CN207696910U - Retaining mechanism and mold - Google Patents

Abstract

The utility model provides a kind of retaining mechanism, including the upper grip block being located above, underlying lower grip block, and push-pull rod, the upper grip block and lower grip block are and housing hinge, the shell and die ontology are affixed, and there is clamping gap between the left end of the upper grip block and the left end of lower grip block, the right end of the upper grip block is hinged with the upper end of upper kinematic link, the right end of the lower grip block is hinged with the lower end of underdrive connecting rod, the lower end of the upper kinematic link and the upper end of underdrive connecting rod are hinged with the left end of push-pull rod, the push-pull rod can drive upload to move the lower end of connecting rod and the upper end of underdrive connecting rod and move back and forth in left-right direction.When in use, it inserts the terminal into above-mentioned clamping gap；Push-pull rod drives the lower end of upper kinematic link and the upper end of underdrive connecting rod to move in left-right direction；The left end of the left end of upper grip block and lower grip block will be close to each other and clamp terminal.

Description

Retaining mechanism and mold

Technical field

The utility model is related to a kind of retaining mechanisms, more particularly to a kind of retaining mechanism, mold and injection moulding process.

Background technology

Connector in process, usually need to be molded plastic emitting shell using injection mold on terminal, required with acquisition Connector；And usually preformed has had neutron at the middle part of above-mentioned terminal.During mould-injection shell, need that terminal is first fixed on injection molding In mold, plastic emitting shell is molded to guarantee the predeterminated position on terminal.Injection mold in the prior art, it is difficult to above-mentioned end Son is fast and effectively fixed；And after the completion of injection molding, it is also difficult to ensure connector fast demoulding, add so as to cause injection molding The efficiency and quality of work are relatively low.

Utility model content

In view of the foregoing deficiencies of prior art, the technical problem to be solved by the present invention is to provide a kind of lockings Mechanism, the retaining mechanism can fix terminal in a mold.

To achieve the above object, the utility model provides a kind of retaining mechanism, including be located above upper grip block, be located at The lower grip block and push-pull rod of lower section, the upper grip block and lower grip block are and housing hinge, the shell and die ontology It is affixed, and there is clamping gap, the right end of the upper grip block between the left end of the upper grip block and the left end of lower grip block Hinged with the upper end of upper kinematic link, the right end of the lower grip block is hinged with the lower end of underdrive connecting rod, and the upper transmission connects The lower end of bar and the upper end of underdrive connecting rod are hinged with the left end of push-pull rod, and the push-pull rod can drive upload to move under connecting rod End and the upper end of underdrive connecting rod move back and forth in left-right direction.

Further, the lower end of the upper kinematic link and the upper end of underdrive connecting rod pass through the first axis pin and push-pull rod Left end be hinged.

Further, the right end of the push-pull rod is connected with the piston rod of driving cylinder, the piston rod energy of the driving cylinder Push-pull rod is driven to move back and forth in left-right direction.

Further, the right end of the piston rod of the driving cylinder and push-pull rod is hinged, has along right and left in the shell To the pilot hole of extension, the left end of the push-pull rod is in pilot hole.

Further, spacer pin is installed, the push-pull rod is equipped with the long waist extended in left-right direction on the shell Slot, the spacer pin are embedded in long gain.

Further, the clamping gap is located at the upper table of the lower surface and the left end of lower grip block of the left end of upper grip block Between face, and the lower surface of the left end of the upper grip block is equipped with upper clamping protrusion, the upper surface of the left end of the lower grip block Equipped with lower clamping protrusion.

Further, detection sensor is installed on the shell.

Further, the shell is equipped with spacing block set, and the spacing block set with the neutron on terminal for leaning.

As described above, the utility model is related to retaining mechanism, have the advantages that：

The operation principle of retaining mechanism is in the utility model：When in use, it inserts the terminal into above-mentioned clamping gap；It pushes away Pull rod drives the lower end of upper kinematic link and the upper end of underdrive connecting rod to move in left-right direction；The upper end of upper kinematic link is around upper The lower end of kinematic link rotates, and the lower end of underdrive connecting rod is rotated around the upper end of underdrive connecting rod；And the upper end of upper kinematic link The right end of grip block moves upwardly together in drive, and the lower end of underdrive connecting rod drives the right end of lower grip block to move downwardly together It is dynamic；Under the hinged effect of upper grip block and shell, the left end of upper grip block is moved down relative to shell, lower grip block with Under the hinged effect of shell, the left end of lower grip block is moved up relative to shell；The left end of upper grip block and lower grip block Left end is close to each other and clamps terminal, terminal is locked in shell and die ontology to realize, that is, realizing will hold Son is fixed in a mold, in order to subsequently be processed accordingly to terminal.

Another technical problem to be solved in the utility model is to provide a kind of mold, and retaining mechanism can consolidate terminal Determine in a mold.

To achieve the above object, the utility model provides a kind of mold, including die ontology, and the mold further includes described Retaining mechanism.

As described above, the utility model is related to mold, have the advantages that：

Mold in the utility model is based on its retaining mechanism, can fix terminal in a mold.

Another technical problem to be solved in the utility model is to provide a kind of injection moulding process, which can will hold Son is fixed in a mold.

To achieve the above object, the utility model provides a kind of injection moulding process using the retaining mechanism, including as follows Step：

S1, it inserts the terminal into the clamping gap；

S2, the push-pull rod drive the lower end of upper kinematic link and the upper end of underdrive connecting rod to move in left-right direction；On The upper end of kinematic link is rotated around the lower end of upper kinematic link, and the lower end of underdrive connecting rod is rotated around the upper end of underdrive connecting rod； And the upper end of upper kinematic link drives the right end of upper grip block to move upwardly together, the lower end of underdrive connecting rod drives lower grip block Right end move downwardly together；The left end of upper grip block moves down, and the left end of lower grip block moves up；A left side for upper grip block The left end of end and lower grip block is close to each other and clamps terminal；

S3, it is molded plastic emitting shell on terminal, and obtains connector.

As described above, the utility model is related to injection moulding process, have the advantages that：

Above-mentioned injection moulding process in the utility model, based on above-mentioned steps S1 and S2 realize by terminal be fixed on die ontology and In mold；It is based on above-mentioned steps S3 again, plastic emitting shell is molded on terminal, to obtain connector, i.e. injection molding goes out connector. And above-mentioned injection moulding process in the utility model, it is based on above-mentioned steps S1 and S2, terminal can be quickly and efficiently fixed on to mold sheet In body and mold, to ensure the processing efficiency and processing quality higher of the utility model injection moulding process.

Description of the drawings

Fig. 1 is the structural schematic diagram of retaining mechanism in the utility model.

Fig. 2 is the structural schematic diagram of retaining mechanism in the loosened condition in the utility model.

Fig. 3 is the structural schematic diagram of retaining mechanism in the locked condition in the utility model.

Component label instructions

43 spacing block set of grip block on 11

Protrusion 5 is clamped on 111, gap is clamped

61 first axis pin of kinematic link on 12

21 times 62 second axis pins of grip block

The raised 63 third axis pins of 211 times clampings

The 4th axis pin of 22 underdrive connecting rod 64

The 5th axis pin of 3 push-pull rod 65

31 long gain, 7 driving cylinder

32 connection bump, 71 piston rod

4 shell, 72 connecting pin

41 spacer pin, 8 terminal

42 detection sensor, 81 neutron

Specific implementation mode

Illustrate that the embodiment of the utility model, those skilled in the art can be by these by particular specific embodiment below Content disclosed by specification understands other advantages and effect of the utility model easily.

It should be clear that structure, ratio, size etc. depicted in this specification attached drawing, only coordinating specification revealed Content is not limited to the enforceable qualifications of the utility model so that those skilled in the art understands and reads, therefore Do not have technical essential meaning, the modification of any structure, the change of proportionate relationship or the adjustment of size are not influencing this practicality Under novel the effect of can be generated and the purpose that can reach, should all still it fall in the revealed technology contents institute energy of the utility model In the range of covering.Meanwhile cited such as "upper", "lower", "left", "right", " centre " and " one " term in this specification, It is merely convenient to narration to be illustrated, rather than to limit the enforceable range of the utility model, relativeness is altered or modified, In the case where changing technology contents without essence, when being also considered as the enforceable scope of the utility model.

As shown in Figure 1 to Figure 3, the utility model provides a kind of retaining mechanism, including be located above upper grip block 11, position Lower grip block 21 and push-pull rod 3 in lower section, upper grip block 11 and lower grip block 21 are hinged with shell 4, shell 4 and mold Ontology is affixed, and has clamping gap 5, the right side of upper grip block 11 between the left end of upper grip block 11 and the left end of lower grip block 21 End and the upper end of upper kinematic link 12 are hinged, and the right end of lower grip block 21 is hinged with the lower end of underdrive connecting rod 22, and upper transmission connects The lower end of bar 12 and the upper end of underdrive connecting rod 22 are hinged with the left end of push-pull rod 3, and push-pull rod 3 can drive upload to move connecting rod 12 Lower end and the upper end of underdrive connecting rod 22 move back and forth in left-right direction.The operation principle of retaining mechanism in the utility model For：When in use, terminal 8 is inserted into above-mentioned clamping gap 5；Push-pull rod 3 drives lower end and the underdrive of upper kinematic link 12 It moves in left-right direction the upper end of connecting rod 22；The upper end of upper kinematic link 12 is rotated around the lower end of upper kinematic link 12, underdrive The lower end of connecting rod 22 is rotated around the upper end of underdrive connecting rod 22；And the upper end of upper kinematic link 12 drives the right end of upper grip block 11 It moves upwardly together, the lower end of underdrive connecting rod 22 drives the right end of lower grip block 21 to move downwardly together；In upper grip block 11 With under the hinged effect of shell 4, the left end of upper grip block 11 is moved down relative to shell 4, in lower grip block 21 and shell 4 Under hinged effect, the left end of lower grip block 21 is moved up relative to shell 4；The left end of upper grip block 11 and lower grip block 21 Left end is close to each other and clamps terminal 8, and terminal 8 is locked in shell 4 and die ontology to realize, that is, is realized Terminal 8 is fixed in a mold, in order to subsequently be processed accordingly to terminal 8.

As shown in Figure 1 to Figure 3, the utility model provides a kind of mold, including die ontology；And the mold further includes above-mentioned Retaining mechanism.Mold in the utility model is based on its retaining mechanism, can fix terminal 8 in a mold.

Meanwhile as shown in Figure 1 to Figure 3, the utility model also provides a kind of injection moulding process using above-mentioned retaining mechanism, packet Include following steps：

S1, terminal 8 is inserted into above-mentioned clamping gap 5；

S2, push-pull rod 3 drive the lower end of upper kinematic link 12 and the upper end of underdrive connecting rod 22 to move in left-right direction；On The upper end of kinematic link 12 is rotated around the lower end of upper kinematic link 12, and the lower end of underdrive connecting rod 22 is around the upper of underdrive connecting rod 22 End rotation；The upper end of upper kinematic link 12 drives the right end of upper grip block 11 to move upwardly together, the lower end of underdrive connecting rod 22 The right end of lower grip block 21 is driven to move downwardly together；The left end of upper grip block 11 moves down, the left end of lower grip block 21 to Upper movement；The left end of the left end of upper grip block 11 and lower grip block 21 is close to each other and clamps terminal 8；

S3, it is molded plastic emitting shell on terminal 8, and obtains connector.

Above-mentioned injection moulding process in the utility model is realized based on above-mentioned steps S1 and S2 terminal 8 being fixed on die ontology And in mold；It is based on above-mentioned steps S3 again, plastic emitting shell is molded on terminal 8, to obtain connector, i.e. injection molding goes out connection Device.And above-mentioned injection moulding process in the utility model, it is based on above-mentioned steps S1 and S2, terminal 8 can be quickly and efficiently fixed on mould Have in ontology and mold, to ensure the processing efficiency and processing quality higher of the utility model injection moulding process.

As shown in Figures 2 and 3, the lower end of upper kinematic link 12 and the upper end of underdrive connecting rod 22 pass through in the present embodiment The left end of first axis pin 61 and push-pull rod 3 is hinged, i.e., upper kinematic link 12 and underdrive connecting rod 22 are by same in the present embodiment One hinge joint is hinged with push-pull rod 3；Such design so that retaining mechanism overall structure is simpler, compact in the present embodiment；And So that the processing cost of retaining mechanism and mold is lower in the present embodiment.Meanwhile as shown in Figures 2 and 3, upper folder in the present embodiment It is hinged by the second axis pin 62 and shell 4 to hold block 11, lower grip block 21 is hinged by third axis pin 63 and shell 4.Above-mentioned steps In S2, when the right end of upper grip block 11 moves up, upper grip block 11 will be around 62 rotation counterclockwise of the second axis pin, on making The left end of grip block 11 moves down；And when the right end of grip block 21 moves down instantly, lower grip block 21 will be around third axis pin 63 rotations clockwise, to make the left end of lower grip block 21 move up.The second axis pin of the present embodiment 62 is 11 turns of upper grip block A dynamic fulcrum, third axis pin 63 are the fulcrum that lower grip block 21 rotates.The right end of upper grip block 11 passes through the 4th pin Axis 64 and the upper end of upper kinematic link 12 are hinged, and the right end of lower grip block 21 passes through under the 5th axis pin 65 and underdrive connecting rod 22 End is hinged.

As shown in Fig. 2, in the initial state, the upper end of upper kinematic link 12 is located at the right side of its lower end in the present embodiment, The lower end of underdrive connecting rod 22 right side at its upper end.In above-mentioned steps S2, push-pull rod 3 drives the lower end of upper kinematic link 12 And the upper end of underdrive connecting rod 22 moves right, until as shown in figure 3, upper kinematic link 12 and underdrive connecting rod 22 are in vertical Extension state, above the upper end of kinematic link 12 and the right end of upper grip block 11 are moved upward to highest point relative to shell 4 at this time, The right end of the lower end of underdrive connecting rod 22 and lower grip block 21 is moved downward to lowest point relative to shell 4；And upper clamping at this time The left end of block 11 is moved downward to lowest point relative to shell 4, and the left end of lower grip block 21 is moved upward to most relative to shell 4 Eminence；Clamping gap 5 is contracted to minimum value, and the left end of the left end of upper grip block 11 and lower grip block 21 is by the right end jail of terminal 8 Jail clamps.In addition, the above-mentioned injection moulding process of the present embodiment, which further includes step S4, push-pull rod 3, drives the lower end of upper kinematic link 12 And the upper end of underdrive connecting rod 22 is moved to the left；The upper end of upper kinematic link 12 is rotated around the lower end of upper kinematic link 12, is passed down The lower end of dynamic connecting rod 22 is rotated around the upper end of underdrive connecting rod 22；The upper end of upper kinematic link 12 drives the right end of upper grip block 11 It moves downwardly together, the lower end of underdrive connecting rod 22 drives the right end of lower grip block 21 to move upwardly together；Upper grip block 11 Left end moves up, and the left end of lower grip block 21 moves down；The left end of the left end of upper grip block 11 and lower grip block 21 is mutual It is separate and unclamp terminal 8 and connector, meanwhile, above-mentioned clamping gap 5 also gradually increases to maximum rating, as shown in Figure 2.

As shown in Figure 1, the right end of push-pull rod 3 is connected with the piston rod 71 of driving cylinder 7 in the present embodiment, driving cylinder 7 Piston rod 71 can drive push-pull rod 3 to move back and forth in left-right direction.In above-mentioned steps S2, the piston rod 71 of driving cylinder 7 is shunk, simultaneously Push-pull rod 3 is driven to move right, push-pull rod 3 drives the lower end of upper kinematic link 12 and the upper end of underdrive connecting rod 22 to move right It is dynamic, terminal 8 is locked with realizing.In above-mentioned steps S4, the piston rod 71 of driving cylinder 7 stretches out and drives push-pull rod 3 to moving to left Dynamic, push-pull rod 3 drives the lower end of upper kinematic link 12 and the upper end of underdrive connecting rod 22 to be moved to the left, to unclamp terminal 8 and connect Connect device.

As shown in Figure 1, the piston rod 71 of driving cylinder 7 is hinged by the right end of connecting pin 72 and push-pull rod 3 in the present embodiment, There is the pilot hole extended in left-right direction, the left end of push-pull rod 3 is in pilot hole in shell 4.In the piston rod of driving cylinder 7 71 is hinged and pilot hole will be to that under the guiding role of push-pull rod 3, when piston rod 71 shrinks or stretches out, will drive push-and-pull with push-pull rod 3 Bar 3 is slided along pilot hole, that is, drives push-pull rod 3 to move in left-right direction.Driving cylinder 7 is using cylinder in the present embodiment.And Driving cylinder 7 is mounted on die ontology in the present embodiment.

Die ontology can carry out injection molding to terminal 8 in the present embodiment.In above-mentioned steps S3, start the die ontology, Die ontology will carry out injection molding processing on the left end of terminal 8, and be molded plastic emitting shell, and the injection molding to complete connector adds Work.

As shown in Figure 1, being equipped with spacer pin 41 in the present embodiment middle casing 4, push-pull rod 3 is equipped with to be extended in left-right direction Long gain 31, spacer pin 41 is embedded in long gain 31 and is slidably matched with long gain 31.In the initial state, such as Fig. 1 institutes Show, spacer pin 41 and the right side wall of long gain 31 lean.In above-mentioned steps S2, driving cylinder 7 drives push-pull rod 3 to move right, Until the left side wall of long gain 31 leans with spacer pin 41, push-pull rod 3 moves right setting position, and upper grip block 11 at this time Terminal 8 is firmly clamped with lower grip block 21.In above-mentioned steps S4, driving cylinder 7 drives push-pull rod 3 to be moved to the left, until long The right side wall of gain 31 leans with spacer pin 41, and push-pull rod 3 is moved to the left initial position at this time, as shown in Fig. 2, upper folder It holds block 11 and lower grip block 21 unclamps terminal 8.The present embodiment spacer pin 41 and shell 4 are affixed.

As shown in Figures 2 and 3, clamping gap 5 is located at a left side for the lower surface and lower grip block 21 of the left end of upper grip block 11 Between the upper surface at end, and the lower surface of the left end of upper grip block 11 is equipped with upper clamping protrusion 111, the left end of lower grip block 21 Upper surface is equipped with lower clamping protrusion 211.In above-mentioned steps S2, the left end of the left end of upper grip block 11 and lower grip block 21 mutually leans on Closely, up to the upper clamping protrusion 111 on upper grip block 11 and the lower clamping protrusion 211 on lower grip block 21 tightly press from both sides terminal 8 It handles.

As shown in Figure 1, detection sensor 42 is equipped in the present embodiment middle casing 4, in above-mentioned steps S1, when terminal 8 is inserted When entering to the setting position being clamped in gap 5, which will detect the information, and be sent out to above-mentioned driving cylinder 7 Control instruction；And then in above-mentioned steps S2, the piston rod 71 of driving cylinder 7 shrinks and push-pull rod 3 is driven to move right, until In a mold by the locking of terminal 8.

As shown in Figure 1, the present embodiment middle casing 4 be equipped with spacing block set 43, the spacing block set 43 be used for on terminal 8 Neutron 81 leans.In above-mentioned steps S1, during terminal 8 is inserted into the right clamping gap 5, the neutron 81 on terminal 8 will Lean with spacing block set 43, and under the restriction effect of the spacing block set 43, terminal 8 stopping move right；At this time terminal 8 to The right side is inserted into the setting position in clamping gap 5.Terminal 8, which is effectively ensured, using the spacing block set 43 in the present embodiment can be inserted into folder Hold the setting position in gap 5.Meanwhile detection sensor 42 is close to switch in the present embodiment, this is mounted on limit close to switch On the convex block 43 of position.In above-mentioned steps S1, during the right end of terminal 8 to be inserted into the right to clamping gap 5, on terminal 8 in Son 81 will lean with the left side wall of spacing block set 43, and can sense neutron 81 close to switch at this time, be examined according to this close to switch The setting position that the terminal 8 has been inserted into clamping gap 5 is measured, and detection sensor 42 will be sent out accordingly to driving cylinder 7 Action command, the piston rod 71 to control driving cylinder 7 are shunk, and in a mold by the locking of terminal 8.The present embodiment neutron 81 is pre- Plastic, in above-mentioned steps S1, neutron 81 preformed at the middle part of terminal 8.

As shown in Figures 2 and 3, the left end of the above-mentioned push-pull rod of the present embodiment 3 is equipped with connection bump 32, above-mentioned upper kinematic link 12 lower end and the upper end of underdrive connecting rod 22 are hinged by the first axis pin 61 and the connection bump 32.Connection bump 32 is located at Between upper grip block 11 and lower grip block 21.In the present embodiment above-mentioned steps S2, when upper grip block 11 and lower grip block 21 are mutual When close to setting position, clamping gap 5 is in cavernous structure, which is also referred to as terminal hole.

Above-mentioned steps S1 and S2 are the clamping process of injection molding；Above-mentioned steps S4 is die sinking process.In above-mentioned steps S4, Drive signal is sent out to driving cylinder 7 by molding signal, the piston rod 71 of control driving cylinder 7 stretches out, to drive push-pull rod 3 to the left It is mobile, and realize and unclamp terminal 8 and connector, to complete one cycle.

Retaining mechanism and mold in the present embodiment, by above-mentioned corresponding mechanical transmission mechanism, in conjunction with the application of electricity, gas, Terminal 8 can be locked in mold, to prevent in injection molding process, terminal 8 generates movement, to effectively prevent because of terminal 8 is uneven and generate defective products.The present embodiment is realized using above-mentioned retaining mechanism and is fast and effectively fixed to terminal 8, to protect Demonstrate,prove the quality of injection molding connector and more efficient.Retaining mechanism is that a kind of high-precision connector is molded anti-channeling in the present embodiment Mechanism.

In conclusion the utility model effectively overcomes various shortcoming in the prior art and has high industrial exploitation value Value.

The above embodiments are only illustrative of the principle and efficacy of the utility model, new not for this practicality is limited Type.Any person skilled in the art can all carry out above-described embodiment under the spirit and scope without prejudice to the utility model Modifications and changes.Therefore, such as those of ordinary skill in the art without departing from the revealed essence of the utility model All equivalent modifications completed under refreshing and technological thought or change, should be covered by the claim of the utility model.

Claims (9)

1. a kind of retaining mechanism, which is characterized in that including upper grip block (11), the underlying lower grip block being located above (21) and push-pull rod (3), the upper grip block (11) and lower grip block (21) are hinged with shell (4), the shell (4) with Die ontology is affixed, and has clamping gap (5) between the left end of the upper grip block (11) and the left end of lower grip block (21), The right end of the upper grip block (11) is hinged with the upper end of upper kinematic link (12), and the right end of the lower grip block (21) is passed under The lower end of dynamic connecting rod (22) is hinged, and the lower end of the upper kinematic link (12) and the upper end of underdrive connecting rod (22) are and push-pull rod (3) left end is hinged, and the push-pull rod (3) can drive the upper end edge for uploading the lower end and underdrive connecting rod (22) of moving connecting rod (12) Left and right directions moves back and forth.

2. retaining mechanism according to claim 1, which is characterized in that the lower end of the upper kinematic link (12) and underdrive connect The upper end of bar (22) is hinged by the first axis pin (61) and the left end of push-pull rod (3).

3. retaining mechanism according to claim 1, which is characterized in that the work of the right end and driving cylinder (7) of the push-pull rod (3) Stopper rod (71) is connected, and the piston rod (71) of the driving cylinder (7) can drive push-pull rod (3) to move back and forth in left-right direction.

4. retaining mechanism according to claim 3, which is characterized in that the piston rod (71) and push-pull rod of the driving cylinder (7) (3) right end is hinged, and there is the pilot hole extended in left-right direction, the left end of the push-pull rod (3) to be embedded in the shell (4) In pilot hole.

5. retaining mechanism according to claim 4, which is characterized in that spacer pin (41) is installed on the shell (4), it is described Push-pull rod (3) is equipped with the long gain (31) extended in left-right direction, and the spacer pin (41) is embedded in long gain (31).

6. retaining mechanism according to claim 1, which is characterized in that clamping gap (5) is located at upper grip block (11) Between the upper surface of the left end of the lower surface of left end and lower grip block (21), and the lower surface of the left end of the upper grip block (11) Raised (111) equipped with upper clamping, the upper surface of the left end of the lower grip block (21) is equipped with lower clamping protrusion (211).

7. retaining mechanism according to claim 1, which is characterized in that be equipped with detection sensor (42) on the shell (4).

8. retaining mechanism according to claim 1, which is characterized in that the shell (4) is equipped with spacing block set (43), described Spacing block set (43) with the neutron (81) on terminal (8) for leaning.

9. a kind of mold, including die ontology, which is characterized in that the mold further includes as described in any one of claim 1 to 8 Retaining mechanism.