CN205326212U - Take mould of cooling body - Google Patents

Abstract

The utility model discloses a take mould of cooling body, it includes the cooling body. The cooling body includes first inlet channel, second inlet channel, first cooling pipe and second cooling pipe. First inlet channel is located the movable mould seat, and first cooling pipe is located movable mould mechanism, and this first cooling pipe is through a first switching -over pipe connection to first inlet channel. The second inlet channel is located the cover half seat, and the second cooling pipe is located cover half mechanism, and this second cooling pipe is through second switching -over pipe connection to second inlet channel. Directly arrange the cooling pipe in the both sides of die cavity the direct piped water supply of intaking by transversal arrangement of cooling pipe reaches even refrigerated purpose. The switching -over pipeline is direct to comprise the blind hole in movable mould mechanism and cover half mechanism, and the switching -over pipeline can be constituteed to lock cover half and cover half.

Description

A kind of mould with cooling body

Technical field

This utility model relates to a kind of mould with cooling body, is used for producing injecting products。

Background technology

Equipment for cooling die includes water-cooled, air-cooled etc., such as 200410091921.X, as described in 201410231388.6 and 201210182176.4 etc.。200410091921.X employing air-cooled structure, the die cavity that this mould is corresponding is provided with at least heat pipe, and this heat pipe has evaporator section and condensation segment。This heat pipe evaporator section is embedded in around the die cavity of mould, and this heat pipe condenser section stretches out in mold outer surface。This mould is additionally provided with the fan promoting that heat pipe condenser section and air carry out heat exchange。How to ensure that air-cooled gas flow is this case yet unresolved issue。201410231388.6 what adopt is water-cooling structure。This water cooling mold includes bed die, water-cooled insert and water inlet pipe, outlet pipe。Bed die back of the body correspondence wheel center position, chamber arranges annular groove, and annular groove arranges water-cooled insert, forms cavity between water-cooled insert and annular groove, and water-cooled insert arranges inlet opening, apopore, inlet opening and the distribution of apopore centrosymmetry。The water inlet closure of described water inlet pipe, water inlet tube wall sidewall is symmetrical arranged two through holes, and two through holes are parallel with the radial cross-section of annular groove。This case is by changing runner layout, it is ensured that uniformly cool down, it is possible to as the reference of the application。

Utility model content

The utility model proposes a kind of mould with cooling body, optimize the layout of cooling pipe, reach the purpose of uniformly cooling。

The technical solution of the utility model is achieved in that

A kind of mould with cooling body, it is characterized in that including: cover half seat, fixed die mechanism, dynamic model seat, dynamic model mechanism and cooling body, described fixed die mechanism and dynamic model mechanism form a die cavity, described cooling body includes the first inlet channel, second inlet channel, first cooling pipe and the second cooling pipe, wherein, described first inlet channel is positioned at described dynamic model seat, the end of described first inlet channel is provided with the first sealing-plug, described first cooling pipe is positioned at described dynamic model mechanism, this the first cooling pipe is positioned at the top of described die cavity, this first cooling pipe is connected to described first inlet channel through one first commutation pipeline；Described second inlet channel is positioned at described cover half seat; the end of described second inlet channel is provided with the second sealing-plug; described second cooling pipe is positioned at described fixed die mechanism; this the second cooling pipe is positioned at the lower section of described die cavity, and this second cooling pipe is connected to described second inlet channel through one second commutation pipeline。

Of the present utility model with in the mould of cooling body; described first commutation pipeline is made up of upper linkage section and lower linkage section; described upper linkage section is positioned at described dynamic model mechanism, and described lower linkage section is positioned at described fixed die mechanism, and this is provided with sealing ring between linkage section and lower linkage section。

Of the present utility model with in the mould of cooling body, this mould also includes the pitched ejection mechanism of at least one。

Of the present utility model with, in the mould of cooling body, being provided with the first cylinder in described cover half seat, this first cylinder is connected to a push plate, and this push plate is connected to described pitched ejection mechanism。

Of the present utility model with in the mould of cooling body, this mould also includes the acceleration ejecting mechanism of at least one。

Implementing this mould with cooling body of the present utility model, have the advantages that the both sides that cooling pipe is directly arranged at die cavity, cooling pipe is directly supplied water by the inlet channel of lateral arrangement, reaches the purpose of uniformly cooling。Commutation pipeline is directly made up of the blind hole in dynamic model mechanism and fixed die mechanism, fastens cover half and cover half can form commutation pipeline。Sealing ring avoids connecting portion to leak。Push plate controls pitched ejection mechanism from below and accelerates ejecting mechanism motion, simple in construction, and avoids interfering with cooling body。

Accompanying drawing explanation

Fig. 1 is the schematic diagram of this mould of the present utility model；

Fig. 2 is the partial view of Fig. 1；

Fig. 3 is the schematic diagram under another state of Fig. 2；

Fig. 4 is the schematic diagram of the regulating block of Fig. 2；

Fig. 5 is the schematic diagram under another preferred implementation of Fig. 1；

Fig. 6 is the schematic diagram under another state of Fig. 5；

Fig. 7 is the schematic diagram of the oblique top pin of 5；

Fig. 8 is the schematic diagram of the jacking block of 5；

Fig. 9 is the schematic diagram under another preferred implementation of Fig. 1；

Figure 10 is the schematic diagram under another state of Fig. 9；

Figure 11 is the partial view of Fig. 9, main presentation reverse buckle demolding mechanism；

Figure 12 is the schematic diagram of another state of mould of the present utility model, main presentation cooling body；

Figure 13 is the schematic diagram of the other direction of Figure 12。

Detailed description of the invention

Below in conjunction with the accompanying drawing in this utility model embodiment, the technical scheme in this utility model embodiment is clearly and completely described。

Such as Fig. 1 to the of the present utility model this mould as described in 13, it includes cover half seat 100, fixed die mechanism 200, dynamic model seat 300, dynamic model mechanism 400 and the acceleration ejecting mechanism 500 set up, pitched ejection mechanism 600, reverse buckle demolding mechanism 700 and cooling body 800。Described fixed die mechanism 200 forms a die cavity 001 with dynamic model mechanism 400; this cover half seat 100 be connected with accommodation portion 110; being provided with the first cylinder 120 in described cover half seat 100, this first cylinder 120 is connected to a push plate 130, and this push plate 130 is positioned at described accommodation section 110。The shape of die cavity 001 is identical with workpiece 002, and push plate 130 moves back and forth under the effect of the first cylinder 120。This push plate 130 is connected to accelerate ejecting mechanism 500 and pitched ejection mechanism 600, and product is ejected by the effect end of this acceleration ejecting mechanism 500 and pitched ejection mechanism 600。Reverse buckle demolding mechanism 700 is used for making product back-off, and in the process of cover half seat 100 motion, reverse buckle demolding mechanism 700 departs from product。

Described cooling body 800 includes the first inlet channel the 810, second inlet channel the 820, first cooling pipe 830 and the second cooling pipe 840。Described first inlet channel 810 is positioned at described dynamic model seat 300, and the end of described first inlet channel 810 is provided with the first sealing-plug 811, after injecting cold water, installs the first sealing-plug 811 and can avoid flowing backwards。This first sealing-plug 811 can be threaded sealing structure。Described first cooling pipe 830 is positioned at described dynamic model mechanism 400, and this first cooling pipe 830 is positioned at the top of described die cavity 001。This first cooling pipe 830 is connected to described first inlet channel 810 through one first commutation pipeline 850。Described first commutation pipeline 850 is made up of upper linkage section 851 and lower linkage section 852, and described upper linkage section 851 is positioned at described dynamic model mechanism 400, and described lower linkage section 852 is positioned at described fixed die mechanism 200。Commutation pipeline is directly made up of the blind hole in dynamic model mechanism 400 and fixed die mechanism 200, fastens cover half and cover half can form commutation pipeline。Being provided with sealing ring 853 between linkage section 851 and lower linkage section 852 on this, sealing ring 853 avoids connecting portion to leak。Described second inlet channel 820 is positioned at described cover half seat 100, and the end of described second inlet channel 820 is provided with the second sealing-plug 821。Described second cooling pipe 840 is positioned at described fixed die mechanism 200, and this second cooling pipe 840 is positioned at the lower section of described die cavity 001。This second cooling pipe 840 is connected to described second inlet channel 820 through one second commutation pipeline 860。Cooling pipe is directly arranged at the both sides of die cavity 001, and cooling pipe is directly supplied water by the inlet channel of lateral arrangement, reaches the purpose of uniformly cooling。In the present embodiment, push plate 130 controls pitched ejection mechanism 600 from below and acceleration ejecting mechanism 500 moves, simple in construction, and avoids interfering with cooling body 800。

Described acceleration ejecting mechanism 500 includes regulating block 510, actively push rod 520 and driven push rod 530。Described regulating block 510 includes rotating shaft 511 and is positioned at initiative part 513 and the follower 512 of these rotating shaft 511 both sides, and this rotating shaft 511 is positioned at described push plate 130, and described active push rod 520 and driven push rod 530 are all slidably through described push plate 130。In the present embodiment, described push plate 130 has a loose slot 131, and this regulating block 510 is positioned at this loose slot 131。The lower end of described active push rod 520 is positioned at the top of described initiative part 513, and actively push rod 520 upper end is positioned at the lower section of described cover half seat 100。Actively push rod 520 is in a free state, relatively stable relative to the position of push plate 130。When the upper-end contact of active push rod 520 is to after cover half seat 100, actively push rod 520 slide downward, drive initiative part 513 to rotate。Under the effect of lever, follower 512 is rotated up。The lower end of described driven push rod 530 is connected to described follower 512, and described die cavity 001 is stretched in the upper end of driven push rod 530。When follower 512 is rotated up, driven push rod 530 can be forced to be rotated up。First cylinder 120 drives push plate 130 to move, and push plate 130 is adjusted block 510 and drives driven push rod 530 ejecting product。Now the sliding speed of driven push rod 530 is the basal rate velocity of rotation plus follower 512 of push plate 130。The driven firm ejecting product hourly velocity of push rod 530 is relatively low, it is to avoid damage product。After product ejects, driven push rod 530 high-speed motion, improves product and ejects speed。

It is also preferred that the left described follower 512 includes sliding tray 514 and draw-in groove 515, described driven push rod 530 is through this sliding tray 514, and the lower end of this driven push rod 530 is provided with an Access Division 516, and this Access Division 516 is positioned at described draw-in groove 515。Draw-in groove 515 ensures that driven push rod 530 is without departing from follower 512。Described initiative part 513 is made up of interconnective positive guide plane 517 and positive guide inclined-plane 518, and this positive guide inclined-plane 518 is between described positive guide plane 517 and described rotating shaft 511。During original state, positive guide plane 517 is positioned on horizontal plane, and actively push rod 520 is positioned in positive guide plane 517, it is ensured that active push rod 520 stability under loading now。During end-state, positive guide inclined-plane 518 is positioned on horizontal plane, and actively push rod 520 is positioned on positive guide inclined-plane 518, it is ensured that active push rod 520 stability under loading now。The bottom surface 519 of described draw-in groove 515 is made up of interconnective driven guide plane and driven lead-in chamfered, and this driven guide plane is between described driven lead-in chamfered and described rotating shaft 511。Same, this structure is it is also ensured that driven push rod 530 is stablized at initial and end-state lower stress。

In the present embodiment, pitched ejection mechanism 600 includes oblique top pin 610 and jacking block 620。Described cover half seat 100 is provided with a through hole 140, the described oblique top pin 610 described through hole 140 of traverse。This through hole 140 be connected with guide pad 120, this guide pad 120 has an inclined hole 121, and described oblique top pin 610 is through this inclined hole 121。Described jacking block 620 is fixed in described push plate 130, and this jacking block 620 is provided with chute 621。The upper end of this oblique top pin 610 is provided with forming part 611, and lower end is provided with sliding part 612。Described sliding part 612 is positioned at described chute 621, and when jacking block 620 moves up, sliding part 612 slides along this chute 621 while movement。It is also preferred that the left described sliding part 612 has a screens groove 613, described chute 621 is provided with a screens portion 622, and this screens portion 622 stretches into described screens groove 613。Described forming part 611 is positioned at described die cavity 001, and this forming part 611 and die cavity 001 jointly surround product and hold space。Forming part 611 larger in size, through hole 140 and inclined hole 121 limit this forming part 611 and move。It is also preferred that the left described fixed die mechanism 200 has a forming tank 210, described forming part 611 is positioned at this forming tank 210。Push plate 130 drives jacking block 620 to move, and jacking block 620 promotes oblique top pin 610 to move upward, and owing to oblique top pin 610 is positioned at through hole 140, this oblique top pin 610 slides to the inside while moving up。Jacking block 620 drives oblique top pin 610 to move by its chute 621, and chute 621 both sides are opened wide, it is provided that enough mobile spaces。When preventing the demoulding, oblique top pin 610 distance product is excessively near, damages product。

Described reverse buckle demolding mechanism 700 includes keeper 710, back-off part 720, guide rod 730 and spring 740。Described keeper 710 is fixed on the lower section of described dynamic model seat 300, and the upper end of described guide rod 730 is fixed in described keeper 710。Guide rod 730 is diagonally disposed, and in the die sinking process of cover half seat 100, guide rod 730 moves up therewith。Described fixed die mechanism 200 has a holding tank 220, and described back-off part 720 is slidably disposed in this holding tank 220。This back-off part 720 is provided with back-off forming part 721 and pilot hole 722, and described back-off forming part 721 stretches into described die cavity 001, and described pilot hole 722 is stretched in the lower end of described guide rod 730。Back-off part 720 is limited in holding tank 220, and when guide rod 730 moves, back-off part 720 moves to the inside, and back-off forming part 721 departs from product。Guide rod 730 guides back-off part 720 to loose core, and compact conformation advantageously reduces mould volume。One end of described spring 740 is positioned at described holding tank 220, and the other end is connected to described back-off part 720。After the effect losing guide rod 730, back-off part 720 is maintained at inner terminal by spring 740, and now back-off forming part 721 will not hinder product stripping。Spring 740 keeps the position of back-off part 720, improves the positional precision of back-off。Described back-off part 720 has the first spigot surface 723, and described keeper 710 has the second spigot surface 711, and this first spigot surface 723 is resisted against on described second spigot surface 711。Described first spigot surface 723 is parallel to described guide rod 730。First spigot surface 723 and the second spigot surface 711 can guide keeper 710 and the slip of back-off part 720。Having a backing plate 221 in described holding tank 220, described spring 740 is resisted against on this backing plate 221。Can pass through to change different backing plates 221, change the rate of tension of spring 740。

The foregoing is only preferred embodiment of the present utility model; not in order to limit this utility model; all within spirit of the present utility model and principle, any amendment of making, equivalent replacement, improvement etc., should be included within protection domain of the present utility model。

Claims (5)

1. the mould with cooling body, it is characterized in that including: cover half seat, fixed die mechanism, dynamic model seat, dynamic model mechanism and cooling body, described fixed die mechanism and dynamic model mechanism form a die cavity, described cooling body includes the first inlet channel, second inlet channel, first cooling pipe and the second cooling pipe, wherein, described first inlet channel is positioned at described dynamic model seat, the end of described first inlet channel is provided with the first sealing-plug, described first cooling pipe is positioned at described dynamic model mechanism, this the first cooling pipe is positioned at the top of described die cavity, this first cooling pipe is connected to described first inlet channel through one first commutation pipeline；Described second inlet channel is positioned at described cover half seat; the end of described second inlet channel is provided with the second sealing-plug; described second cooling pipe is positioned at described fixed die mechanism; this the second cooling pipe is positioned at the lower section of described die cavity, and this second cooling pipe is connected to described second inlet channel through one second commutation pipeline。

2. the mould with cooling body according to claim 1; it is characterized in that; described first commutation pipeline is made up of upper linkage section and lower linkage section; described upper linkage section is positioned at described dynamic model mechanism; described lower linkage section is positioned at described fixed die mechanism, and this is provided with sealing ring between linkage section and lower linkage section。

3. the mould with cooling body according to claim 1, it is characterised in that this mould also includes the pitched ejection mechanism of at least one。

4. the mould with cooling body according to claim 3, it is characterised in that be provided with the first cylinder in described cover half seat, this first cylinder is connected to a push plate, and this push plate is connected to described pitched ejection mechanism。

5. the mould with cooling body according to claim 1, it is characterised in that this mould also includes the acceleration ejecting mechanism of at least one。