.

Described above it is merely exemplary for the purpose of the present invention; and nonrestrictive, those of ordinary skill in the art understand, in the case of the spirit and scope limited without departing from claim; can many modifications may be made, change or equivalence, but within falling within protection scope of the present invention.

Claims (10)

1. a terminal and internal frame unit mahine, it is characterised in that including:

One internal frame feeder: include a charging tray, this charging tray connects an internal frame delivery chute, forms one first transport path along this internal frame delivery chute；This charging tray is for placing the interior wire rack material of plural number, to be at one's beck and call or to force each interior wire rack material to be advanced along this first transport path；

One terminal wire riveting machine: include a conveying crawler belt and a terminal wire riveting machine body, the outer rim of this conveying crawler belt is provided with plural number placing trough separately, plant for plural number electric wire or terminal semi-finished product, this conveying crawler belt forms one second transport path in actuator state, and this terminal wire riveting machine body is located at one section of portion of this second transport path；

The most charge-coupled vertical machine: be located at this first transport path and the end of this second transport path, vertical for the plural terminals semi-finished product on this conveying crawler belt to be carried out respectively group with each interior wire rack material；

One power take-off unit: include a motor, this motor power connects a body of rod, and this body of rod arranges one first cam set and one second cam set separately；The one first interlinked mechanism component power of not moving connects this first cam set and this terminal wire riveting machine, the one second interlinked mechanism component power of not moving connects this second cam set and this meeting charge-coupled power unit, drives this terminal wire riveting machine and this meeting charge-coupled power unit to carry out start for during this motor start by each cam set and each interlinked mechanism group.

Terminal the most according to claim 1 and internal frame unit mahine, it is characterised in that: being additionally provided with a power take-off unit, this power take-off unit includes a motor, and this motor power connects a body of rod, and this body of rod arranges one first cam set and one second cam set separately；The one first interlinked mechanism component power of not moving connects this first cam set and this terminal wire riveting machine, the one second interlinked mechanism component power of not moving connects this second cam set and this meeting charge-coupled power unit, drives this terminal wire riveting machine and this meeting charge-coupled power unit to carry out start for during this motor start by each cam set and each interlinked mechanism group.

Terminal the most according to claim 2 and internal frame unit mahine, it is characterized in that: this terminal wire riveting machine includes one first supply unit, this first supply unit includes a pedestal, this pedestal is arranged over the casting die of this first interlinked mechanism group of a connection, this casting die bottom surface is provided with one away from one section of portion of this conveying crawler belt and lacks portion, to make this casting die and this pedestal jointly define a track, and this bottom surface, scarce portion is provided with a chute；One slide block is located in this track, this the first interlinked mechanism group connects this slide block for driving this slide block to do traverse motion along this track, this slide block end face wears downwards two-phase Spaced perforations, it is respectively equipped with a cylinder in each perforation, the top of each cylinder is respectively equipped with a guide wheel, and each guide wheel relative to the end face of this slide block formed naked go out, when this casting die is suppressed downwards, each guide wheel is received respectively and is located in this chute, and the other end of each cylinder be respectively relative to the bottom surface of this slide block formed naked go out and common these terminal semi-finished product of clipping.

Terminal the most according to claim 3 and internal frame unit mahine, it is characterized in that: this first cam set includes one first cam and one second cam, this the first interlinked mechanism group includes one first interlinked mechanism and one second interlinked mechanism, this first interlinked mechanism connects this first cam and this casting die respectively, drive this casting die that this pedestal and each guide wheel from top to bottom carry out direct or indirect compacting for this first cam by this first interlinked mechanism, this second interlinked mechanism connects this second cam and this traction piece respectively, this slide block is driven to carry out for this second cam by this second interlinked mechanism traverse motion.

Terminal the most according to claim 4 and internal frame unit mahine, it is characterised in that: vertical to also setting one first spring, one end of this first spring connects the outside of this first interlinked mechanism, and the other end is fixedly arranged on a fixture.

6. according to claim 2, 3, terminal described in 4 or 5 and internal frame unit mahine, it is characterized in that: the charge-coupled vertical machine of this meeting is provided with one first piece under pressure, this first piece under pressure is positioned at this second transport path end, the end of this first piece under pressure includes the first fork, second fork, third fork part, the dual-side of this second fork forms the hypotenuse from top to bottom swum outside to inside, and have groove between this first fork and second fork, and have groove between this second fork and third fork part, this the second interlinked mechanism group connects this first piece under pressure, do vertical to moving back and forth for interlocking this first piece under pressure；One transverse-moving mechanism is located at this first transport path end, one Lifting bench is located at below this first piece under pressure, and it is positioned at a side of this transverse-moving mechanism, this transverse-moving mechanism is available for will be located in the interior wire rack material of this first transport path end and is delivered to this Lifting bench, this the second interlinked mechanism group connects this Lifting bench, does vertical to moving back and forth for interlocking this Lifting bench.

Terminal the most according to claim 6 and internal frame unit mahine, it is characterized in that: this second cam set includes one the 3rd cam and one the 4th cam, this the second interlinked mechanism group includes one the 3rd interlinked mechanism and one the 4th interlinked mechanism, 3rd interlinked mechanism connects the 3rd cam and this Lifting bench respectively, and the 4th interlinked mechanism connects the 4th cam and this first piece under pressure respectively.

Terminal the most according to claim 7 and internal frame unit mahine, it is characterized in that: vertical to setting one second spring and one the 3rd spring, this second spring one end connects a fixture, the other end connects the 3rd interlinked mechanism, 3rd spring one end connects this fixture, and the other end connects the 4th interlinked mechanism.

Terminal the most according to claim 8 and internal frame unit mahine, it is characterized in that: set one first detecting control unit at this first transport path end, this the first detecting control unit is electrically connected with this internal frame feeder, what this first detecting control unit was available for detecting the interior wire rack material of this transport path end has stateless, controls the start of this internal frame feeder.

Terminal the most according to claim 8 and internal frame unit mahine, it is characterized in that: be additionally provided with one second detecting control unit at this Lifting bench, this the second detecting control unit is electrically connected with this motor, this the second detecting control unit is available for detecting this interior wire rack material and is positioned over the situation of this Lifting bench, to decide whether that controlling this motor stops start.