CN211763015U - Demoulding device of zipper-pull injection molding production line - Google Patents

Abstract

A demoulding device of a zipper-pull injection production line comprises an injection mould, wherein a forming seat for forming a zipper injection unit is arranged on the upper side of the injection mould; a plurality of zipper head positioning grooves for positioning the two rows of zipper heads are formed in the upper side of the forming seat; a slot is formed in the bottom of each zipper head positioning slot; the pressing mechanism comprises two positioning plates, and when the pressing mechanism descends to the right position, the two positioning plates can respectively abut against the two rows of zipper heads up and down; the inserting and taking mechanism comprises two rows of slotting tools and a driving component for driving the two rows of slotting tools to move in the opposite direction or the back direction; the two rows of slotting tools can move oppositely until each slotting tool is inserted into a corresponding slot, and each slotting tool upwards supports the bottom surface of the zipper head so that the slotting tools can push the zipper head to move upwards; a lifting mechanism; and a transverse moving mechanism. The utility model discloses compare in traditional mode of getting of inserting, it is easier to aim at, can avoid appearing the slotting tool to insert the inside condition that leads to damaging zipper head inner part of zipper head moreover completely.

Description

Demoulding device of zipper-pull injection molding production line

Technical Field

The utility model relates to a draw zipper head's production field, especially indicate a pulling-on piece injection moulding line's shedder.

Background

In the traditional injection molding process, the zipper pull injection mold can only carry out zipper pull injection molding on one zipper puller at a time, and the efficiency is low. In order to improve the production efficiency, a plurality of manufacturers improve the zipper-pull injection mold, so that the zipper-pull injection mold can simultaneously inject the zipper pulls of a plurality of zipper sliders, and an automatic production line for injection molding of the zipper pulls is formed in order to further improve the production efficiency.

The production process adopted by the automatic production line for the injection molding of the pulling piece mainly comprises the following steps: the zipper head is firstly transmitted to the zipper pull injection mold, then the zipper pull injection mold is transmitted to injection molding equipment to complete the injection molding operation of the zipper pull to form a zipper injection molding group, and the operations of demolding, cutting and the like are completed after the injection molding. And how to successfully complete demoulding, namely how to separate the zipper injection molding group from the zipper pulling piece injection mold is a crucial step.

When the demoulding device in the existing zipper piece injection molding automatic production line is used for a large time, the slotting tool is inserted between the upper and lower ship boards of the zipper head in the zipper injection molding group to clamp, the problem that the zipper head is difficult to align exists, and the risk that the internal components of the zipper head deform exists.

SUMMERY OF THE UTILITY MODEL

The utility model provides a pulling-on piece injection moulding line's shedder, its main aim at overcome current shedder aim at difficult, and draw zipper head inner part yielding defect.

In order to solve the technical problem, the utility model adopts the following technical scheme:

demoulding device of pull piece injection molding production line comprises

The injection mold is provided with a forming seat for forming a zipper injection molding set on the upper side, the formed zipper injection molding set comprises an injection molding piece and two rows of zipper heads which are respectively distributed on the left side and the right side of the injection molding piece, and each zipper head is connected with the injection molding piece through a connecting part; a plurality of zipper head positioning grooves for positioning the two rows of zipper heads are formed in the upper side of the forming seat; a slot is formed in the bottom of each zipper head positioning slot;

the pressing mechanism comprises two positioning plates, and when the pressing mechanism descends to the right position, the two positioning plates can respectively abut against the two rows of zipper heads up and down;

the inserting and taking mechanism comprises two rows of slotting tools and a driving component for driving the two rows of slotting tools to move in the opposite direction or the back direction; the two rows of the slotting tools can move oppositely until each slotting tool is inserted into a corresponding slot, and each slotting tool upwards supports the bottom surface of the zipper head so that the slotting tools can push the zipper head to move upwards;

the lifting mechanism is used for driving the pressing mechanism and the inserting and taking mechanism to simultaneously and longitudinally move;

and the transverse moving mechanism is used for driving the pressing mechanism and the inserting and taking mechanism to simultaneously and transversely move.

Further, each slot penetrates through the side face of the forming seat outwards.

Further, the opposite ends of the two rows of slotting tools are rounded ends.

Further, the driving assembly comprises two transverse pushing motors which are respectively used for driving the two rows of the slotting tools to transversely move.

Furthermore, the inserting and taking mechanism further comprises two plate bases, and the two rows of slotting tools are fixedly arranged on the lower sides of the two plate bases respectively.

Furthermore, the two positioning plates are respectively connected with one plate seat in a sliding manner through a transverse sliding rod, so that the plate seat can move towards or away from the positioning plates; the two transverse pushing motors are respectively used for driving and controlling the two plate bases to transversely move.

Further, a motor base of the transverse pushing motor is fixedly arranged on the plate base, and a driving end of the transverse pushing motor is connected with the positioning plate.

Furthermore, the transverse moving mechanism comprises an air cylinder, a transverse sliding rail and a sliding seat, wherein the air cylinder is fixedly arranged on the transverse sliding rail, the sliding seat is arranged on the transverse sliding rail in a sliding manner, and the driving end of the air cylinder is connected with the sliding seat; the two positioning plates are fixedly arranged on the sliding seat.

Furthermore, the lifting mechanism comprises a longitudinal pushing motor, a lifting seat and a longitudinal sliding rod, wherein the longitudinal pushing motor is fixedly arranged on the external equipment; the upper end of the longitudinal sliding rod is connected with the transverse moving mechanism, the lower end of the longitudinal sliding rod is connected with the lifting seat, and the lifting seat is connected with the driving end of the longitudinal pushing motor, so that the longitudinal pushing motor can drive the longitudinal sliding rod to move up and down.

Compared with the prior art, the utility model discloses the beneficial effect who produces lies in:

the utility model discloses simple structure, practicality are strong, set up the slot through the tank bottom at injection mold's zip fastener head constant head tank for when operating the zip fastener injection moulding group drawing of patterns, drive assembly can drive the slotting tool and can also upwards support the bottom surface of holding the zip fastener head in inserting the slot simultaneously, in order to accomplish the fixed to the zip fastener head, it is compared in traditional mode of inserting of getting, it is easier to aim at, can avoid appearing the slotting tool completely moreover and insert the inside condition that leads to damaging the zip fastener head internals that draws.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a schematic view of the insertion mechanism and the zipper injection molding set in cooperation.

Fig. 3 is a schematic structural view of the injection mold shown in fig. 1.

Detailed Description

The following describes embodiments of the present invention with reference to the drawings.

Reference is made to fig. 1, 2 and 3. Demoulding device of pull piece injection molding production line comprises

The injection mold 1 is provided with a forming seat 11 for forming a zipper injection molding set 100 on the upper side, the formed zipper injection molding set 100 comprises an injection molding part 101 and two rows of zipper sliders 102 distributed on the left side and the right side of the injection molding part 101 respectively, and each zipper slider 102 is connected with the injection molding part 101 through a connecting part 103; a plurality of zipper head positioning grooves 12 for positioning the two rows of zipper heads 102 are formed on the upper side of the forming base 11; a slot 13 is formed at the bottom of each zipper head positioning slot 12;

the pressing mechanism 2 comprises two positioning plates 21, and when the pressing mechanism 2 descends to the right position, the two positioning plates 21 can respectively abut against the two rows of zipper heads 102 up and down;

the inserting and taking mechanism 3 comprises two rows of slotting tools 31 and a driving component 32 for driving the two rows of slotting tools 31 to move oppositely or reversely; the two rows of slotting tools 31 can move oppositely until each slotting tool 31 is inserted into a corresponding slot 13, and each slotting tool 31 upwards supports the bottom surface of the zipper head 102, so that the slotting tools 31 can push the zipper head 102 to move upwards;

the lifting mechanism 4 is used for driving the pressing mechanism 2 and the inserting and taking mechanism 3 to simultaneously move longitudinally;

and the transverse moving mechanism 5 is used for driving the pressing mechanism 2 and the inserting and taking mechanism 3 to simultaneously move transversely.

Through setting up slot 13 at the tank bottom of draw zipper head constant head tank 12 of injection mold 1 for when operating the drawing of patterns of zip fastener injection molding group 100, drive assembly 32 can drive slotting tool 31 and insert in slot 13 and can also upwards push up the bottom surface of holding draw zipper head 102 simultaneously, with the completion fixed to draw zipper head 102, it is compared in traditional mode of inserting and getting, and it is easier to aim at, can avoid appearing the slotting tool to insert the inside condition that leads to damaging the interior part of draw zipper head completely moreover.

In particular, the method of manufacturing a semiconductor device,

reference is made to fig. 1, 2 and 3. Each slot 13 extends outwardly through a side of the forming seat 11. When designed, the slotting tool 31 is the same size as the slot 13, or the slot 13 is slightly larger than the slotting tool, so that the slotting tool 31 can be inserted into the slot 13 from the side surface of the forming base 11. In addition, the opposite ends of the two rows of the slotting tools 31 are rounded ends 311, that is, when the slotting tools 31 are inserted into the slots 13, the rounded ends 311 first enter the slots 13, and the purpose of the invention is to improve the smoothness of inserting the slotting tools into the slots.

Reference is made to fig. 1, 2 and 3. The driving assembly 32 includes two lateral pushing motors 321 for driving the lateral movement of the two rows of slotting tools 31.

The inserting and taking mechanism 3 further comprises two plate seats 33, and the two rows of slotting tools 31 are respectively and fixedly arranged at the lower sides of the two plate seats 33.

The two positioning plates 21 are respectively connected with a plate seat 33 in a sliding way through the transverse sliding rods 22, so that the plate seat 33 can move towards or away from the positioning plates 21; the two lateral pushing motors 321 are respectively used for driving and controlling the two plate holders 33 to move laterally. In this embodiment, the transverse sliding rods 22 are both fixedly connected to the positioning plate 21 at one end and slidably connected to the plate holder 311 at the other end.

The motor base 3211 of the lateral pushing motor 321 is fixedly installed on the board base 33, and a driving end (not shown) of the lateral pushing motor 321 is connected to the positioning board 21. In addition, the fixed connection, the fixed installation and the like in the embodiment can be fixedly connected through bolt locking.

Reference is made to fig. 1, 2 and 3. The transverse moving mechanism 5 comprises an air cylinder 51, a transverse slide rail 52 and a slide seat 53, wherein the air cylinder 51 is fixedly arranged on the transverse slide rail 52, the slide seat 53 is arranged on the transverse slide rail 52 in a sliding manner, and the driving end of the air cylinder 51 is connected with the slide seat 53; the two positioning plates 21 are fixedly arranged on the sliding seat 53.

Reference is made to fig. 1, 2 and 3. The lifting mechanism 4 comprises a longitudinal pushing motor 41, a lifting seat 42 and a longitudinal sliding rod 43, wherein the longitudinal pushing motor 41 is fixedly arranged on an external device (not shown); the upper end of the longitudinal sliding rod 43 is connected with the transverse moving mechanism 5, the lower end is connected with the lifting seat 42, and the lifting seat 42 is connected with the driving end of the longitudinal pushing motor 41, so that the longitudinal pushing motor 41 can drive the longitudinal sliding rod 43 to move up and down.

The above-mentioned be the utility model discloses a concrete implementation way, nevertheless the utility model discloses a design concept is not limited to this, and the ordinary use of this design is right the utility model discloses carry out immaterial change, all should belong to the act of infringement the protection scope of the utility model.

Claims (9)

1. The utility model provides a shedder of pulling-on piece injection moulding line which characterized in that: comprises that

The injection mold is provided with a forming seat for forming a zipper injection molding set on the upper side, the formed zipper injection molding set comprises an injection molding piece and two rows of zipper heads which are respectively distributed on the left side and the right side of the injection molding piece, and each zipper head is connected with the injection molding piece through a connecting part; a plurality of zipper head positioning grooves for positioning the two rows of zipper heads are formed in the upper side of the forming seat; a slot is formed in the bottom of each zipper head positioning slot;

the pressing mechanism comprises two positioning plates, and when the pressing mechanism descends to the right position, the two positioning plates can respectively abut against the two rows of zipper heads up and down;

the inserting and taking mechanism comprises two rows of slotting tools and a driving component for driving the two rows of slotting tools to move in the opposite direction or the back direction; the two rows of the slotting tools can move oppositely until each slotting tool is inserted into a corresponding slot, and each slotting tool upwards supports the bottom surface of the zipper head so that the slotting tools can push the zipper head to move upwards;

the lifting mechanism is used for driving the pressing mechanism and the inserting and taking mechanism to simultaneously and longitudinally move;

and the transverse moving mechanism is used for driving the pressing mechanism and the inserting and taking mechanism to simultaneously and transversely move.

2. The demolding device for the pull-tab injection molding line as claimed in claim 1, wherein: each slot penetrates through the side face of the forming seat outwards.

3. The demolding device for the pull-tab injection molding line as claimed in claim 1, wherein: the opposite ends of the two rows of slotting tools are rounded ends.

4. The demolding device for the pull-tab injection molding line as claimed in claim 1, wherein: the driving assembly comprises two transverse pushing motors which are respectively used for driving the two rows of slotting tools to transversely move.

5. The demolding device for the pull-tab injection molding line as claimed in claim 4, wherein: the inserting and taking mechanism further comprises two plate bases, and the two rows of slotting tools are fixedly arranged on the lower sides of the two plate bases respectively.

6. The demolding device for the pull-tab injection molding line as claimed in claim 5, wherein: the two positioning plates are respectively connected with one plate base in a sliding mode through a transverse sliding rod, so that the plate base can move towards or back to the positioning plates; the two transverse pushing motors are respectively used for driving and controlling the two plate bases to transversely move.

7. The demolding device for an injection molding line of pull tabs as claimed in claim 6, wherein: the motor base of the transverse pushing motor is fixedly arranged on the plate base, and the driving end of the transverse pushing motor is connected with the positioning plate.

8. The demolding device for the pull-tab injection molding line as claimed in claim 1, wherein: the transverse moving mechanism comprises an air cylinder, a transverse sliding rail and a sliding seat, the air cylinder is fixedly arranged on the transverse sliding rail, the sliding seat is arranged on the transverse sliding rail in a sliding manner, and the driving end of the air cylinder is connected with the sliding seat; the two positioning plates are fixedly arranged on the sliding seat.

9. The demolding device for the pull-tab injection molding line as claimed in claim 1, wherein: the lifting mechanism comprises a longitudinal pushing motor, a lifting seat and a longitudinal sliding rod, and the longitudinal pushing motor is fixedly arranged on external equipment; the upper end of the longitudinal sliding rod is connected with the transverse moving mechanism, the lower end of the longitudinal sliding rod is connected with the lifting seat, and the lifting seat is connected with the driving end of the longitudinal pushing motor, so that the longitudinal pushing motor can drive the longitudinal sliding rod to move up and down.

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