CN209478269U - A kind of terminal cutting means - Google Patents

Abstract

The utility model relates to terminal production fields, disclose a kind of terminal cutting means, and the terminal cutting means include charge channel, feeding mechanism, cutting mechanism, and the feeding mechanism includes: main body；Take-up housing, the take-up housing are set in the main body；Feeding track, the feeding track are slidably disposed on the take-up housing；Pushing structure, the pushing structure is for pushing the feeding track to slide on the take-up housing.Terminal cutting means include the feeding track being set on take-up housing, feeding track is pushed to slide on take-up housing using pushing structure, the first pressure spring is connected between feeding track and take-up housing, in feeding, feeding track can be withdrawn into origin to carry out feeding next time by pusher material structure in place, design in this way greatly reduces the beat of feeding, to improve the production efficiency that terminal is cut.

Description

A kind of terminal cutting means

Technical field

The utility model relates to terminal production fields, more particularly to terminal cutting means.

Background technique

Electronic component, especially various connectors, it will usually including many metal PIN needles, also referred to as terminal.Above-mentioned Terminal is fixed on plastic feet by the modes such as being molded or pressing, and forms connector.When terminal product dispatches from the factory, it is typically secured to On material strip, there are many PIN needles for setting on a long metal material belt, form a very long material strip volume.It cuts out in the prior art It cuts mechanism and material strip is usually fixed by the fixed mechanism with positioning pin, then drive material strip to advance to be cut, feeding Beat it is slower, the production efficiency for causing terminal to cut is lower.

Utility model content

The lower problem of the production efficiency cut the purpose of this utility model is to overcome terminal of the existing technology, A kind of terminal cutting means are provided, which includes the feeding track being set on take-up housing, utilizes pushing structure Feeding track is pushed to slide on take-up housing, feeding track can be withdrawn into origin to carry out by pusher material structure in place in feeding Feeding next time, design in this way greatly reduce the beat of feeding, to improve the production effect that terminal is cut Rate.

To achieve the goals above, the embodiments of the present invention provides a kind of terminal cutting means, the terminal Cutting means include charge channel, feeding mechanism, cutting mechanism, and the feeding mechanism includes:

Main body；

Take-up housing, the take-up housing are set in the main body；

Feeding track, the feeding track are slidably disposed on the take-up housing, the feeding track and the cunning The first pressure spring is connected between block；

Pushing structure, the pushing structure is for pushing the feeding track to slide on the take-up housing.

Preferably, the pushing structure includes:

First drive shaft, first drive shaft is through the main body；

First cam, first cam are set in first drive shaft；

Set square, the set square are connect with the feeding track, and the set square and first cam are tangent.

Preferably, the feeding mechanism further includes press material structure, and the press material structure includes:

Compact heap, the compact heap are set to above the feeding track；

Second pressure spring, second pressure spring is for connecting the compact heap and the main body；

Second cam, second cam are set in first drive shaft；

Drive rod, the bottom of the drive rod and second cam are tangent.

Preferably, the compact heap is set in connecting rod, and the connecting rod is installed on the feeding track, the company One end of extension bar is provided with cursor.

Preferably, the press material structure further includes the top plate connecting with the drive rod, and the top plate is described for driving Cursor rotation.

Preferably, one end of the connecting rod is connected with handle.

Preferably, the feeding mechanism further includes limited block, and the limited block is for limiting the feeding track described in The sliding stroke of take-up housing.

Preferably, the cutting mechanism includes:

Cut seat；

Cutting tool, the cutting tool are set to the top for cutting seat；

Driving structure, the driving structure is for driving the cutting tool to move back and forth in the vertical direction.

Preferably, the driving structure includes:

Second drive shaft；

Third cam, the third cam are set in second drive shaft；

Vertical bar, the bottom of the vertical bar and the third cam are tangent；

Horizon bar, the both ends of the horizon bar are connected to the cutting tool and the vertical bar；

Support rod, the horizon bar are articulated with the support rod.

Preferably, first drive shaft and second drive shaft are linked by pulley transmission structure.

Through the above technical solutions, the terminal cutting means that the embodiments of the present invention provides include being set to sliding block Feeding track on seat pushes feeding track to slide on take-up housing, connects between feeding track and take-up housing using pushing structure It is connected to the first pressure spring, in feeding, feeding track can be withdrawn into origin to carry out feeding next time by pusher material structure in place, Design in this way greatly reduces the beat of feeding, to improve the production efficiency that terminal is cut.

Detailed description of the invention

Fig. 1 is the structural schematic diagram for the terminal cutting means that embodiment according to the present utility model provides；

Fig. 2 is the schematic diagram of the feeding mechanism for the terminal cutting means that embodiment according to the present utility model provides；

Fig. 3 is the pushing structure of the feeding mechanism for the terminal cutting means that embodiment according to the present utility model provides One of front view (feeding terminal)；

Fig. 4 is the pushing structure of the feeding mechanism for the terminal cutting means that embodiment according to the present utility model provides One of front view (feeding origin)；

Fig. 5 is the pushing structure of the feeding mechanism for the terminal cutting means that embodiment according to the present utility model provides One of partial schematic diagram (omits unilateral feeding track)；

Fig. 6 is the press material structure of the feeding mechanism for the terminal cutting means that embodiment according to the present utility model provides One of schematic diagram；

Fig. 7 is the press material structure of the feeding mechanism for the terminal cutting means that embodiment according to the present utility model provides The two of schematic diagram；

Fig. 8 is the pushing structure of the feeding mechanism for the terminal cutting means that embodiment according to the present utility model provides The two of partial schematic diagram；

Fig. 9 is the schematic diagram of the cutting mechanism for the terminal cutting means that embodiment according to the present utility model provides；With And

The driving structure of the cutting mechanism for the terminal cutting means that Figure 10 embodiment according to the present utility model provides Schematic diagram.

Description of symbols

1 charge channel, 2 feeding mechanism

3 cutting mechanism, 4 handle

20 main body, 21 take-up housing

22 feeding track, 23 pushing structure

24 press material structure, 25 limited block

30 cut 31 cutting tool of seat

32 driving mechanism, 230 first drive shaft

231 first cam, 232 set square

233 first pressure spring, 240 compact heap

241 second pressure spring, 242 second cam

243 drive rod, 244 connecting rod

245 cursor, 246 top plate

320 second drive shaft, 321 third cam

322 vertical bar, 323 horizon bar

324 support rod A drivers

Specific embodiment

Specific embodiment of the present utility model is described in detail below in conjunction with attached drawing.It should be understood that herein Described specific embodiment is only used for describing and explaining the present invention, and is not intended to limit the utility model.

Fig. 1 shows the structural schematic diagram for the terminal cutting means that embodiment according to the present utility model provides.This reality A kind of terminal cutting means are provided with novel embodiment, as shown in Figure 1, the terminal cutting means may include charge channel 1, feeding mechanism 2, cutting mechanism 3.Terminal material belt enters in feeding mechanism 2 from the charge channel 1 of the terminal cutting means, feeding Mechanism 2, which send terminal material belt into cutting mechanism 3, to be cut to obtain the terminal product for meeting demand.

Fig. 2 shows the signals of the feeding mechanism of the terminal cutting means of embodiment according to the present utility model offer Figure.As shown in Fig. 2, the feeding mechanism 2 of the terminal cutting means may include:

Main body 20；

Take-up housing 21, take-up housing 21 can be set in main body 20；

Feeding track 22, feeding track 22 are slidably disposed on take-up housing 21；

Pushing structure 23, pushing structure 23 is for pushing feeding track 22 to slide on take-up housing 21.

The feeding track 22 of the feeding mechanism 2 for the terminal cutting means that the embodiments of the present invention provides is for placing Terminal material belt, pushing structure 24 can push feeding track 22 to slide on take-up housing 21, thus drive terminal material belt to advance with Carry out cutting for next step.

Fig. 3 shows the pusher knot of the feeding mechanism for the terminal cutting means that embodiment according to the present utility model provides One of front view of structure (feeding terminal), Fig. 4 show the terminal cutting means that embodiment according to the present utility model provides One of the front view of pushing structure of feeding mechanism (feeding origin), Fig. 5 shows embodiment according to the present utility model The partial schematic diagram (omitting unilateral feeding track) of the pushing structure of the feeding mechanism of the terminal cutting means of offer.This is practical The pushing structure 23 of the feeding mechanism 2 for the terminal cutting means that novel embodiment provides can pass through a variety of suitable structures Form is realized.For example, can use cylinder or the hydraulic cylinder drive reciprocating motion of feeding track 22 to complete feeding.For another example, Can use motor transmission mechanism drives feeding track 22 to move back and forth to complete feeding.For another example, in one kind of the utility model In embodiment, as shown in Fig. 3, Fig. 4 or Fig. 5, pushing structure 23 may include:

First drive shaft 230, the first driving 230 can be with axis through main body 20；

First cam 231, the first cam 231 can be set in the first drive shaft 230；

Set square 232, set square 232 are connect with feeding track 22, and set square 232 and the first cam 231 are tangent；

First pressure spring 233, the first pressure spring 233 connect feeding track 22 and take-up housing 21 (position of the first pressure spring 233 such as figure Shown in 5), which can be one be arranged on unilateral feeding track 22, naturally it is also possible to be to be respectively set Two on bilateral feeding track 22.

The pushing structure 23 of the feeding mechanism 2 for the terminal cutting means that the embodiments of the present invention provides includes first Cam 231 and the set square 232 tangent with the first cam 231, set square 232 are connect with feeding track 22.Art technology Personnel are appreciated that the first drive shaft 230 can drive the first cam 231, when 231 radius larger part of the first cam turn to When set square 232 is tangent, set square 232 will by Level Promoting one stroke until 231 radius maximum of the first cam turn to Set square 232 is tangent, so that feeding track 22 and terminal material belt is driven to horizontally advance, so that feeding (as shown in Figure 3) is completed, The first pressure spring 233 is in elongation state during this；After feeding in place, as the first cam 231 further rotates, first 231 radius smaller part of cam will rotate into it is tangent with set square 232, at this point, under the action of the first pressure spring 233, set square 232 To be retracted by level until 231 radius minimum of the first cam at turn to it is tangent with set square 232, to drive feeding track 22 Origin is returned to carry out feeding (as shown in Figure 4) next time.Design in this way greatly reduces the terminal and cuts dress The beat of feeding is set, to improve the production efficiency that terminal is cut.

Fig. 6 shows the binder knot of the feeding mechanism for the terminal cutting means that embodiment according to the present utility model provides One of schematic diagram of structure, Fig. 7 show the feeding mechanism for the terminal cutting means that embodiment according to the present utility model provides Press material structure schematic diagram two.It should be noted that Fig. 6 and Fig. 7 illustrate only individually for the ease of showing and understanding Press material structure 24, but combine the content shown in Fig. 1 to Fig. 5, those skilled in the art should be appreciated that press material structure 24 In the position that the terminal cutting means are specifically arranged.

In the embodiments of the present invention, the feeding mechanism 2 of the terminal cutting means can also include press material structure 24, which is used to compress terminal material belt in feeding stroke so that terminal material belt follows feeding track 22 is synchronous to move It is dynamic, and unclamp terminal material belt during 22 return of feeding track and follow 22 return of feeding track to avoid terminal material belt. As is seen in fig. 6 or fig. 7, in a kind of embodiment of the utility model, which may include:

Compact heap 240, compact heap 240 can be set above feeding track 22；

Second pressure spring 241, the second pressure spring 241 can be used for connecting compact heap 240 and main body 20, and the second pressure spring 241 can be with It is directly connected to compact heap 240 and main body 20, it is certainly contemplated that the second pressure spring 241 can be such as Fig. 6 institute to the adaptability of installation and structure What is shown connects compact heap 240 and main body 20 by corresponding connector；

Second cam 242, the second cam 242 can be set in the first drive shaft 230；

The bottom of drive rod 243, drive rod 243 can be tangent with the second cam 242.

It is similar with the first cam 231, the feeding mechanism 2 for the terminal cutting means that the embodiments of the present invention provides The second cam 242 of press material structure 24 be set in the first drive shaft 230, the second cam 242 can be same with the first cam 231 Step rotation.The bottom of drive rod 243 can be tangent with the second cam 242, when 242 radius larger part of the second cam is turned to and passed When the bottom of lever 243 is tangent, drive rod 243 will be jacked up until 242 radius maximum of the second cam turns to and drive rod 243 bottom is tangent, to drive the rotation of compact heap 240 to unclamp terminal material belt；When 242 radius smaller part of the second cam rotates When extremely tangent with the bottom of drive rod 243, drive rod 243 will be fallen under the action of the second pressure spring 241 until the second cam 242 Turned at radius minimum it is tangent with the bottom of drive rod 243, at this time compact heap 240 compress terminal material belt.

Specifically, the press material structure 24 of the feeding mechanism 2 for the terminal cutting means that the embodiments of the present invention provides The second pressure spring 241 be in elongation state with pull compact heap 240 compress terminal material belt, thus the terminal material belt in feeding stroke 22 synchronizing moving of feeding track can be followed to complete feeding, it should be appreciated that 242 radius of the second cam in feeding stroke The bottom of larger part and drive rod 243 is tangent；When feeding stroke reaches terminal, at this time 242 radius maximum of the second cam with The bottom of drive rod 243 is tangent, and drive rod 243 is jacked up to drive the rotation of compact heap 240 to unclamp terminal material belt, to avoid Terminal material belt follows 22 return of feeding track during 22 return of feeding track.In drive rod 243 by during the jacking up, Second pressure spring 241 is further stretched by elongation state until feeding track 22 returns to feeding origin, it should be appreciated that is being sent Expect tangent with the bottom of drive rod 243 at 242 radius minimum of the second cam of origin.

Compact heap 240 can realize the compression of terminal material belt and release by a variety of suitable structure types.For example, The top of drive rod 243 can be made to connect with compact heap 240, drive rod 243 is allowed directly to drive compact heap 240 upward Or it moves down to realize compression and release to terminal material belt.For another example, as shown in fig. 6, compact heap 240 can be set in even On extension bar 244, connecting rod 244 can be installed on feeding track 22 (referring to figs. 1 to Fig. 5), and one end of connecting rod 244 can be set It is equipped with cursor 245.Compact heap 240 is rotatablely arranged above feeding track 22 by connecting rod 244, before compact heap 240 The bottom at end can compress downwards terminal material belt under the drawing of the second pressure spring 241, in drive rod 243 by during the jacking up, Drive rod 243 drives cursor 245 to rotate, and then connecting rod 244 and compact heap 240 is driven to be rotated up an angle, thus loose Open terminal material belt.

Specifically, as shown in Figure 6 and Figure 7, the press material structure 24 of the feeding mechanism 2 of the terminal cutting means can also include The top plate 246 connecting with drive rod 243, top plate 246 can be used for that cursor 245 is driven to rotate.Meanwhile at 245 turns of cursor In dynamic process, top plate 246, which can be remained, to be contacted persistently cursor 245 to be driven to rotate with cursor 245.Further Ground can be arranged such as the balance and stability for keeping press material structure 24 to be driven between drive rod 243 and top plate 246 Fig. 6 and swing rod structure shown in Fig. 7, to balance the invalid torque of the second cam 242 transmission.Cursor 245 connects with top plate 246 Runner can be set for synapsis so that cursor 245 is easier to rotate.

As shown in Figures 1 to 7, in the embodiments of the present invention, one end of connecting rod 244 can connect handle 4.In the terminal cutting means feeding, since the bottom of 240 front end of compact heap causes to compress under the drawing of the second pressure spring 241 Block 240 hinders the feeding of terminal material belt.For the technical problem, the terminal that the embodiments of the present invention provides cuts dress The handle 4 set can be rotated up connecting rod 244 to drive compact heap 240 to be rotated up an angle, so that compact heap 240 Front end do not influence the feeding of terminal material belt, while also very effectively improve the terminal cutting means terminal material belt feeding effect Rate further improves the production efficiency that terminal is cut.

Fig. 8 shows the pusher knot of the feeding mechanism for the terminal cutting means that embodiment according to the present utility model provides The two of the partial schematic diagram of structure.As shown in figure 8, the feeding mechanism 2 of the terminal cutting means can also include limited block 25, limit Block 25 can be used for limiting sliding stroke (i.e. feeding stroke) of the feeding track 22 along take-up housing 21.Limited block 25 can be set On take-up housing 21, thus the interconnecting piece of backstop feeding track 22 or set square 232.It will be understood by those skilled in the art that should One end of stop block 25 towards pushing structure 23 is exactly the feeding origin of pushing structure 23.For the terminal product of different demands, In production the PIN of each feeding leads to the variation of 23 feeding stroke of pushing structure away from also having any different.In the utility model In the terminal cutting means that embodiment provides, for the terminal product of different demands, the limited block of corresponding length can be replaced 25, to change the feeding stroke of pushing structure 23 to produce required terminal product.Design in this way is so that the end Sub- cutting means are adapted to the production of the terminal product of a variety of demands, while also improving replacement efficiency when changing money, more into One step improves the production efficiency that terminal is cut.

Fig. 9 shows the signal of the cutting mechanism for the terminal cutting means that embodiment according to the present utility model provides Figure.In the embodiments of the present invention, the cutting mechanism 3 of the terminal cutting means may include:

Seat 30 is cut, terminal material belt can be sent to by pushing structure 23 to be cut in seat 30 to cut；

Cutting tool 31, cutting tool 31 can be set in the top for cutting seat 30, and cutting tool 31 is for cutting terminal Material strip；

Driving structure 32, driving structure 32 can be used for that cutting tool 31 is driven to be moved back and forth in the vertical direction to cut Terminal material belt.

Figure 10 shows the driving of the cutting mechanism for the terminal cutting means that embodiment according to the present utility model provides The schematic diagram of structure.The driving structure 32 of the cutting mechanism 3 for the terminal cutting means that the embodiments of the present invention provides can To be realized by a variety of suitable structure types.For example, can use cylinder or hydraulic cylinder drive cutting tool 31 perpendicular Histogram is to reciprocating motion to complete to cut.For another example, as shown in Figure 10, driving structure 32 may include:

Second drive shaft 320；

Third cam 321, third cam 321 can be set in the second drive shaft 320；

The bottom of vertical bar 322, vertical bar 322 can be tangent with third cam 321；

The both ends of horizon bar 323, horizon bar 323 can be connected to cutting tool 31 and vertical bar 322；

Support rod 324, horizon bar 323 can be articulated with support rod 324.

Similar with the first cam 231 and the second cam 242, the terminal that the embodiments of the present invention provides cuts dress The driving structure 32 for the cutting mechanism 3 set includes third cam 321 and bottom and the tangent vertical bar 322 of third cam 321, When 321 radius larger part of third cam turns to tangent with the bottom of vertical bar 322, vertical bar 322 will be jacked up until the Three cams, 321 radius maximum turns to tangent with the bottom of vertical bar 322；When 321 radius smaller part of third cam turns to When tangent with the bottom of vertical bar 322, vertical bar 322 will fall until 321 radius minimum of third cam at turn to vertically The bottom of bar 322 is tangent (can use third pressure spring makes vertical bar 322 fall, and third pressure spring is not shown).Vertical bar 322 Top is connect with the top of cutting tool 31 by being articulated with the horizon bar 323 of support rod 324.That is, vertical bar 322 with The structure that cutting tool 31 forms seesaw type can be made when vertical bar 322 is jacked up by the transmission of horizon bar 323 Cutting tool 31 is moved down to cut terminal material belt；When vertical bar 322 is fallen, can be made by the transmission of horizon bar 323 Cutting tool 31 is moved up to wait terminal material belt to be sent into, to complete cutting next time.

As shown in Figures 2 to 4, in the embodiments of the present invention, the first drive shaft 230 of the terminal cutting means It is linked with the second drive shaft 320 by pulley transmission structure.That is, the first cam 231 of the terminal cutting means, Two cams 242 and third cam 321 are to rotate synchronously, to realize to the binder of terminal material belt, feeding, the processing such as cut Synchronous interaction, avoids the time of the waiting, linking that are likely to occur between different disposal process, greatly optimizes terminal and cut The whole beat of production very effectively improves the production efficiency that terminal is cut.

As depicted in figs. 1 and 2, the terminal cutting means that the embodiments of the present invention provides further include driver A.It should Driver A can directly be connect with the first drive shaft 230, it is of course also possible to as depicted in figs. 1 and 2, driver A passes through Pulley transmission structure drives the first drive shaft 230.In the embodiments of the present invention, driver A can be servo Motor or stepper motor.

Preferred embodiments of the present invention, still, the utility model and unlimited are described in detail in conjunction with attached drawing above In this.In the range of the technology design of the utility model, a variety of simple variants can be carried out to the technical solution of the utility model, It is combined in any suitable manner including each particular technique feature.In order to avoid unnecessary repetition, the utility model To various combinations of possible ways, no further explanation will be given.But these simple variants and combination equally should be considered as the utility model institute Disclosure belongs to the protection scope of the utility model.

Claims (10)

1. a kind of terminal cutting means, the terminal cutting means include charge channel (1), feeding mechanism (2), cutting mechanism (3), It is characterized in that, the feeding mechanism (2) includes:

Main body (20)；

Take-up housing (21), the take-up housing (21) are set on the main body (20)；

Feeding track (22), the feeding track (22) are slidably disposed on the take-up housing (21)；

Pushing structure (23), the pushing structure (23) is for pushing the feeding track (22) sliding on the take-up housing (21) It is dynamic.

2. terminal cutting means according to claim 1, which is characterized in that the pushing structure (23) includes:

First drive shaft (230), first drive shaft (230) is through the main body (20)；

First cam (231), first cam (231) are set on first drive shaft (230)；

Set square (232), the set square (232) connect with the feeding track (22), the set square (232) and described the One cam (231) is tangent；

First pressure spring (233), first pressure spring (233) connect the feeding track (22) and the take-up housing (21).

3. terminal cutting means according to claim 2, which is characterized in that the feeding mechanism (2) further includes binder knot Structure (24), the press material structure (24) include:

Compact heap (240), the compact heap (240) are set to above the feeding track (22)；

Second pressure spring (241), second pressure spring (241) is for connecting the compact heap (240) and the main body (20)；

Second cam (242), second cam (242) are set on first drive shaft (230)；

Drive rod (243), the bottom of the drive rod (243) and second cam (242) are tangent.

4. terminal cutting means according to claim 3, which is characterized in that the compact heap (240) is set to connecting rod (244) on, the connecting rod (244) is installed on the feeding track (22), and one end of the connecting rod (244), which is provided with, to be turned Swing arm (245).

5. terminal cutting means according to claim 4, which is characterized in that the press material structure (24) further include with it is described The top plate (246) of drive rod (243) connection, the top plate (246) is for driving the cursor (245) to rotate.

6. terminal cutting means according to claim 4, which is characterized in that one end of the connecting rod (244) is connected with Handle (4).

7. terminal cutting means according to claim 1, which is characterized in that the feeding mechanism (2) further includes limited block (25), the limited block (25) is for limiting the feeding track (22) along the sliding stroke of the take-up housing (21).

8. terminal cutting means according to claim 2, which is characterized in that the cutting mechanism (3) includes:

Cut seat (30)；

Cutting tool (31), the cutting tool (31) are set to the top for cutting seat (30)；

Driving structure (32), the driving structure (32) is for driving the cutting tool (31) reciprocal fortune in the vertical direction It is dynamic.

9. terminal cutting means according to claim 8, which is characterized in that the driving structure (32) includes:

Second drive shaft (320)；

Third cam (321), the third cam (321) are set on second drive shaft (320)；

Vertical bar (322), the bottom of the vertical bar (322) and the third cam (321) are tangent；

The both ends of horizon bar (323), the horizon bar (323) are connected to the cutting tool (31) and the vertical bar (322)；

Support rod (324), the horizon bar (323) are articulated with the support rod (324).

10. terminal cutting means according to claim 9, which is characterized in that first drive shaft (230) and described the Two drive shafts (320) are linked by pulley transmission structure.