CN212193992U - Bottle cap injection mold with quickly-positioned adjustable thread start teeth - Google Patents

Abstract

The utility model relates to a quick location adjustable thread bottle lid injection mold that starts, which comprises a die body, be equipped with adjustment mechanism on the rotatory core of screw thread of mould body, adjustment mechanism includes the transmission shaft, the cover is equipped with drive gear on the transmission shaft, it is equipped with the tight pulley still to overlap on the transmission shaft, it is equipped with adjusting gear to overlap at the transmission shaft, be equipped with the regulation flank of tooth on adjusting gear, spacing round is established to the cover on adjusting gear, still include in order to stop the tooth switch, it has interior flank of tooth to stop the tooth switch, interior flank of tooth and the meshing of regulation flank of tooth, be equipped with the guide block in the mould body, be equipped with the spout in the guide block, be equipped with gliding slider in the spout, the piece that resets between slider and mould body, be equipped with between the wheel face of slider and spacing round and be used. The utility model discloses an injection mold can improve production efficiency, increase enterprise competitiveness.

Description

Bottle cap injection mold with quickly-positioned adjustable thread start teeth

Technical Field

The utility model relates to a quick location adjustable screw thread bottle lid injection mold that starts belongs to hank tooth injection mold field.

Background

Some screw caps are required to be in a direction after being screwed and matched with the bottle body, and after the swing cap 30 of the scheme is assembled with the bottle body, the water outlet is required to correspond to the side edge of the bottle body, so that the swing cap is convenient for consumers to use. Such a cap thread starting position determines the orientation of the cap outlet. For the screw cap with the screw thread starting tooth having no direction requirement, the position of the screw thread starting point of the screw thread rotating core is arbitrary after the product is demoulded, and for the screw cap with the screw thread starting tooth having the direction requirement, the screw thread starting point of the screw thread rotating core needs to be reset before each die assembly, so that the consistency of the screw thread starting point of the product is ensured. For products with thread initial tooth positioning direction requirements, the conventional threading die mostly calculates a plurality of circles of a rotary thread core, so that after the product is demoulded, the rotary thread core rotates for a plurality of circles in the opposite direction and returns to the initial position before die assembly, and if products with a plurality of thread circles are produced, the period of the rotary thread core for resetting can be correspondingly increased.

As is known, the molding cycle (modulus of seconds) refers to the length of time from the closing moment of one shot to the closing moment of the next shot. Generally, the injection times per minute (or per hour) are used to represent the production rate, and the daily capacity, the monthly capacity, and the annual capacity of the set of molds are estimated to schedule the production. The traditional mode of resetting the threaded rotary mold core of the mold is not reasonable enough, and the production efficiency is influenced to a certain extent.

Referring to fig. 13 and 14, the injection mold of the present invention is particularly suitable for the swing cover 30, and is not limited to the injection molding of the swing cover 30.

The swing cover 30 is used as a bottle cap for washing liquid and cosmetics, the swing cover 30 is composed of a lower cover 33 and an upper cover 31, two sides of the upper cover 31 are respectively provided with a convex point, the inner side of the top of the lower cover 33 is respectively provided with a concave point, and the upper cover 31 is matched with the concave point of the lower cover 33 through the convex points to form a rotating shaft. The upper cover 31 is like a seesaw around the rotating shaft, the front end of the upper cover 31 is tilted by pressing the PRESS character of the upper cover 31 to expose the water outlet, after the material in the bottle is poured out, the upper cover 31 closes the water outlet around the rotating shaft by pressing the top of the water outlet, and the sealing ring at the water outlet of the upper cover 31 is matched and sealed with the inner hole of the guide post of the lower cover 33. The operation can be completed by only one hand, so the swing cover 30 is widely used.

The lower end face of the inner table surface of the lower cover 33 is provided with a sealing ring which forms sealing with the inner wall of the bottle opening, the inner plug of the bottle cap is designed into a cylinder shape, the top end opening of the sealing ring of the inner plug is designed into a chamfer angle oblique opening, the bottle cap and the bottle opening are convenient to assemble, the bottom end part of the sealing ring of the inner plug is designed into a straight body section with small taper, and the sealing ring is in interference fit with the diameter of the inner wall of the bottle opening to achieve a sealing.

The swing cap 30 is used as a universal bottle cap and needs to be matched with various types of bottles, if a bottle made of HDPE material is matched with the swing cap, the interference magnitude is usually 0.15mm to 0.2mm on one side, and if the swing cap is matched with a bottle made of PET and other hard materials, the interference magnitude needs to be properly reduced, so that the risk of leakage caused by stress cracking of a bottle opening is avoided. In order to match bottles of different material types and bottle mouths with various inner diameter sizes, the shape of a sealing ring of an inner plug of a bottle cap is changed into a large-taper shape which inclines towards the center, the wall thickness of the sealing ring is gradually changed from a thin wall to a thick wall from a port, the maximum wall thickness is 0.4mm, the sealing ring keeps certain flexibility, and meanwhile, the bottle mouth matched with the sealing ring is also subjected to chamfering treatment. The design of the sealing surface between the bottle cap and the bottle mouth is changed from the prior interference fit of the straight body section of the inner plug and the inner wall of the bottle mouth into the interference fit of the inclined surface of the sealing ring of the inner plug and the inclined opening of the bottle. After the sealing mode is changed from the original diameter sealing into the inclined plane sealing, the bottle cap is matched with bottles with more sizes, bottle mouth inner diameters and different types.

After the shape of the sealing ring of the inner plug of the bottle cap is changed into inward inclination, the demoulding mode of the sealing ring adopts a forced demoulding mode to solve the problem of demoulding of the product reverse buckle. In the prior art, a mushroom-shaped insert is usually formed at the position of the seal ring, and the insert is connected and fixed with a threaded rotary core in the mold. When the thread rotating core rotates for demoulding, the insert rotates synchronously along with the thread rotating core. After the thread of the threaded rotary mold core is twisted, a thimble needs to be installed to eject the product out of the threaded rotary mold core. The threaded rotary core needs to be demolded by rotating the threaded rotary core clockwise and reset by rotating the threaded rotary core anticlockwise in each working cycle. The insert of the sealing ring continuously rotates back and forth along with the thread rotating core, the thimble in the thread rotating core is fixed on a thimble plate (a driving plate for driving the thimble to move) and does not rotate, the coaxiality of a thimble hole in the sealing ring insert and the thimble is high, the thimble and the thimble hole of the sealing ring insert continuously rub back and forth, and the die of the product does not allow lubricating oil to be coated on the part, so that the thimble is often blackened to pollute the product. And a liquid outlet hole is formed in the inner table surface of the lower cover 33, and the content is guided to the liquid outlet of the upper cover 31 through the liquid guide column 36, so that a liquid guide column core needs to be installed in the fixed mold core, and the end surface of the liquid guide column core needs to be in collision with the sealing ring insert of the threaded rotary mold core to form the liquid outlet hole of the lower cover 33. Because the sealing ring insert of the thread rotating core continuously rotates back and forth, and the liquid guide column core arranged in the fixed mold core is fixed, the collision and penetration position of the liquid outlet hole on the sealing ring insert of the thread rotating core is also changed, and the collision and penetration easily generates flash to influence the product quality.

Accordingly, the present inventors have made extensive studies to solve the above problems and have made the present invention.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an injection mold that can improve production efficiency, increase enterprise competitiveness.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

an injection mold for quickly positioning an adjustable thread start bottle cap comprises a mold body, wherein the mold body is provided with a thread rotating core for forming an internal thread of a bottle cap, the thread rotating core is provided with an adjusting mechanism for adjusting the initial position of the thread rotating core, the adjusting mechanism comprises a transmission shaft which is rotatably installed in the mold body, the transmission shaft is sleeved with a transmission gear which is linked with the thread rotating core, the transmission gear is arranged in a manner of synchronously rotating with the transmission shaft, the transmission shaft is also sleeved with a fixed wheel which is arranged in a manner of synchronously rotating with the transmission shaft, the transmission shaft is sleeved with an adjusting gear which is arranged in a manner of rotating relative to the transmission shaft, the adjusting gear is provided with an adjusting tooth surface, the adjusting gear is sleeved with a limiting wheel which is meshed with the adjusting tooth surface, and the injection mold further comprises a stop tooth switch which is detachably arranged on the fixed wheel, the rotation-stopping tooth switch is provided with an inner tooth surface, the inner tooth surface is meshed with an adjusting tooth surface, a guide block is arranged in the die body, a sliding groove is formed in the guide block, a sliding block capable of sliding in the sliding groove is arranged in the sliding groove, a reset piece used for achieving return of the sliding block is arranged between the sliding block and the die body, a ratchet and a tooth socket used for limiting clockwise rotation or anticlockwise rotation of the limiting wheel are arranged between the sliding block and the wheel surface of the limiting wheel, one of the ratchet and the tooth socket is arranged on the limiting wheel, and the other of the ratchet and the tooth socket is arranged on the sliding block.

As a preferred mode of the utility model, the ratchet with the tooth's socket is one, the ratchet sets up on the slider, the tooth's socket sets up spacing taking turns to, the ratchet supports and leans on the tooth's socket.

As an optimized mode of the present invention, the tooth socket has a first slot wall extending to the center of the spacing wheel and a second slot wall perpendicular to the first slot wall, and the first slot wall and the second slot wall are all along the axial extension of the spacing wheel.

As an optimized mode of the utility model, the tight pulley sets up drive gear with between the adjusting gear, the tight pulley with drive gear all installs through the spline on the transmission shaft.

As an optimized mode of the utility model, the piece that resets is the spring be equipped with on the slider and accomodate the groove, spring one end holding is in accomodating the groove, and the other end supports the top on the mould body.

As an optimized mode of the utility model, the transmission shaft is equipped with respectively along axial both ends and is used for the restriction the first locating part of drive gear slippage with be used for the restriction the second locating part of spacing round slippage.

As an optimal mode of the utility model, the mould body is including the first template group and the second template group of mutually supporting, forms the shaping cavity that corresponds with the bottle lid between first template group and the second template group, is equipped with the runner with the shaping cavity intercommunication on the first template group, the rotatory core of screw thread sets up on the second template group, the mould body is still including being used for driving the rotatory core pivoted actuating mechanism of screw thread, actuating mechanism include the motor and with the gear train that the transmission of the rotatory core of screw thread is connected.

As a preferred mode of the present invention, the first template set includes a first template, a second template and a third template, the second template is disposed between the first template and the third template, a first elastic member is disposed between the first template and the second template, the forming cavity is formed on the second template, an inner core-pulling mechanism for forming an inner hinge groove of the bottle cap is disposed on the second template, the inner core-pulling mechanism includes a fixed mold core, a left inner core-pulling slider, a right inner core-pulling slider and an inner core-pulling slider base, a first sliding groove and a second sliding groove for guiding the left inner core-pulling slider and the right inner core-pulling slider to separate or approach each other are disposed on the inner core-pulling slider base, the left inner core-pulling slider is disposed on the first sliding groove, the right inner core-pulling slider is disposed on the second sliding groove, the fixed mold core is disposed in the second template, the forming cavity is disposed in the fixed mold core, the left inner core-pulling slide block and the right inner core-pulling slide block are positioned in the stock mould core.

As an optimized mode of the utility model, second template group includes fourth template, fifth template, sixth template and seventh template, install respectively on fourth template and fifth template at the both ends of transmission shaft, the guide block is fixed on the fifth template, the spring supports the top on the fifth template, be equipped with the drive plate in the sixth template, the thimble is installed on the drive plate.

As an optimized mode of the present invention, the third template and the fourth template are provided with a second elastic member therebetween, the first template and the second template are provided with a first stopper for limiting the separation distance between the first template and the second template, and the third template and the fourth template are provided with a second stopper for limiting the separation distance between the third template and the fourth template.

After the technical scheme of the utility model is adopted, when demoulding, the mould is opened, the thread rotating core rotates (for example, clockwise rotation) to perform thread twisting demoulding, the transmission shaft is in transmission connection with the thread rotating core, for example, anticlockwise rotation can be realized through gear transmission, and at the moment, the transmission gear, the fixed wheel, the adjusting gear and the limiting wheel can synchronously rotate until the product is separated from the thread rotating core; after the product is demolded, the rotary core of screw thread rotates reversely (for example, anticlockwise rotation), because the ratchet and the tooth socket used for limiting the clockwise rotation of the limiting wheel are arranged between the slide block and the wheel surface of the limiting wheel, the limiting wheel is limited and can not rotate clockwise after rotating within a certain range, the rotary core of screw thread is forced to stop rotating through the adjusting gear, the fixed wheel and the transmission gear, the mould is closed at the moment, enter the next molding cycle, when the initial tooth position of screw thread needs to be adjusted, after the stop tooth switch is disassembled, the adjusting gear is rotated, thereby the relative position of the ratchet and the tooth socket is changed, then the stop tooth switch is arranged on the fixed wheel, so that the inner tooth surface is meshed with the adjusting tooth surface, when the rotary core of screw thread resets next time, the rotating range is changed, thereby the requirement of adjusting the initial position of the internal thread of the product is, the operation is convenient.

Drawings

Fig. 1 is a schematic view of the internal structure of the present invention.

Fig. 2 is a schematic view of the internal structure in another direction of the present invention.

Fig. 3 is a schematic structural diagram of the present invention.

Fig. 4 is a schematic view of the local exploded structure of the present invention.

Fig. 5 is a schematic view of the middle gear transmission of the present invention.

Fig. 6 is a schematic structural diagram of the adjusting mechanism of the present invention.

Fig. 7 is a schematic structural view of the middle transmission shaft of the present invention.

Fig. 8 is a schematic structural view of the transmission gear of the present invention.

Fig. 9 is a schematic structural view of the pause rotating tooth switch of the present invention.

Fig. 10 is a schematic structural view of the middle fixed wheel of the present invention.

Fig. 11 is a schematic structural view of the adjusting gear of the present invention.

Fig. 12 is a schematic structural view of the middle stop wheel of the present invention.

Fig. 13 is a schematic structural view of the upper cover of the mid-autumn cover of the present invention.

Fig. 14 is a schematic structural view of the lower cover of the mid-swing cover of the present invention.

Fig. 15 is a schematic sectional view of the mid-autumn cover of the present invention.

Fig. 16 is the structure diagram of the inner core-pulling slide base and the core insert of the present invention.

Fig. 17 is the utility model discloses in the cooperation of the slider base of loosing core slider in the left side in the slider of loosing core and the right side in the structural sketch of the slider of loosing core.

Fig. 18 is a schematic view of the structure of the middle screw thread rotary core and the sealing ring insert of the present invention.

Fig. 19 is a schematic structural view of the middle threaded rotary core, the sealing ring insert and the thimble of the present invention being engaged at another angle.

In the figure:

first template 11 and second template 12

Third template 13 fourth template 14

Fifth form 15 sixth form 16

Seventh template 17 guide post 18

Flow channel 19 guide groove 110

First stopper 111 and second stopper 112

First elastic member 113 and second elastic member 114

Motor 115 gear set 116

Receiving slot 151 drive plate 161

Drive shaft 21 drive gear 22

Fixed wheel 23 rotation stop tooth switch 24

Regulating gear 25 spacing wheel 26

Guide block 27 slide block 28

Keyway 211 key 221

Inner tooth surface 241 screw 242

Tooth slot 260

First slot wall 261 and second slot wall 262

Chute 271 accommodating groove 281

Ratchet 282

First limiting member 291 and second limiting member 292

Second bearing 293

Swing cover 30 and upper cover 31

Hinge post 32 lower cover 33

Conical sealing ring 35 with internal hinge groove 34

Liquid guiding column 36

First sliding chute 41 of inner core-pulling sliding block base 40

Left inner core-pulling slide block 43 of second slide groove 42

First forming column 45 of right inner core-pulling slide block 44

Second forming column 46 stationary mold core 51

Stop sleeve 52 core insert 53

Threaded rotating core 60 first mounting hole 61

Driven gear 62 first bearing 63

Second mounting hole 71 of seal ring insert 70

Tapered portion 72

Ejector pin 80

Detailed Description

In order to further explain the technical solution of the present invention, the following detailed description is made with reference to the accompanying drawings.

Referring to fig. 1 to 19, an injection mold for a bottle cap with a fast-positioning adjustable thread start comprises a mold body having a thread rotating core 60 for forming an internal thread of a bottle cap (e.g., a swing cap 30), wherein an adjusting mechanism for adjusting an initial position of the thread rotating core 60 is disposed on the thread rotating core 60, specifically, a receiving groove 151 is disposed on the mold body, the adjusting mechanism is disposed in the receiving groove 151, and the receiving groove 151 is communicated to the outside of the mold body. The adjusting mechanism comprises a transmission shaft 21 which is rotatably arranged in the die body, a transmission gear 22 which is linked with the thread rotating core 60 is sleeved on the transmission shaft 21, a driven gear 62 is sleeved on the thread rotating core 60, the driven gear 62 is engaged with the driving gear 22 for power transmission, the driving gear 22 is provided in such a manner as to rotate in synchronization with the driving shaft 21, in the embodiment, the transmission shaft 21 is arranged along the horizontal direction, the transmission gear 22 is sleeved on the transmission shaft 21 through a key and a key slot, in the embodiment, the transmission shaft 21 is provided with a key groove 211, the transmission gear 22 is provided with a key 221, the transmission shaft 21 and the transmission gear 22 can synchronously rotate through the key groove 211 and the key 221, the transmission shaft 21 is further sleeved with a fixed wheel 23, the fixed wheel 23 is arranged in a mode of synchronously rotating with the transmission shaft 21, and in the implementation, the transmission gear 22 is sleeved on the fixed wheel 23 through a key and a key groove.

The adjusting gear 25 is sleeved on the transmission shaft 21, the adjusting gear 25 is arranged in a mode capable of rotating relative to the transmission shaft 21, an adjusting tooth surface is arranged on the adjusting gear 25, a limiting wheel 26 meshed with the adjusting tooth surface is sleeved on the adjusting gear 25, the adjusting gear further comprises a rotation stopping gear switch 24 arranged on the fixed wheel 23 in a detachable mode, the rotation stopping gear switch 24 is provided with an inner tooth surface 241, the inner tooth surface 241 is meshed with the adjusting tooth surface, and in the embodiment, the rotation stopping gear switch 24 is locked on the fixed wheel 23 through a screw 242. The die body is provided with a guide block 27, the guide block 27 is provided with a sliding groove 271, the sliding groove 271 is arranged perpendicular to the axis direction of the transmission shaft 21, the sliding groove 271 is internally provided with a sliding block 28 capable of sliding in the sliding groove 271, and a resetting piece for resetting the sliding block 28 is arranged between the sliding block 28 and the die body, so that the sliding block 28 can be abutted against the wheel surface of the limiting wheel 26 by the resetting piece. A ratchet 282 and a tooth socket 260 for limiting the clockwise rotation or the counterclockwise rotation of the limiting wheel 26 are arranged between the sliding block 28 and the wheel surface of the limiting wheel 26, in an embodiment, for limiting the counterclockwise rotation of the limiting wheel 26, one of the ratchet 282 and the tooth socket 260 is arranged on the limiting wheel 26, and the other of the ratchet 282 and the tooth socket 260 is arranged on the sliding block 28. As a preferable mode of the present invention, the ratchet 282 and the tooth space 260 are both one, the ratchet 282 is disposed on the slider 28, the tooth space 260 is disposed on the limiting wheel 26, the ratchet 282 abuts against the tooth space 260, and when the limiting wheel 26 rotates counterclockwise by a certain angle, the ratchet 282 abuts against the tooth space 260, so that the limiting wheel 26 does not continue to rotate counterclockwise.

As a preferable mode of the present invention, the tooth groove 260 has a first groove wall 261 extending to the center of the limiting wheel 26 and a second groove wall 262 perpendicular to the first groove wall 261, the first groove wall 261 and the second groove wall 262 are both along the axial extension of the limiting wheel 26, and when the ratchet 282 abuts on the first groove wall 261, the rotation of the limiting wheel 26 is limited.

As a preferred mode of the present invention, the fixed wheel 23 is disposed between the transmission gear 22 and the adjusting gear 25. As a preferred mode of the present invention, the transmission shaft 21 is provided with a first locating part 291 for limiting the slippage of the transmission gear 22 and a second locating part 292 for limiting the slippage of the limiting wheel 26 respectively along the two axial ends. The first limiting member 291 may be a protruding ring on the transmission shaft 21 itself, and the second limiting member 292 may be a snap ring sleeved on the transmission shaft 21, when assembling, the two ends of the transmission shaft 21 are sleeved with the second bearings 293, and the transmission shaft 21 is installed on the mold body through the second bearings 293.

As a preferred mode of the present invention, the reset member is a spring, the slider 28 is provided with a receiving groove 281, one end of the spring is accommodated in the receiving groove 281, the other end of the spring is supported on the mold body, and the ratchet 282 can be stably supported on the wheel surface of the limiting wheel 26 by the spring.

As an optimized mode of the present invention, the mold body includes a first mold plate set and a second mold plate set that are mutually matched, in an embodiment, the first mold plate set is a fixed mold, the second mold plate set is a movable mold (a mold plate set connected to the power mechanism), and a plurality of guide posts 18 for guiding the mold plates to slide are disposed in the first mold plate set and the second mold plate set. A forming cavity corresponding to the bottle cap is formed between the first template group and the second template group, a flow channel 19 communicated with the forming cavity is arranged on the first template group, and the flow channel 19 is connected with the feed liquid supply mechanism. The threaded rotating core 60 is arranged on the second template group, the mold body further comprises a driving mechanism for driving the threaded rotating core 60 to rotate, the driving mechanism comprises a motor 115 and a gear set 116 in transmission connection with the threaded rotating core 60, and the gear set 116 is in transmission connection with the driven gear 62 of the threaded rotating core 60.

As an optimized mode of the utility model, first template group includes first template 11, second template 12 and third template 13, second template 12 sets up between first template 11 and third template 13, be equipped with first elastic component 113 between first template 11 and the second template 12, preferably, first elastic component 113 includes spring and dominant force glue piece, set up corresponding a plurality of blind grooves on first template 11 and second template 12, the blind groove is arranged respectively in to spring and dominant force glue piece, dominant force glue starting strength is bigger, the spring stroke is glued than the dominant force greatly, both combine the use, when the drawing of patterns, utilize the elasticity of first elastic component 113, can make first template 11 and second template 12 steadily open. As an optimized mode of the present invention, the second template set includes a fourth template 14, a fifth template 15, a sixth template 16 and a seventh template 17, the fourth template 14, the fifth template 15, the sixth template 16 and the seventh template 17 are sequentially arranged, the two ends of the transmission shaft 21 are respectively installed on the fourth template 14 and the fifth template 15, the guide block 27 is fixed on the fifth template 15, the spring abuts against the fifth template 15, a drive plate 161 is arranged in the sixth template 16, the thimble 80 is installed on the drive plate 161, the drive plate 161 is connected with a power device (for example, an oil cylinder), and after demolding of the bottle cap, the bottle cap is ejected from the thread rotation core 60 through the thimble 80. Specifically, the second mold plate 12, the third mold plate 13, the fixed mold core 51, and the threaded rotary core 60 together define the molding chamber, and in the embodiment, the second mold plate 12 has a core insert 53 provided therein, the fixed mold core 51 is inserted into the core insert 53, and the inner wall of the core insert 53, the third mold plate 13, the fixed mold core 51, and the threaded rotary core 60 together define the molding chamber. The third template 13 is further provided with a rotation stopping sleeve 52, the rotation stopping sleeve 52 is sleeved outside the threaded rotary core 60, and the rotation stopping sleeve 52 abuts against the end of the molded bottle cap and is used for limiting the bottle cap to rotate when the bottle cap is twisted and demoulded.

In the utility model, an inner core-pulling mechanism for forming an inner hinge groove 34 of a bottle cap is arranged on a second template 12, the inner core-pulling mechanism comprises a fixed mold core 51, a left inner core-pulling slider 43, a right inner core-pulling slider 44 and an inner core-pulling slider base 40, the inner core-pulling slider base 40 is provided with a first chute 41 and a second chute 42 for guiding the left inner core-pulling slider 43 and the right inner core-pulling slider 44 to realize the separation or the approach of the left inner core-pulling slider 43 and the right inner core-pulling slider 44, the left inner core-pulling slider 43 is arranged on the first chute 41, the right inner core-pulling slider 44 is arranged on the second chute 42, the fixed mold core 51 is positioned in the second template 12, the left inner core-pulling slider 43 and the right inner core-pulling slider 44 are positioned in the fixed mold, a first molding column 45 and a second molding column 46 for molding the inner hinge groove 34 of the swing cover 30 are respectively arranged in the left inner core-pulling slider 43 and the right inner core-pulling slider 44. In the embodiment, the first sliding groove 41 and the second sliding groove 42 are both dovetail grooves, and the first sliding groove 41 and the second sliding groove 42 are arranged in an inverted-splayed shape.

In order to avoid the interference between the reinforcing ribs on the platform at the top of the lower cover 33 and the core-pulling slider, a tunnel with the left-right through width of 5.0mm is formed in the fixed mold core 51, and the first molding column 45 and the second molding column 46 are arranged in the tunnel and can move in the direction of the inner hinge groove 34 to realize the core-pulling action.

Because the outer diameter of the liquid guide column 36 of the lower cover 33 is only 1.1mm away from the tunnel hole, the distance between the core insert 53 and the side wall of the tunnel hole is too small, the wall thickness rigidity of the core is insufficient, in order to enhance the rigidity of the core and the structural stability, as shown in fig. 17, the lower part of the slide block (the first slide block 45 and the second slide block 46) is molded in a cylindrical mode of a product, and the upper part of the slide block deviates in the direction away from the liquid guide column 36, and a special-shaped inner core-pulling slide block is made to enhance the rigidity of the core.

To say in the direction of fig. 17, when the mold is opened, under the action of the spring, the first mold plate 11 is separated from the second mold plate 12, at this time, the left inner core-pulling slider 43 and the right inner core-pulling slider 44 slide in the first sliding groove 41 and the second sliding groove 42, respectively, and the up-and-down movement of the inner core-pulling slider base 40 drives the left inner core-pulling slider 43 and the right inner core-pulling slider 44 to move left and right through the first sliding groove 41 and the second sliding groove 42, so as to realize the core-pulling action of the first slider 45 and the second slider 46. The utility model discloses an interior slider loose core compact structure, the stable function, occupation space is little, makes the mould can realize the multicavity upgrading of a mould, guarantees the quality of product promptly and improves production efficiency again.

In traditional thousand years lid, upper cover 31 and lower cover 33 lead to the bump and the shrinkage pool of both sides articulated, utilize the arc surface of bump and the arc surface cooperation of concave point, form the hinge that can rotate, because the power of cramping of concave and convex point is not enough. Resulting in the fact that the upper cover 31 is relatively easily separated from the lower cover 33 during use of the swing cover 30. The upper cover 31 may fall off due to reasons such as transportation, throwing, and pressing during transportation, thereby causing leakage of the contents. Therefore, the upper and lower covers 33 must be fitted to each other with a certain separating force, and the upper and lower covers 33 do not fall off in a 1.2 m height drop test. The fitting clearance of the upper and lower covers 33 is generally adjusted to increase the separating force of the upper and lower covers 33. However, when the fit clearance between the upper and lower covers 33 is too small, the upper and lower covers 33 are fitted too tightly. The consumer opens inconveniently in the use, and the use experience effect is not good. Adopt the utility model discloses an interior mechanism of loosing core can form the interior hinge slot 34 of cylindricality on the lower cover 33 of thousand years lid 30, and the hinge post 32 of upper cover 31 sets to the cylindricality to the stability of being connected of upper cover 31 and lower cover 33 has been strengthened.

As an optimized mode of the present invention, a second elastic member 114 is disposed between the third template 13 and the fourth template 14, preferably, the second elastic member 114 includes a spring and a high-strength rubber block, a first stopper 111 for limiting the separation distance between the first template 11 and the second template 12 is disposed on the first template 11 and the second template 12, a second stopper 112 for limiting the separation distance between the third template 13 and the fourth template 14 is disposed on the third template 13 and the fourth template 14, and a guide groove 110 for sliding the first stopper 111 and the second stopper 112 is disposed at a position corresponding to the first template 11 and the second template 12, so as to limit the sliding distance between the first stopper 111 and the second stopper 112.

In order to solve the problem that in the forming process of the swing cover 30 in the prior art, the thimble rubs with the sealing ring insert back and forth, and the liquid guide column core of the fixed mold core collides with the sealing ring insert 70 to penetrate, so that the product quality is influenced. The utility model discloses still provide an injection mold that can promote sealed effect of thousand years lid 30, including the mould body, the mould body is including the first template group and the second template group of mutually supporting, forms the shaping cavity that corresponds with thousand years lid 30 between first template group and the second template group, is equipped with the runner 19 with the shaping cavity intercommunication in the first template group, and the second template is organized and is equipped with screw thread rotary core 60, is connected with on the screw thread rotary core 60 and is used for driving screw thread rotary core 60 pivoted actuating mechanism. A fixed mold core 51 is arranged in the first mold plate group, an ejector pin 80 for ejecting the swing cap 30 is arranged in the threaded rotary mold core 60, the threaded rotary mold core 60 is provided with a first mounting hole 61 along the axial direction, the first mounting hole 61 penetrates from one axial end of the threaded rotary mold core 60 to the other axial end, a sealing ring insert 70 is arranged in the first mounting hole 61, one end of the sealing ring insert 70 extends out of the first mounting hole 61 and forms a tapered part 72 for forming a tapered sealing ring 35 of the swing cap 30, the other end of the sealing ring insert 70 extends out of the first mounting hole 61 and is fixed on the second mold plate group, a second mounting hole 71 is arranged on the sealing ring insert 70, the second mounting hole 71 penetrates from one axial end to the other axial end of the sealing ring insert 70, the ejector pin 80 is arranged in the second mounting hole 71 and can extend out of the second mounting hole 71 to eject the bottle cap, one end of the ejector pin 80 far away from the forming cavity is arranged on the second mold plate group, specifically, on the drive plate 161 described above.

As a preferred mode of the present invention, the screw rotary core 60 is installed in the third mold plate 13 and the fourth mold plate 14 through the first bearing 63 set, and in the embodiment, the number of the first bearings 63 is two, and the first bearings are respectively disposed at both ends of the screw rotary core 60. As a preferred embodiment of the present invention, the sealing ring insert 70 is fixed in the fifth mold plate 15, and can be locked by screws.

As a preferred mode of the present invention, the thread rotary core 60, the sealing ring insert 70 and the thimble 80 are coaxially disposed.

In a structure not described in the injection mold that can improve the sealing effect of the swing cover 30, the structure already described above, such as the driving mechanism, the adjusting mechanism, etc., can be selected.

The utility model discloses when the drawing of patterns, first template 11 and second template 12 are at first opened under the elastic action of first elastic component 113 (spring and excellent power are glued), the action of loosing core in, make first shaping post 45 and second shaping post 46 break away from in articulated groove 34, begin to hank the tooth and take off the screw thread after that, under the effect of second elastic component 114, third template 13 and fourth template 14 separate gradually to the separation of screw thread rotary core 60 from the bottle lid, second template 12 separates with third template 13 after that, toper portion 72 breaks away from in the toper sealing washer 35, drive plate 161 promotes thimble 80, it is ejecting with the bottle lid.

The product form of the present invention is not limited to the drawings and embodiments of the present application, and any person can properly change or modify the product form of the present invention without departing from the scope of the present invention.

Claims (10)

1. The utility model provides a quick location adjustable screw thread bottle lid injection mold that starts, includes the mould body, and the mould body has the internal screw thread rotary core that is used for the shaping bottle lid, is equipped with the adjustment mechanism who is used for adjusting the initial position of screw thread rotary core on the screw thread rotary core, its characterized in that: the adjusting mechanism comprises a transmission shaft which is rotatably arranged in the die body, a transmission gear which is linked with the thread rotating core is sleeved on the transmission shaft, the transmission gear is arranged in a mode of rotating synchronously with the transmission shaft, a fixed wheel is further sleeved on the transmission shaft, the fixed wheel is arranged in a mode of rotating synchronously with the transmission shaft, an adjusting gear is sleeved on the transmission shaft and is arranged in a mode of rotating relatively to the transmission shaft, an adjusting tooth surface is arranged on the adjusting gear, a limiting wheel meshed with the adjusting tooth surface is sleeved on the adjusting gear, the adjusting mechanism also comprises a rotation stopping gear switch which is detachably arranged on the fixed wheel, the rotation stopping gear switch is provided with an inner tooth surface, the inner tooth surface is meshed with the adjusting tooth surface, a guide block is arranged in the die body, a sliding groove is arranged in the guide block, a sliding block which can slide in the sliding groove is arranged in the sliding groove, and a reset piece for realizing, and a ratchet and a tooth socket which are used for limiting the clockwise rotation or the anticlockwise rotation of the limiting wheel are arranged between the sliding block and the wheel surface of the limiting wheel, one of the ratchet and the tooth socket is arranged on the limiting wheel, and the other of the ratchet and the tooth socket is arranged on the sliding block.

2. The injection mold for rapidly positioning an adjustable thread start cap as recited in claim 1, wherein: the ratchet and the tooth groove are both one, the ratchet is arranged on the sliding block, the tooth groove is arranged on the limiting wheel, and the ratchet abuts against the tooth groove.

3. The injection mold for rapidly positioning an adjustable thread start cap as recited in claim 2, wherein: the tooth groove is provided with a first groove wall extending towards the center of the limiting wheel and a second groove wall perpendicular to the first groove wall, and the first groove wall and the second groove wall both extend along the axial direction of the limiting wheel.

4. The injection mold for rapidly positioning an adjustable thread start cap as recited in claim 1, wherein: the fixed wheel is arranged between the transmission gear and the adjusting gear, and the fixed wheel and the transmission gear are both installed on the transmission shaft through splines.

5. The injection mold for rapidly positioning an adjustable thread start cap as recited in claim 1, wherein: the reset piece is a spring, a containing groove is formed in the sliding block, one end of the spring is contained in the containing groove, and the other end of the spring abuts against the die body.

6. The injection mold for rapidly positioning an adjustable thread start cap as recited in claim 1, wherein: the transmission shaft is provided with a first limiting part and a second limiting part along the axial two ends, wherein the first limiting part is used for limiting the transmission gear to slip off, and the second limiting part is used for limiting the limiting wheel to slip off.

7. The injection mold for bottle caps with quick-positioning and adjustable thread start according to claim 5, wherein the injection mold comprises: the mould body comprises a first template group and a second template group which are matched with each other, a forming cavity corresponding to the bottle cap is formed between the first template group and the second template group, a flow channel communicated with the forming cavity is arranged on the first template group, an ejector pin used for ejecting the swing cap out is arranged in the thread rotating core, the thread rotating core is arranged on the second template group, the mould body further comprises a driving mechanism used for driving the thread rotating core to rotate, and the driving mechanism comprises a motor and a gear set in transmission connection with the thread rotating core.

8. The injection mold for rapidly positioning an adjustable thread start cap as recited in claim 7, wherein: the first template group comprises a first template, a second template and a third template, the second template is arranged between the first template and the third template, a first elastic part is arranged between the first template and the second template, the forming cavity is formed on the second template, an inner core-pulling mechanism for forming an inner hinge groove of the bottle cap is arranged on the second template and comprises a fixed mold core, a left inner core-pulling slide block, a right inner core-pulling slide block and an inner core-pulling slide block base, a first slide groove and a second slide groove which are used for guiding the left inner core-pulling slide block and the right inner core-pulling slide block to separate or approach the left inner core-pulling slide block and the right inner core-pulling slide block are arranged on the inner core-pulling slide block base, the left inner core-pulling slide block is arranged on the first slide groove, the right inner core-pulling slide block is arranged on the second slide groove, the fixed mold core is positioned in the second, the molding cavity is arranged in the stock mold core, and the left inner core-pulling slider and the right inner core-pulling slider are positioned in the stock mold core.

9. The injection mold for rapidly positioning an adjustable thread start cap as recited in claim 8, wherein: the second template group comprises a fourth template, a fifth template, a sixth template and a seventh template, two ends of the transmission shaft are respectively installed on the fourth template and the fifth template, the guide block is fixed on the fifth template, the spring abuts against the fifth template, a driving plate is arranged in the sixth template, and the ejector pin is installed on the driving plate.

10. The injection mold for rapidly positioning an adjustable thread start cap as recited in claim 9, wherein: and a second elastic part is arranged between the third template and the fourth template, a first limiting block for limiting the separation distance of the first template and the second template is arranged on the first template and the second template, and a second limiting block for limiting the separation distance of the third template and the fourth template is arranged on the third template and the fourth template.

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