CN204914431U - Multicore lock pin injection mold - Google Patents

Abstract

The utility model relates to a multicore lock pin injection mold, comprises an upper die and a lower die, it is equipped with first recess to go up the mould, be fixed in the first mold core in the first recess, the lower mould be equipped with with the second recess of first groove phase to setting up, be fixed in the second mold core in the second recess, be located the first slider and the second slider of the both sides that the second mold core is relative respectively, first guide bar with first slider sliding fit, second guide bar with second slider sliding fit, drive first slider along the gliding drive arrangement of first guide bar, two gliding drive arrangement of second guide bar is followed to drive second slider, first mold core, the second mold core, first slider and the cooperation of second slider form and multicore lock pin shape complex die cavity. Relative motion is made along first guide bar, second guide bar respectively to first slider and second slider, and first slider, second slider, first mold core and the cooperation of second mold core form and multicore lock pin shape complex die cavity, guarantees the required precision of pouring back product.

Description

Multicore lock pin injection mold

Technical field

The utility model relates to lock pin processing technique field, particularly relates to a kind of multicore lock pin injection mold.

Background technology

At present, lock pin obtains a large amount of utilizations, particularly in technical field of optical fiber communication in field of data transmission.Lock pin is as the important component part of the joints of optical fibre, and exactly the docking of two of optical fiber end face precisions is got up, and the axle center of two optical fiber is accurately aimed at, therefore the dimensional requirement of lock pin is high.At present along with a large amount of of the communication technology popularize, need the data grows of transmission many, the lock pin generally used at present generally is single core lock pin, and the transmission data of single core lock pin are few, and the transmitted data amount of multicore lock pin is large, therefore the technology of a large amount of development multicore lock pin is needed in the future, but at present multicore lock pin production technology is immature, and the complicated structure of multicore lock pin, the production of multicore lock pin originally cannot be applicable to for the production of the production technology of single core lock pin, and complex process, production efficiency is low.

Utility model content

The purpose of this utility model is to provide a kind of multicore lock pin injection mold, can simplify the production technology of multicore lock pin, improves the production efficiency of multicore lock pin, ensures the required precision of lock pin.

For realizing the purpose of this utility model, the technical scheme taked is:

A kind of multicore lock pin injection mold, comprise upper die and lower die, patrix is provided with the first groove, be fixed on the first core rod in the first groove, counterdie is provided with the second groove be oppositely arranged with the first groove, be fixed on the second core rod in the second groove, lay respectively at the first slide block and second slide block of the relative both sides of the second core rod, the first guide post coordinated with the first skid, the second guide post coordinated with the second skid, drive the first drive unit that the first slide block slides along the first guide post, drive the second drive unit that the second slide block slides along the second guide post, first guide post and the second guide post are all fixed in the second groove, first guide post and the second guide post be arranged in parallel, first core rod, second core rod, first slide block and the second slide block coordinate the die cavity formed with multicore lock pin form fit.

Before injection molding, first slide block and the second slide block do relative motion along the first guide post, the second guide post respectively, ensure the accurate location of the first slide block and the second slide block, first slide block, the second slide block, the first core rod and the second core rod coordinate the die cavity formed with multicore lock pin form fit, make the size of die cavity more accurate, ensure the required precision of the rear product of cast.Formed after die cavity, by toward die cavity cast plastic liquid, after the demoulding, form multicore lock pin finished product, without the need to secondary operations again, greatly simplify the production technology of lock pin, improve the production efficiency of lock pin.

Below technical scheme is further illustrated:

Be further, multicore lock pin injection mold comprises two symmetrically arranged first guide posts and two symmetrically arranged second guide posts, first slide block is provided with the first sliding tray coordinated with the first guide post, and the second slide block is provided with the second sliding tray coordinated with the second guide post.First slide block slides along two the first guide posts of symmetry, second slide block slides along two the second guide posts of symmetry, make the first slide block and the second skid more stable, make the more accurate positioning of the first slide block and the second slide block, coordinate formed cavity dimension precision higher.

Be further, multicore lock pin injection mold also comprises along the first axial arranged spring of the first guide post with along axial arranged the second spring of the second guide post, first spring is between the first slide block and the second core rod, and the second spring is between the second slide block and the second core rod.By arranging the first spring between the first slide block and the second core rod, second spring is set between the second slide block and the second core rod, prevent the first drive unit in driving first slide block moving process, the second drive unit is in driving second slide block moving process, first slide block and the second slide block and the second core rod collide, also play the effect of buffering when matched moulds, ensure kinematic accuracy.

Further, the first core rod, the second core rod are equipped with the first cooling water channel around die cavity periphery.In injection moulding process, because the temperature of plastic liquid is very high, wayward, and easily make the mould generation deformation near die cavity, by being equipped with the first cooling water channel at the first core rod, the second core rod near the side of die cavity, control the forming temperature of plastic liquid, and prevent mould from deforming, ensure the high accuracy size of product.

Further, the first core rod and the second core rod are equipped with the second cooling water channel, and the second cooling water channel is positioned at the side of the first cooling water channel away from die cavity, and the second cooling water channel and the first cooling water channel are symmetrical arranged.Independently the second cooling water channel and the first cooling water channel complementary balanced, and adopt two symmetrical cooling water channels, with balanced type mould flow control technology, accurate coutroi velocity is to the quality of formed product.

Be further, multicore lock pin injection mold also comprises the first locking device and the second locking device, first locking device comprises the first power set, one end is connected with the first power set first locks post, the other end of the first locking post is provided with the first taper pin, first slide block is provided with the first taper pin cover coordinated with the first taper pin, second locking device comprises the second power set, one end is connected with the second power set second locks post, the other end of the second locking post is provided with the second taper pin, and the second slide block is provided with the second taper pin cover coordinated with the second taper pin.After first slide block, the second slide block, the first core rod and the second core rod coordinate formation die cavity, before injection moulding, first by the cooperation of the first taper pin and the first taper pin cover, the first slide block is held out against, by the cooperation of the second taper pin and the second taper pin cover, the second slide block is held out against, prevent in cast and forming process, first slide block and the second slide block are moved, and ensure the quality of product.

Further, multicore lock pin injection mold comprises symmetrically arranged two the first locking devices and symmetrically arranged two the second locking devices.Respectively the first slide block and the second slide block are held out against by two the first locking devices of symmetry and the second locking device, make the first slide block and the second slide block is stressed more balances.

Further, multicore lock pin injection mold also comprises control device, and the first drive unit, the second drive unit, the first locking device and the second locking device are all electrically connected with control device.Automatically control whole action of mould by control device and automatically detect execution, making mold injection loop control accurate, and enhance productivity.

Be further, the periphery of patrix is provided with at least two outer guiding posts be oppositely arranged, counterdie is provided with the locating hole coordinated with outer guiding post, the opposite face of upper die and lower die is provided with the 3rd taper pin and the third hand tap guide cooperatively interacted, and the opposite face of the first core rod and the second core rod is provided with the 4th taper pin and the 4th taper pin cover that cooperatively interact.Upper die and lower die first realize coarse positioning by the cooperation of outer guiding post and locating hole, the second location is realized again by the cooperation of the 3rd taper pin and third hand tap guide, hi-Fix is realized finally by the 4th taper pin and the cooperation of the 4th taper pin cover, upper die and lower die are by three grades of location, make the installation of upper die and lower die more accurate, improve the formed precision of product.

Further, patrix comprises the top board, stripper plate and the mold core plates that set gradually from top to bottom, and top board, stripper plate and top board are equipped with the fixing hole coordinated with outer guiding post, is provided with the 3rd spring between stripper plate and mold core plates.External guide pole sleeve is located at fixing hole, and top board, stripper plate and mold core plates are combined into patrix, and is provided with the 3rd spring between stripper plate and mold core plates, in die sinking process, is conducive to realizing being separated of stripper plate and mold core plates.

Compared with prior art, the utility model has following beneficial effect:

The utility model is before injection molding, first slide block and the second slide block do relative motion along the first guide post, the second guide post respectively, ensure the accurate location of the first slide block and the second slide block, first slide block, the second slide block, the first core rod and the second core rod coordinate the die cavity formed with multicore lock pin form fit, make the size of die cavity more accurate, ensure the required precision of the rear product of cast.Formed after die cavity, by toward die cavity cast plastic liquid, after the demoulding, form multicore lock pin finished product, without the need to secondary operations again, greatly simplify the production technology of lock pin, improve the production efficiency of lock pin.

Accompanying drawing explanation

Fig. 1 is the structural representation one of the utility model embodiment multicore lock pin injection mold;

Fig. 2 is the structural representation two of the utility model embodiment multicore lock pin injection mold;

Fig. 3 is the structural representation of the utility model embodiment die cavity;

Fig. 4 is the position view of the utility model embodiment first cooling water channel, the second cooling water channel and die cavity;

Fig. 5 is the assembling schematic diagram of the utility model embodiment first drive unit and the first slide block;

Fig. 6 is the structural representation of the utility model embodiment counterdie;

Fig. 7 is the structural representation of the utility model embodiment multicore lock pin.

Description of reference numerals:

10. patrix, 101. thermal insulation board, 102. top board, 103. stripper plate, 104. mold core plates, 1041. locating slot, 110. first core rods, 114. the 4th taper pins, 120. first grooves, 130. outer guiding post, 140. the 3rd taper pins, 150. fixing hole, 160. crochet hook plates, 20. counterdies, 210. second core rods, 211. the 4th taper pin covers, 220. first slide blocks, 221. first taper pin covers, 222. the 5th taper pin covers, 230. second slide blocks, 231. second taper pin covers, 232. the 6th taper pin covers, 240. second grooves, 251. first guide posts, 252. second guide posts, 260. first springs, 280. third hand tap guidees, 310. first drive units, 311. the 3rd power set, 312. first drive post, 3121. the 5th taper pins, 320. second drive units, 321. the 4th power set, 322. second drive post, 3221. the 6th taper pins, 40. die cavities, 510. first cooling water channels, 520. second cooling water channels, 610. first locking devices, 611. first power set, 612. first locking posts, 6121. the first taper pin, 620. second locking devices, 621. second power set, 622. second locking posts, 6221. the second taper pin, 70. interchangeable fixed covers, 80. the 3rd springs.

Detailed description of the invention

Below in conjunction with accompanying drawing, embodiment of the present utility model is described in detail:

As shown in Figure 1 to Figure 3, a kind of multicore lock pin injection mold, comprise patrix 10 and counterdie 20, patrix 10 is provided with the first groove 120, be fixed on the first core rod 110 in the first groove 120, counterdie 20 is provided with the second groove 240 be oppositely arranged with the first groove 120, be fixed on the second core rod 210 in the second groove 240, lay respectively at the first slide block 220 and the second slide block 230 of the relative both sides of the second core rod 210, the first guide post 251 be slidably matched with the first slide block 220, the second guide post 252 be slidably matched with the second slide block 230, drive the first drive unit 310 that the first slide block 220 slides along the first guide post 251, drive the second drive unit 320 that the second slide block 230 slides along the second guide post 252, first guide post 251 and the second guide post 252 to be all fixed in the second groove 240, first guide post 251 and the second guide post 252 be arranged in parallel, first core rod 110, second core rod 120, first slide block 220 and the second slide block 230 coordinate the die cavity 40 formed with multicore lock pin form fit.

Before injection molding, first slide block 220 and the second slide block 230 do relative motion along the first guide post 251, second guide post 252 respectively, ensure the accurate location of the first slide block 220 and the second slide block 230, first slide block 220, second slide block 230, first core rod 110 and the second core rod 210 coordinate the die cavity 40 formed with multicore lock pin form fit, make the size of die cavity 40 more accurate, ensure the required precision of the rear product of cast.Being formed after die cavity 40, by pouring into a mould plastic liquid toward die cavity 40, as shown in Figure 7, after the demoulding, forming multicore lock pin finished product, without the need to secondary operations again, greatly simplify the production technology of lock pin, improve the production efficiency of lock pin.

In the present embodiment, as shown in Figure 1, multicore lock pin injection mold comprises two symmetrically arranged first guide posts 251 and two symmetrically arranged second guide posts 252, first slide block 220 is provided with the first sliding tray (accompanying drawing does not identify) coordinated with the first guide post 251, and the second slide block 230 is provided with the second sliding tray (accompanying drawing does not identify) coordinated with the second guide post 252.First slide block 220 slides along two the first guide posts 251 of symmetry, second slide block 230 slides along two the second guide posts 252 of symmetry, the first slide block 220 and the second slide block 230 is made to slide more stable, make the more accurate positioning of the first slide block 220 and the second slide block 230, coordinate die cavity 40 dimensional accuracy formed higher.

As shown in Figure 3, multicore lock pin injection mold also comprises along the first axial arranged spring 260 of the first guide post 251 with along axial arranged the second spring (accompanying drawing does not identify) of the second guide post 252, first spring 260 is between the first slide block 220 and the second core rod 210, and the second spring is between the second slide block 230 and the second core rod 210.By arranging the first spring 260 between the first slide block 220 and the second core rod 210, between the second slide block 230 and the second core rod 210, the second spring is set, prevent the first drive unit 310 in driving first slide block 220 moving process, the second drive unit 320 is in driving second slide block 230 moving process, first slide block 220 and the second slide block 230 and the second core rod 210 collide, first spring 260 and the second spring also play the effect of buffering when matched moulds, ensure kinematic accuracy.

As shown in Figure 4, the first core rod 110, second core rod 210, first slide block 220 and the second slide block 230 are equipped with the first cooling water channel 510 around die cavity 40 periphery.In injection moulding process, because the temperature of plastic liquid is very high, wayward, and easily make the mould generation deformation near die cavity 40, by being equipped with the first cooling water channel 510 at the first core rod 110, second core rod 210, first slide block 220 and the second slide block 230 near the side of die cavity 40, control the forming temperature of plastic liquid, and prevent mould from deforming, ensure the high accuracy size of product.

As shown in Figure 4, the first core rod 110 and the second core rod 210 are equipped with the second cooling water channel 520, second cooling water channel 520 and are positioned at the side of the first cooling water channel 510 away from die cavity 40, and the second cooling water channel 520 and the first cooling water channel 510 are symmetrical arranged.Independently the second cooling water channel 520 and the first cooling water channel 510 complementary balanced, and adopt two symmetrical cooling water channels, with balanced type mould flow control technology, accurate coutroi velocity is to the quality of formed product.

As shown in Figure 1, multicore lock pin injection mold also comprises the first locking device 610 and the second locking device 620, first locking device 610 comprises the first power set 611, what one end was connected with the first power set 611 first locks post 612, the other end of the first locking post 612 is provided with the first taper pin 6121, first slide block 220 is provided with the first taper pin coordinated with the first taper pin 6121 and overlaps 221, second locking device 620 comprises the second power set 621, what one end was connected with the second power set 621 second locks post 622, the other end of the second locking post 622 is provided with the second taper pin 6221, second slide block 230 is provided with the second taper pin coordinated with the second taper pin 6221 and overlaps 231.After first slide block 220, second slide block 230, first core rod 110 and the second core rod 210 coordinate formation die cavity 40, before injection moulding, first by the cooperation of the first taper pin 6121 and the first taper pin cover 221, first slide block 220 is held out against, by the cooperation of the second taper pin 6221 and the second taper pin cover 231, second slide block 230 is held out against, prevent in cast and forming process, first slide block 220 and the second slide block 230 are moved, and ensure the quality of product.

In the present embodiment, multicore lock pin injection mold comprises symmetrically arranged two the first locking devices 610 and symmetrically arranged two the second locking devices 620.Respectively the first slide block 220 and the second slide block 230 are held out against by two the first locking devices 610 of symmetry and the second locking device 620, make the first slide block 220 and the second slide block 230 is stressed more balances.

As shown in Figure 5, the first drive post 312 that described first drive unit 310 comprises the 3rd power set 311, one end is connected with the 3rd power set 311, the other end of the first drive post 312 is provided with the 5th taper pin 3121, first slide block 220 is provided with the 5th taper pin coordinated with the 5th taper pin 3121 and overlaps 222, the second drive post 322 that second drive unit 320 comprises the 4th power set 321, one end is connected with the 4th power set 321, the other end of the second drive post 322 is provided with the 6th taper pin 3221, second slide block 230 and is provided with the 6th taper pin coordinated with the 6th taper pin 3221 and overlaps 232.

In the present embodiment, first power set 611, second power set 621, the 3rd power set 311 and the 4th power set 321 are cylinder, and the first power set 611, second power set 621, the 3rd power set 311 and the 4th power set 321 are cylinder and can also be set to other forms of power set according to actual needs.

Multicore lock pin injection mold also comprises control device (accompanying drawing does not identify), and the first drive unit 310, second drive unit 320, first locking device 610 and the second locking device 620 are all electrically connected with control device.Automatically control whole action of mould by control device and automatically detect execution, making mold injection loop control accurate, and enhance productivity.

As shown in Figure 2 and Figure 6, four angles of patrix 10 periphery are respectively equipped with an outer guiding post 130, counterdie 20 is provided with the locating hole 270 coordinated with outer guiding post 130, patrix 10 is provided with the 3rd taper pin 140, counterdie 20 is provided with the third hand tap guide 280 coordinated with the 3rd taper pin 140, first core rod 110 is provided with the 4th taper pin 114, second core rod 210 and is provided with the 4th taper pin coordinated with the 4th taper pin 114 and overlaps 211.Patrix 10 and counterdie 20 first realize coarse positioning by the cooperation of outer guiding post 130 and locating hole 270, second time location is realized again by the cooperation of the 3rd taper pin 140 and third hand tap guide 280, coordinate finally by the 4th taper pin 150 and the 4th taper pin cover 211 and realize hi-Fix, patrix 10 and counterdie 20 are by three grades of location, make the installation of patrix 10 and counterdie 20 more accurate, improve the formed precision of product.3rd taper pin 140 can also be arranged on counterdie 20 according to actual needs, and third hand tap guide 280 is arranged on patrix 10; 4th taper pin 114 can also be arranged on the second core rod 210 according to actual needs, and the 4th taper pin cover 211 is arranged on the first model.

As shown in Figure 2, top board 102, stripper plate 103 and top board 102 are equipped with the fixing hole 150 coordinated with outer guiding post 130, are provided with spring 80 between stripper plate 103 and mold core plates 104.Outer guiding post 130 is sheathed on fixing hole 150, top board 102, stripper plate 103 and mold core plates 104 are combined into patrix 10, and between stripper plate 103 and mold core plates 104, be provided with the 3rd spring 80, in die sinking process, be conducive to realizing being separated of stripper plate 103 and mold core plates 104.

As shown in Figure 2, stripper plate 103 is also provided with crochet hook plate 160 with the opposite face of mold core plates 104, and mold core plates 104 is provided with the locating slot 1041 coordinated with crochet hook plate 160, the installation of stripper plate 103 and core rod is located more accurate.

Each technical characteristic of the above embodiment can combine arbitrarily, for making description succinct, the all possible combination of each technical characteristic in above-described embodiment is not all described, but, as long as the combination of these technical characteristics does not exist contradiction, be all considered to be the scope that this description is recorded.

The above embodiment only have expressed several embodiment of the present utility model, and it describes comparatively concrete and detailed, but therefore can not be interpreted as the restriction to utility model patent scope.It should be pointed out that for the person of ordinary skill of the art, without departing from the concept of the premise utility, can also make some distortion and improvement, these all belong to protection domain of the present utility model.Therefore, the protection domain of the utility model patent should be as the criterion with claims.

Claims (10)

1. a multicore lock pin injection mold, it is characterized in that, comprise upper die and lower die, described patrix is provided with the first groove, be fixed on the first core rod in described first groove, described counterdie is provided with the second groove be oppositely arranged with described first groove, be fixed on the second core rod in described second groove, lay respectively at the first slide block and second slide block of the relative both sides of described second core rod, at least one the first guide post coordinated with described first skid, at least one the second guide post coordinated with described second skid, drive the first drive unit that described first slide block slides along described first guide post, drive the second drive unit that described second slide block slides along described second guide post, described first guide post and described second guide post are all fixed in the second groove, described first guide post and described second guide post be arranged in parallel, described first core rod, described second core rod, described first slide block and described second slide block coordinate the die cavity formed with multicore lock pin form fit.

2. multicore lock pin injection mold according to claim 1, it is characterized in that, comprise two symmetrically arranged described first guide posts and two symmetrically arranged described second guide posts, described first slide block is provided with the first sliding tray coordinated with described first guide post, and described second slide block is provided with the second sliding tray coordinated with described second guide post.

3. multicore lock pin injection mold according to claim 1, it is characterized in that, also comprise along the first axial arranged spring of described first guide post with along axial arranged the second spring of described second guide post, described first spring is between described first slide block and described second core rod, and described second spring is between described second slide block and described second core rod.

4. multicore lock pin injection mold according to claim 1, is characterized in that, described first core rod, described second core rod are equipped with the first cooling water channel around described die cavity periphery.

5. multicore lock pin injection mold according to claim 4, it is characterized in that, described first core rod and described second core rod are equipped with the second cooling water channel, described second cooling water channel is positioned at the side of described first cooling water channel away from described die cavity, and described second cooling water channel and described first cooling water channel are symmetrical arranged.

6. multicore lock pin injection mold according to claim 1, it is characterized in that, also comprise the first locking device and the second locking device, described first locking device comprises the first power set, what one end was connected with described first power set first locks post, the other end of described first locking post is provided with the first taper pin, described first slide block is provided with the first taper pin cover coordinated with described first taper pin, described second locking device comprises the second power set, what one end was connected with described second power set second locks post, the other end of described second locking post is provided with the second taper pin, described second slide block is provided with the second taper pin cover coordinated with described second taper pin.

7. multicore lock pin injection mold according to claim 6, is characterized in that, comprises symmetrically arranged two described first locking devices and symmetrically arranged two described second locking devices.

8. multicore lock pin injection mold according to claim 6, it is characterized in that, also comprise control device, described first drive unit, described second drive unit, described first locking device and described second locking device are all electrically connected with described control device.

9. the multicore lock pin injection mold according to any one of claim 1 to 8, it is characterized in that, the periphery of described patrix is provided with at least two outer guiding posts be oppositely arranged, described counterdie is provided with the locating hole coordinated with described outer guiding post, the opposite face of described upper die and lower die is provided with the 3rd taper pin and the third hand tap guide cooperatively interacted, and the opposite face of described first core rod and the second core rod is provided with the 4th taper pin and the 4th taper pin cover that cooperatively interact.

10. multicore lock pin injection mold according to claim 9, it is characterized in that, described patrix comprises the top board, stripper plate and the mold core plates that set gradually from top to bottom, described top board, described stripper plate and described top board are equipped with the fixing hole coordinated with described outer guiding post, are provided with the 3rd spring between described stripper plate and described mold core plates.