CN116444131A - Processing die capable of reducing defective rate - Google Patents

Abstract

The invention provides a processing die capable of reducing the defective rate, which relates to the technical field of die processing and comprises an installation guide part; the mounting guide part is fixedly connected with a die main body part; the mounting guide part is connected with a bottle opening stop part in a sliding way; a lifting linkage cleaning piece is arranged on the bottle opening stop part; the bottleneck stop part is fixedly connected with a smearing auxiliary part; the bottle opening stop part is provided with a movable demoulding part, and the movable demoulding part is rotatably provided with an anti-sticking mould core part; promote whole yields, mold core removal drawing of patterns precision is higher, can realize supplementary coordinated control clearance simultaneously, guarantees the quality of equipment processing bottleneck, adopts rotatable anti-sticking mould core, can play antiseized effect, avoids the bottleneck cracked, has solved present processing mould mold core that can reduce the defective rate extremely easily with bottleneck bonding, directly causes cracked, can not realize the self-cleaning problem of supplementary mold core simultaneously.

Description

Processing die capable of reducing defective rate

Technical Field

The invention relates to the technical field of mold processing, in particular to a processing mold capable of reducing the defective rate.

Background

In the actual mould processing and manufacturing work, when a glass product is manufactured, the mouth part is formed by adopting the air-bubbling, and the core rod mainly controls the forming of the inner diameter of the mouth; when the core rod is pulled out, the glass bottle mouth part is easy to generate fine cracks, so that the product is poor in sealing and has the risk of leakage, and the processing quality of the product is directly related to the processing mould which is good and can reduce the defective rate is particularly important.

However, for the existing processing mould capable of reducing the defective rate, a guidable sliding mould core is not arranged, the mould core is extremely easy to adhere to a bottle mouth, the fragmentation is directly caused, the self-cleaning of the auxiliary mould core cannot be realized, the glass impurity is extremely easy to be stained after long-time use, the processing quality is influenced, and meanwhile, the bottle mouth forming effect is poor.

Disclosure of Invention

In view of the above, the invention provides a processing die capable of reducing the defective rate, which is provided with a bottleneck stop part, can realize sliding guide of a die core, effectively improves fine cracks generated during molding and demolding of products, reduces the risk of product leakage, improves the yield, has higher die core moving and demolding precision, can realize auxiliary linkage control cleaning, ensures the quality of processing the bottleneck of equipment, and has an anti-sticking effect by adopting a rotatable anti-sticking die core part, thus avoiding bottleneck fragmentation and having stronger practicability.

The invention provides a purpose and an effect of a processing die capable of reducing the defective rate, which particularly comprises an installation guide part; the mounting guide part is fixedly connected with a die main body part; the mounting guide part is connected with a bottle opening stop part in a sliding way; a lifting linkage cleaning piece is arranged on the bottle opening stop part; the bottleneck stop part is fixedly connected with a smearing auxiliary part; the bottle opening stop part is provided with a movable demoulding part, and the movable demoulding part is rotatably provided with an anti-sticking mould core part; the installation guide portion includes: the sliding guide device comprises a support mounting frame, a sliding guide inner frame and a sliding guide groove, wherein the sliding guide inner frame is fixedly connected to the support mounting frame; and sliding guide grooves are respectively formed in two sides of the inner part of the sliding guide inner frame.

Further, lift linkage clearance piece includes: the lifting sliding shovel plate is fixedly connected with two lifting guide blocks which are respectively and slidably connected to the spigot mounting slide block; the two lifting guide blocks are respectively and rotatably connected with lifting guide rollers, and the two lifting guide rollers are respectively and rotatably attached to the two sliding guide grooves; the top of the lifting sliding shovel plate is of a sharp inclined surface structure.

Further, the mold main body portion includes: a forming lower die and a forming upper die, wherein a groove is formed in the forming lower die; the molding lower die is fixedly connected to the supporting and mounting frame; and the forming lower die is provided with a forming upper die.

Further, the finish stopper includes: the spigot mounting slide block is connected to the sliding guide inner frame in a sliding manner; four spigot plugging cylinders are fixedly connected to the spigot mounting slide block, and output shafts of the four spigot plugging cylinders are respectively and fixedly connected to the support mounting frame; and the spigot mounting sliding block is provided with a forming mounting through hole.

Further, the application auxiliary portion further includes: the smearing sponge cushion is fixedly connected to the inner side of the plugging ring.

Further, the installation guide portion further includes: the sliding guide inner frame is fixedly connected with two inclined guide plates, and the bottoms of the two inclined guide plates are of inclined structures; the two sliding guide grooves are respectively obliquely aligned with the bottoms of the two inclined guide plates.

Further, the anti-sticking mold core portion includes: the mold core mold comprises a driving motor, a motor mounting frame and a mold core shaft, wherein the motor mounting frame is fixedly connected to the driving motor, and the motor mounting frame is fixedly connected to a movable mold release ring; the output shaft of the driving motor is fixedly connected with a mold core shaft, and the mold core shaft is rotationally connected to the movable demolding ring; the mold core shaft is inserted and mounted on the forming mounting through hole in a sliding mode.

Further, the lift linkage clearance piece still includes: the guide sliding shafts are two and are fixedly connected to the spigot mounting sliding blocks respectively; the two guiding sliding shafts are respectively sleeved with a cleaning reset tension spring, and the two cleaning reset tension springs are respectively connected between the spigot mounting sliding block and the lifting guide block.

Further, the application auxiliary portion includes: the coating installation pipe is fixedly connected to the spigot installation slide block; the smearing installation pipe is fixedly connected with a plugging ring, and the plugging ring is fixedly connected to the spigot installation slide block; the smearing installation pipe is communicated with the plugging ring; the liquid inlet auxiliary sealing cover is connected to the smearing and mounting pipe in a threaded manner.

Further, the movable mold release portion includes: the movable demoulding ring, the demoulding driving hydraulic cylinder and the demoulding guide sliding shaft are fixedly connected with the two demoulding driving hydraulic cylinders on the spigot mounting sliding block, and the output shafts of the two demoulding driving hydraulic cylinders are respectively fixedly connected with the movable demoulding ring; four demoulding guide sliding shafts are fixedly connected to the movable demoulding ring and are respectively and slidably connected to the spigot mounting sliding blocks.

Advantageous effects

The processing die disclosed by the invention has the advantages that the overall yield is improved, the die core moving and demolding precision is higher, the auxiliary linkage control cleaning can be realized, the quality of the bottleneck processed by equipment is ensured, and the anti-sticking effect can be achieved by adopting the rotatable anti-sticking die core part, so that the bottleneck is prevented from being cracked.

In addition, through the installation guide part that adopts the setting, the cooperation bottleneck stop part can realize assisting high-efficient group joint, can realize carrying out bottleneck stop, simultaneously can guarantee the stability of removal, avoid rocking, bottleneck stop part and the laminating of mould main part that adopt the setting are inseparable stable, avoid leaking, guarantee processingquality, overall structure is simple practical, guarantee the whole processingquality of glass, the port department of avoiding the glass bottle has the poor circumstances of packing such as deckle edge, lift linkage clearance piece that sets up simultaneously, can realize supplementary self-cleaning terminal surface, can effectually guarantee whole clean and tidy effect, adopt lift linkage clearance piece safer, avoid artifical consuming time and consuming time to clear up, overall structure is simpler, the linkage can be cleared up automatically, use safelyr, avoid the mould course of working, manual cleaning when the mould temperature is higher, when the outward moving of tang installation slider, the guide at this moment, the extension force of extension spring is cleared up in the cooperation clearance, lift slider can be driven upwards to remove the impurity on the tang installation slider, lift guide roller that sets up simultaneously can be realized, the lift guide roller that sets up simultaneously can improve and assist in the stability, the shaping is realized, the whole is simple in the realization, can accomodate the mould is easy to realize.

In addition, through the auxiliary part of scribbling that adopts the setting, can realize assisting the staff to scribble lubricating oil automatically, further improve mold core groove shaping reliability, avoided directly laminating glass to cause the problem of inner wall damage easily, it is nimble convenient to adopt the smearing installation tube mode of setting, applys control accuracy, through unscrewing feed liquor auxiliary seal lid, can apply antiseized fluid, through scribbling the foam-rubber cushion and can even scribble on the mold core axle, improved processingquality.

In addition, through the removal drawing of patterns portion that adopts the setting, the anti-sticking mould core portion that the cooperation set up, on the one hand can realize assisting rotation through the pivoted mode and prevent gluing, guarantee bottleneck processingquality, avoid the cracked, guarantee smooth effect all the time, adopt the anti-sticking mould core portion of setting on the other hand cooperation bottleneck backstop portion, can realize assisting accurate direction removal, when having guaranteed the stability of mould dabber, can realize assisting guaranteeing whole assembly accuracy, through the mould dabber, cooperation shaping installation through-hole, can realize assisting scraping the epaxial impurity of mould, the clean and tidy of mould core has been guaranteed, overall structure is simpler, the practicality is strong, adopt the anti-sticking mould core portion that sets up can realize sliding and rotating, can drive the mould dabber through driving motor and rotate, realize assisting avoiding gluing, impel through drawing of patterns drive pneumatic cylinder, easy operation is high-efficient, the effectual reduction whole mould processing defective rate.

Drawings

In order to more clearly illustrate the technical solution of the embodiments of the present invention, the drawings of the embodiments will be briefly described below.

The drawings described below are only for illustration of some embodiments of the invention and are not intended to limit the invention.

In the drawings:

fig. 1 is a schematic view of the overall structure of a mold according to an embodiment of the present invention.

Fig. 2 is a cross-sectional view of the internal structure of a mold according to an embodiment of the present invention.

Fig. 3 is a schematic view showing the overall structure of the inner side of the installation guide portion according to the embodiment of the present invention.

Fig. 4 is an enlarged schematic view of the finish stopper according to the embodiment of the present invention.

Fig. 5 is a schematic view of the structure of the installation guide of the embodiment of the present invention.

Fig. 6 is a schematic view of a mold body structure according to an embodiment of the present invention.

Fig. 7 is a schematic view of the finish stopper structure of an embodiment of the present invention.

Fig. 8 is a schematic view of the structure of the application aid according to the embodiment of the present invention.

FIG. 9 is a schematic view of an anti-stick core section configuration of an embodiment of the invention.

List of reference numerals

1. Installing a guide part; 101. supporting the mounting frame; 1011. sliding guide inner frame; 1012. a sliding guide groove; 102. inclined plane guide plate; 2. a mold main body; 201. forming a lower die; 202. forming an upper die; 3. a bottleneck stop part; 301. a sliding block is arranged at the spigot; 302. the spigot plugs the cylinder; 303. forming a mounting through hole; 4. lifting linkage cleaning pieces; 401. lifting and sliding the shovel plate; 4011. lifting the guide block; 402. lifting guide rollers; 403. guiding the sliding shaft; 404. cleaning a reset tension spring; 5. an application auxiliary section; 501. smearing an installation pipe; 5011. a plugging ring; 502. a liquid inlet auxiliary sealing cover; 503. smearing a sponge cushion; 6. a moving demoulding part; 601. moving the stripper ring; 602. a demoulding driving hydraulic cylinder; 603. demoulding guide sliding shafts; 7. an anti-sticking mold core; 701. a driving motor; 7011. a motor mounting rack; 702. and a die core shaft.

Detailed Description

In order to make the objects, aspects and advantages of the technical solution of the present invention more clear, the technical solution of the embodiment of the present invention will be clearly and completely described below with reference to the accompanying drawings of the specific embodiment of the present invention. Unless otherwise indicated, terms used herein have the meaning common in the art. Like reference numerals in the drawings denote like parts.

Examples: please refer to fig. 1 to 9:

the invention provides a processing mould capable of reducing the defective rate, which comprises an installation guide part 1; the mounting guide part 1 is fixedly connected with a die main body part 2; the mounting guide part 1 is connected with a bottle opening stop part 3 in a sliding way; the bottle mouth stop part 3 is provided with a lifting linkage cleaning piece 4; the bottleneck stop part 3 is fixedly connected with a smearing auxiliary part 5; the bottle opening stop part 3 is provided with a movable demoulding part 6, and the movable demoulding part 6 is rotatably provided with an anti-sticking mould core part 7; the installation guide 1 includes: the device comprises a support mounting frame 101, a sliding guide inner frame 1011 and a sliding guide groove 1012, wherein the sliding guide inner frame 1011 is fixedly connected to the support mounting frame 101; sliding guide grooves 1012 are respectively formed in two inner sides of the sliding guide inner frame 1011.

Wherein, installation guide 1 still includes: the sliding guide inner frame 1011 is fixedly connected with two inclined guide plates 102, and the bottoms of the two inclined guide plates 102 are of inclined structures; the two sliding guide grooves 1012 are respectively aligned with the bottom inclined surfaces of the two inclined guide plates 102; the mold main body 2 includes: a molding lower die 201 and a molding upper die 202, wherein a groove is arranged on the molding lower die 201; the lower molding die 201 is fixedly connected to the support mounting frame 101; the molding lower die 201 is provided with a molding upper die 202; the finish stopper 3 includes: the spigot mounting slide block 301, the spigot plugging cylinder 302 and the forming mounting through hole 303, wherein the spigot mounting slide block 301 is connected to the sliding guide inner frame 1011 in a sliding manner; four spigot plugging cylinders 302 are fixedly connected to the spigot mounting slide blocks 301, and output shafts of the four spigot plugging cylinders 302 are respectively fixedly connected to the support mounting frame 101; the spigot mounting slide block 301 is provided with a molding mounting through hole 303; the lifting linkage cleaning member 4 includes: the lifting sliding shovel plate 401, the lifting guide blocks 4011 and the lifting guide rollers 402 are fixedly connected with the two lifting guide blocks 4011 on the lifting sliding shovel plate 401, and the two lifting guide blocks 4011 are respectively and slidably connected to the spigot mounting slide blocks 301; the two lifting guide blocks 4011 are respectively and rotatably connected with lifting guide rollers 402, and the two lifting guide rollers 402 are respectively and rotatably attached to the two sliding guide grooves 1012; the top of the lifting sliding shovel plate 401 is of a sharp-inclined-surface structure; the lifting linkage cleaning member 4 further includes: the guide sliding shafts 403 and the cleaning reset tension springs 404 are arranged, the guide sliding shafts 403 are arranged, and the two guide sliding shafts 403 are fixedly connected to the spigot mounting slide blocks 301 respectively; the clearance extension spring 404 that resets is equipped with to the cover respectively on two guide sliding shafts 403, and two clearance extension springs 404 that reset are connected respectively between tang installation slider 301 and lift guide block 4011, through the installation guide part 1 that adopts the setting, cooperation bottleneck stop part 3, can realize assisting high-efficient group joint, can realize carrying out bottleneck stop, simultaneously can guarantee the stability of removal, avoid rocking, bottleneck stop part 3 and the inseparable stability of mould main part 2 laminating that adopts the setting, avoid leaking, guarantee processingquality, overall structure is simple practical, guarantee the whole processingquality of glass, the port department of glass bottle has the poor condition of packing such as deckle, lift linkage clearance piece 4 that sets up simultaneously, can realize supplementary self-cleaning terminal surface, can effectually guarantee whole clean effect, adopt lift linkage clearance piece 4 safer, avoid artifical consuming time to clear up, overall structure is simpler, the linkage can be automatic clearance, use safelyr, avoid in the mould course of working, artifical clearance when the mould temperature is higher, the problem of easy scald, when tang installation slider 3 is closely stable with mould main part 2 laminating, avoid leaking, guarantee processingquality, the end opening department has the poor filling such as deckle, lift linkage clearance piece 4 has the lift linkage clearance piece that sets up and can realize the slip along the extension pulley 401 and can be realized simultaneously, the improvement is carried down by the lift guide plate that the profile is carried down by the lift guide plate 401 and can be carried out simultaneously, the improvement and the profile is realized and the profile is improved and can be taken down and the lower and the profile and is easier than down by the profile to the lower than a profile of the slider.

Wherein, the application auxiliary portion 5 includes: the smearing mounting pipe 501, the plugging ring 5011 and the liquid inlet auxiliary sealing cover 502 are fixedly connected to the spigot mounting slide block 301; the smearing installation pipe 501 is fixedly connected with a plugging ring 5011, and the plugging ring 5011 is fixedly connected to the spigot installation slide block 301; the smearing installation pipe 501 is communicated with the plugging ring 5011; the liquid inlet auxiliary sealing cover 502 is in threaded connection with the smearing installation pipe 501; the application auxiliary portion 5 further includes: the foam-rubber cushion 503 is smeared, the foam-rubber cushion 503 is fixedly connected to the inner side of the plugging ring 5011, the auxiliary smearing part 5 is arranged, so that the automatic smearing of lubricating oil liquid by auxiliary staff is realized, the forming reliability of a mold core groove is further improved, the problem that the inner wall is damaged easily due to the fact that glass is directly attached to the mold core groove is avoided, the use mode of the smearing installation pipe 501 is flexible and convenient, the application control is accurate, the anti-sticking oil liquid can be applied by unscrewing the auxiliary sealing cover 502 of liquid inlet, the foam-rubber cushion 503 can be smeared on the mold core shaft 702 uniformly, and the processing quality is improved.

Wherein, the movable mold release portion 6 includes: the movable demoulding ring 601, the demoulding driving hydraulic cylinder 602 and the demoulding guide sliding shaft 603 are fixedly connected with the two demoulding driving hydraulic cylinders 602 on the spigot mounting sliding block 301, and the output shafts of the two demoulding driving hydraulic cylinders 602 are respectively fixedly connected with the movable demoulding ring 601; four demoulding guide sliding shafts 603 are fixedly connected to the movable demoulding ring 601, and the four demoulding guide sliding shafts 603 are respectively and slidably connected to the spigot mounting sliding blocks 301; the anti-sticking mold core 7 includes: the mold core mold comprises a driving motor 701, a motor mounting frame 7011 and a mold core shaft 702, wherein the motor mounting frame 7011 is fixedly connected to the driving motor 701, and the motor mounting frame 7011 is fixedly connected to the movable mold release ring 601; a mold core shaft 702 is fixedly connected to an output shaft of the driving motor 701, and the mold core shaft 702 is rotatably connected to the movable demolding ring 601; the die core shaft 702 is slidably inserted on the forming installation through hole 303, through the movable demolding portion 6 that adopts the setting, the anti-sticking die core portion 7 that the cooperation set up can realize supplementary rotation through the pivoted mode and prevent sticking, guarantee bottleneck processingquality, avoid the cracked, guarantee smooth effect all the time, simultaneously adopt the anti-sticking die core portion 7 of setting on the other hand cooperation bottleneck stop portion 3, can realize supplementary accurate direction removal, when guaranteeing the stability of die core shaft 702, can realize supplementary assurance whole assembly precision, through die core shaft 702, cooperation shaping installation through hole 303, can realize supplementary impurity on scraping die core shaft 702, guaranteed the clean and tidy of die core shaft 702, the overall structure is simpler, the practicality is strong, adopt the anti-sticking die core portion 7 of setting to realize sliding and rotation, can drive die core shaft 702 through driving motor 701 and rotate, realize supplementary avoiding sticking, promote through drawing of patterns drive pneumatic cylinder 602, supplementary bottleneck shaping, the operation is simple efficient, the effectual reduction whole mould processing defective rate.

Specific use and action of the embodiment: in the invention, firstly, after the forming lower die 201 and the forming upper die 202 finish glass bottle body forming, bottle mouth forming is carried out, under the driving of a spigot plugging cylinder 302, the spigot mounting slide block 301 can be driven to move and butt the forming lower die 201 and the forming upper die 202, a driving motor 701 can drive a die mandrel 702 to rotate, auxiliary sticking avoidance is realized, a demoulding driving hydraulic cylinder 602 can drive a movable demoulding ring 601 to move, auxiliary demoulding and inward movement pushing are realized, bottle mouth forming is assisted, when the spigot mounting slide block 301 moves outwards, under the guidance of an inclined plane guide plate 102 and a sliding guide groove 1012, the application pulling force of a reset tension spring 404 is matched to be cleaned, at the moment, a lifting sliding shovel plate 401 can be driven to move upwards, at the moment, the impurities on the spigot mounting slide block 301 can be removed, meanwhile, a lifting guide roller 402 arranged at the same time can assist in reducing resistance, smoothness is improved, otherwise, when the spigot mounting slide block 301 is driven to move inwards and butt, the inclined plane guide plate 102 is driven to squeeze down, the lifting sliding shovel plate 401 can move downwards again to shrink, and simultaneously, an anti-sticking oil liquid auxiliary sealing cover 502 can be applied through unscrewing, and a sponge oil liquid can be applied on a shaft 503.

The foregoing is merely exemplary embodiments of the present invention and is not intended to limit the scope of the invention, which is defined by the appended claims.

Claims (10)

1. A processing mould capable of reducing the defective rate, which is characterized by comprising an installation guide part (1); the mounting guide part (1) is fixedly connected with a die main body part (2); the mounting guide part (1) is connected with a bottle opening stop part (3) in a sliding way; a lifting linkage cleaning piece (4) is arranged on the bottle opening stop part (3); the bottleneck stop part (3) is fixedly connected with an smearing auxiliary part (5); a movable demoulding part (6) is arranged on the bottle opening stop part (3), and an anti-sticking mould core part (7) is rotatably arranged on the movable demoulding part (6); the installation guide (1) comprises: the sliding guide device comprises a support installation frame (101), a sliding guide inner frame (1011) and a sliding guide groove (1012), wherein the sliding guide inner frame (1011) is fixedly connected to the support installation frame (101); sliding guide grooves (1012) are respectively formed in two sides of the inner sliding guide frame (1011).

2. The working mold capable of reducing the defective rate according to claim 1, wherein: the installation guide (1) further comprises: the sliding guide inner frame (1011) is fixedly connected with two inclined guide plates (102), and the bottoms of the two inclined guide plates (102) are both inclined structures; the two sliding guide grooves (1012) are respectively aligned with the bottom inclined planes of the two inclined plane guide plates (102).

3. The working mold capable of reducing the defective rate according to claim 1, wherein: the die main body part (2) comprises: a forming lower die (201) and a forming upper die (202), wherein a groove is formed in the forming lower die (201); the molding lower die (201) is fixedly connected to the supporting and mounting frame (101); a molding upper die (202) is mounted on the molding lower die (201).

4. The working mold capable of reducing the defective rate according to claim 1, wherein: the finish stopper (3) includes: the device comprises a spigot mounting slide block (301), a spigot plugging cylinder (302) and a forming mounting through hole (303), wherein the spigot mounting slide block (301) is connected to a sliding guide inner frame (1011) in a sliding manner; four spigot plugging cylinders (302) are fixedly connected to the spigot mounting slide blocks (301), and output shafts of the four spigot plugging cylinders (302) are respectively and fixedly connected to the support mounting frame (101); and the spigot mounting sliding block (301) is provided with a forming mounting through hole (303).

5. The working mold capable of reducing defective rate according to claim 4, wherein: the lifting linkage cleaning piece (4) comprises: the lifting sliding shovel plate (401), lifting guide blocks (4011) and lifting guide rollers (402), wherein the lifting sliding shovel plate (401) is fixedly connected with two lifting guide blocks (4011), and the two lifting guide blocks (4011) are respectively and slidably connected to the spigot mounting slide block (301); the two lifting guide blocks (4011) are respectively and rotatably connected with lifting guide rollers (402), and the two lifting guide rollers (402) are respectively and rotatably attached to two sliding guide grooves (1012); the top of the lifting sliding shovel plate (401) is of a sharp inclined surface structure.

6. The working mold capable of reducing defective rate according to claim 5, wherein: the lifting linkage cleaning piece (4) further comprises: the cleaning device comprises guide sliding shafts (403) and cleaning reset tension springs (404), wherein two guide sliding shafts (403) are arranged, and the two guide sliding shafts (403) are respectively and fixedly connected to the spigot mounting sliding block (301); the two guiding sliding shafts (403) are respectively sleeved with a cleaning reset tension spring (404), and the two cleaning reset tension springs (404) are respectively connected between the spigot mounting sliding block (301) and the lifting guide block (4011).

7. The working mold capable of reducing defective rate according to claim 4, wherein: the application auxiliary section (5) comprises: the coating mounting pipe (501), the plugging ring (5011) and the liquid inlet auxiliary sealing cover (502), wherein the coating mounting pipe (501) is fixedly connected to the spigot mounting slide block (301); a plugging ring (5011) is fixedly connected to the smearing mounting pipe (501), and the plugging ring (5011) is fixedly connected to the spigot mounting sliding block (301); the smearing installation pipe (501) is communicated with the plugging ring (5011); the liquid inlet auxiliary sealing cover (502) is connected to the smearing installation pipe (501) in a threaded mode.

8. The working mold capable of reducing defective rate according to claim 7, wherein: the application aid (5) further comprises: the smearing sponge cushion (503), the smearing sponge cushion (503) is fixedly connected to the inner side of the plugging ring (5011).

9. The working mold capable of reducing defective rate according to claim 4, wherein: the movable mold release unit (6) comprises: the movable demolding device comprises a movable demolding ring (601), demolding driving hydraulic cylinders (602) and demolding guide sliding shafts (603), wherein two demolding driving hydraulic cylinders (602) are fixedly connected to a spigot mounting sliding block (301), and the movable demolding ring (601) is respectively and fixedly connected to output shafts of the two demolding driving hydraulic cylinders (602); four demoulding guide sliding shafts (603) are fixedly connected to the movable demoulding ring (601), and the four demoulding guide sliding shafts (603) are respectively and slidably connected to the spigot mounting sliding block (301).

10. The working mold capable of reducing defective rate according to claim 9, wherein: the anti-sticking mold core part (7) comprises: the mold core mold comprises a driving motor (701), a motor mounting frame (7011) and a mold core shaft (702), wherein the motor mounting frame (7011) is fixedly connected to the driving motor (701), and the motor mounting frame (7011) is fixedly connected to a movable mold release ring (601);

the output shaft of the driving motor (701) is fixedly connected with a mold core shaft (702), and the mold core shaft (702) is rotationally connected to the movable demolding ring (601); the mold core shaft (702) is slidably inserted into the molding installation through hole (303).