CN104416834A - Insert forming method and product thereof as well as insert forming mold and equipment thereof - Google Patents

Abstract

The invention discloses an insert forming method which comprises the steps of placing an insert into an insert forming mold with a front mold and a rear mold; assembling the front mold and the rear mold to enable the insert to contact the inner surface of the front mold; detecting the value of pressure between the front mold and the rear mold by a pressure sensor; when the detected pressure value reaches a set value, locking the assembling position of the front mold and the rear mold; and carrying out injection molding at the assembling position to form an insert forming product. The invention also discloses the insert forming product produced by adopting the method, an insert forming mold and insert forming equipment comprising the insert forming mold, which can not only prevent the insert from deformation or fracture, but also can avoid injection molding excessive flash.

Description

Insert molding method and products thereof, insert modeling die and equipment thereof

Technical field

The insert-molding product, the insert modeling die that the present invention relates to field shaping technique, particularly relate to a kind of insert molding method, adopt the method to prepare and comprise the insert-molding equipment of this insert modeling die.

Background technology

Insert-molding (Insert Molding) technique refers to and first in mould, loads pre-prepd different material inserts, and then inject thermoplasticity or thermosets, the material of melting and inserts engagement cure, make the moulding process of integration product.Mould for insert molding process mostly has forward and backward die cavity, and after insert material is inserted into mould, forward and backward die cavity matched moulds also keeps certain spacing, after this carries out injection moulding again.

At present, the distance between the forward and backward die cavity of insert modeling die is fixing, is generally determined by the size of inserted inserts.But due to the problem of technique, there is tolerance in the size of inserts itself, when inserts is of a size of plus tolerance, size due to inserts exceedes the distance between forward and backward die cavity, and when matched moulds, the extruding being subject to forward and backward die cavity deforms, breaks by inserts; When inserts is of a size of negative common difference, the size due to inserts is less than the distance between forward and backward die cavity, after matched moulds, there is space between forward and backward die cavity, and injecting products can be caused during injection moulding to walk batch cutting edge of a knife or a sword.

Summary of the invention

In view of this, the insert-molding product that main purpose of the present invention is to provide a kind of insert molding method, adopt the method to prepare, insert modeling die and comprise the insert-molding equipment of this insert modeling die, inserts not only can be avoided to deform or break, can also avoid producing injection moulding and criticize cutting edge of a knife or a sword.

For achieving the above object, the invention provides a kind of insert molding method, comprising:

Inserts is positioned in the insert modeling die with front mould and rear mold;

By described front mould and described rear mold matched moulds, described inserts is made to contact the inner surface of described front mould;

The force value between described front mould and described rear mold is detected by pressure inductor;

When the described force value detected reaches a setting value, pin the die-closed position of described front mould and described rear mold;

Carry out injection moulding at described die-closed position, form insert-molding product.

Preferably, describedly inserts to be positioned in the insert modeling die with front mould and rear mold, to comprise:

Interconnective first floating mold insert and the second floating mold insert are arranged in described rear mold, described inserts is arranged on described first floating mold insert.

Preferably, by set screw, described first floating mold insert is connected with described second floating mold insert.

Preferably, described by described front mould and described rear mold matched moulds, make described inserts contact the inner surface of described front mould, comprising:

Described second floating mold insert is connected with slide block, described slide block and motors are connect.

Preferably, described described second floating mold insert to be connected with slide block, to comprise:

By T-slot structure or oat tail groove structure, described slide block is connected with described second floating mold insert, and the face that described slide block and described second floating mold insert contact with each other is the clinoplain cooperatively interacted.

Preferably, described described slide block and motors to be connect, comprising: by connecting rod, described motor is connected with described slide block.

Preferably, describedly detect force value between described front mould and described rear mold by pressure inductor, comprising: described pressure inductor is arranged in described rear mold.

Preferably, described described pressure inductor to be arranged in described rear mold, to comprise: interconnective first floating mold insert and the second floating mold insert are arranged in described rear mold, described pressure inductor is arranged in described first floating mold insert.

Preferably, described setting value is the destroyed and maximum pressure value that can bear of inserts described in matched moulds process.

For achieving the above object, present invention also offers a kind of insert-molding product adopting above-mentioned insert molding method to prepare.

For achieving the above object, present invention also offers a kind of insert modeling die, comprising: front mould, rear mold and the inserts be positioned between described front mould and described rear mold, also comprise:

Drive unit, for by described front mould and described rear mold matched moulds; And

Pressure inductor, for detecting the force value between described front mould and described rear mold;

Wherein, when the described force value detected reaches a setting value, drive unit is also for pinning the die-closed position of described front mould and described rear mold.

Preferably, described rear mold is provided with interconnective first floating mold insert and the second floating mold insert, described inserts is arranged on described first floating mold insert.

Preferably, described first floating mold insert is connected by set screw with described second floating mold insert.

Preferably, described drive unit comprises:

The slide block be connected with described second floating mold insert; And

The motor be connected with described slide block.

Preferably, described slide block is connected by T-slot structure or oat tail groove structure with described second floating mold insert, and the face that described slide block and described second floating mold insert contact with each other is the clinoplain cooperatively interacted.

Preferably, described motor is connected by connecting rod with described slide block.

Preferably, described pressure inductor is arranged in described rear mold.

Preferably, described rear mold is provided with interconnective first floating mold insert and the second floating mold insert, described pressure inductor is arranged in described first floating mold insert.

Preferably, described setting value is the destroyed and maximum pressure value that can bear of inserts described in matched moulds process.

For achieving the above object, present invention also offers a kind of insert-molding equipment, comprising above-mentioned insert modeling die.

Compared with prior art, insert modeling die of the present invention, the insert-molding equipment comprising this insert modeling die and insert molding method, spacing in mould between forward and backward die cavity is controlled to adapt to have the inserts of size difference by the floating mold insert that increases and the element such as pressure inductor, reach and avoid weighing inserts wounded or producing the object that cutting edge of a knife or a sword is criticized in injection moulding, thus improve the yields of obtained insert-molding product.

Accompanying drawing explanation

Fig. 1 is the process chart of insert molding method of the present invention;

Fig. 2 is the front mould of insert modeling die of the present invention and the decomposition texture schematic diagram of rear mold;

Fig. 3 is the combining structure schematic diagram of the second floating mold insert of the present invention and slide block;

Fig. 4 is the front mould of insert modeling die of the present invention and the combining structure schematic diagram of rear mold.

Description of reference numerals:

1, front mould 2, inserts

3, injecting products 4, rear mold

5, the first floating mold insert 6, pressure inductor

7, set screw 8, second floating mold insert

9, slide block 10, connecting rod

11, motor

Detailed description of the invention

The technical content and a detailed description for the present invention, existing accompanying drawings is as follows.

As shown in Figure 1, the invention provides a kind of insert molding method, specifically comprise the following steps:

Step 101: inserts 2 is positioned in the insert modeling die with front mould 1 and rear mold 4;

Wherein, inserts 2 can be glass, such as safety glass, and can bear maximum pressure and not be destroyed and do not produce the pressure set points criticizing cutting edge of a knife or a sword is 2200N;

Step 102: by front mould 1 and rear mold 4 matched moulds, make inserts 2 contact the inner surface of front mould 1;

Particularly, as shown in figs 2-4, step 102 can realize in the following manner:

Interconnective first floating mold insert 5 and the second floating mold insert 8 are arranged in rear mold 4; Wherein, by set screw 7, first floating mold insert 5 can be connected with the second floating mold insert 8;

Inserts 2 is arranged on the first floating mold insert 5, as shown in Figure 2;

Slide block 9 is connected with the second floating mold insert 8; Wherein, as shown in Figure 3, by T-slot structure or oat tail groove structure, slide block 9 can be connected with the second floating mold insert 8, and the face that slide block 9 and the second floating mold insert 8 contact with each other is the clinoplain (angle of inclination as plane is 1 °) cooperatively interacted, when slide block 9 is moved horizontally under motor 11 drives, the second floating mold insert 8 can be driven to move upward by aforementioned chamfers.

In addition, T-slot or dovetail groove can be arranged in any one in slide block 9 and the second floating mold insert 8, then the protuberance closed with the matching form of T-slot or dovetail groove is then arranged on another in slide block 9 and the second floating mold insert 8.In addition, the groove of other shape except T-slot or dovetail groove, can realize the slip of protuberance in groove thus slide block 9 can be moved mutually with the second floating mold insert 8 and can not produce dislocation to be even separated.

Motor 11 is connected with slide block 9; Wherein, by connecting rod 10, motor 11 can be connected with slide block 9;

Particularly, the implementation procedure of step 102 is: control motor 11 and promote slide block 9(horizontal movement by connecting rod 10), slide block 9 promotes the second floating mold insert 8 by clinoplain and moves (vertical motion) to the direction of front mould 1, thus drive rear mold 4 and the first floating mold insert 5 to move (vertical motion) to the direction of front mould 1, while (vertical motion) is moved in the direction making the inserts 2 on the first floating mold insert 5 to front mould 1, achieve front mould 1 and rear mold 4 matched moulds, as shown in Figure 4.

Step 103: detect the force value between front mould 1 and rear mold 4 by pressure inductor 6;

Wherein, pressure inductor 6 is arranged in rear mold 4, specifically can be arranged in the first floating mold insert 5; The pressure that the inner surface being then built in continuous perception first floating mold insert 5 of pressure inductor 6 in the first floating mold insert 5 bears in matched moulds process, and this force value is exported;

Step 104: when the force value detected reaches a setting value, pins the die-closed position of front mould 1 and rear mold 4;

Particularly, detected force value is transferred to the controller of motor 11 by pressure inductor 6, and when force value reaches setting value, controller controls motor 11 and quits work and pin die-closed position; Wherein, setting value herein refers to the maximum pressure value that inserts 2 in matched moulds process is destroyed and can bear, and under this force value, matched moulds effect preferably and injecting products 3 can not walk batch cutting edge of a knife or a sword.

Step 105: carry out injection moulding at this die-closed position, forms insert-molding product.

Particularly; be built-in with the first floating mold insert 5 of pressure inductor 6 constantly near front mould 1; and detect die and be applied to force value on front mould 1 inner surface; the pressure size that motor 11 can be detected by pressure inductor 6 adjusts the dynamics that it promotes slide block 9 accordingly, to keep front mould 1 inner surface pressure protection inserts 2 can contact well with die in tolerance range not by breakage.When pressure reaches the set force value of bearing, namely motor stops the work promoting slide block 9, thus makes the spacing between rear mold 4 and front mould 1 meet the size of inserts 2, can not weigh inserts 2 wounded, and the injecting products 3 obtained also can not be made to walk batch cutting edge of a knife or a sword.

Present invention also offers a kind of insert-molding product adopting above-mentioned insert molding method to prepare, there is higher production yield.

Of the present invention be provided with pressure inductor 6 and motor 11 insert modeling die and insert-molding equipment can be widely used in using materials such as glass screen or back cover, eyeglass, high light Five-gold-sheet, liquid crystal panel, potteries as inserts and with the integrated injection molding art of melted material such as plastic cement.

As shown in figs 2-4, present invention also offers a kind of insert modeling die, comprise: front mould 1, rear mold 4 and the inserts 2 be positioned between front mould 1 and rear mold 4, wherein, inserts 2 can be glass, such as safety glass, can bear maximum pressure and not be destroyed and do not produce the pressure set points criticizing cutting edge of a knife or a sword is 2200N;

Described insert modeling die also comprises:

Drive unit, for by front mould 1 and rear mold 4 matched moulds; And

Pressure inductor 6, for detecting the force value between front mould 1 and rear mold 4;

Wherein, when the force value detected reaches a setting value, described drive unit is also for pinning the die-closed position of front mould 1 and rear mold 4.

Wherein, rear mold 4 is provided with interconnective first floating mold insert 5 and the second floating mold insert 8, inserts 2 is arranged on the first floating mold insert 5, as shown in Figure 2; Preferably, the first floating mold insert 5 is connected by set screw 7 with the second floating mold insert 8.

Wherein, drive unit comprises: the slide block 9 be connected with the second floating mold insert 8; And the motor 11 to be connected with slide block 9.Preferably, as shown in Figure 3, slide block 9 can be connected by T-slot structure or oat tail groove structure with the second floating mold insert 8, and, the face that slide block 9 and the second floating mold insert 8 contact with each other is the clinoplain (angle of inclination as plane is 1 °) cooperatively interacted, when slide block 9 is moved horizontally under motor 11 drives, the second floating mold insert 8 can be driven to move upward by aforementioned chamfers.Preferably, motor 11 is connected by connecting rod 10 with slide block 9.

In addition, T-slot or dovetail groove can be arranged in any one in slide block 9 and the second floating mold insert 8, and the protuberance closed with the matching form of T-slot or dovetail groove is then arranged on another in slide block 9 and the second floating mold insert 8.In addition, the groove of other shape except T-slot or dovetail groove, can realize the slip of protuberance in groove thus slide block 9 can be moved mutually with the second floating mold insert 8 and can not produce dislocation to be even separated.

During use, control motor 11 and promote slide block 9(horizontal movement by connecting rod 10), slide block 9 promotes the second floating mold insert 8 by clinoplain and moves (vertical motion) to the direction of front mould 1, thus drive rear mold 4 and the first floating mold insert 5 to move (vertical motion) to the direction of front mould 1, while (vertical motion) is moved in the direction making the inserts 2 on the first floating mold insert 5 to front mould 1, achieve front mould 1 and rear mold 4 matched moulds, as shown in Figure 4.

Wherein, pressure inductor 6 is arranged in rear mold 4.Preferably, rear mold 4 is provided with interconnective first floating mold insert 5 and the second floating mold insert 8, pressure inductor 6 is arranged in the first floating mold insert 5.During use, first, the pressure that the inner surface being built in continuous perception first floating mold insert 5 of pressure inductor 6 in the first floating mold insert 5 bears in matched moulds process, and this force value is exported; Wherein, setting value is the destroyed maximum pressure value that can bear of inserts 2 in matched moulds process, and under this force value, matched moulds effect is best and injecting products 3 can not walk batch cutting edge of a knife or a sword.

Insert modeling die of the present invention in use; be built-in with the first floating mold insert 5 of pressure inductor 6 constantly near front mould 1; and detect die and be applied to force value on front mould 1 inner surface; the pressure size that motor 11 can be detected by pressure inductor 6 adjusts the dynamics that it promotes slide block 9 accordingly, to keep front mould 1 inner surface pressure protection inserts 2 can contact well with die in tolerance range not by breakage.When pressure reaches the set force value of bearing, namely motor stops the work promoting slide block 9, thus makes the spacing between rear mold 4 and front mould 1 meet the size of inserts 2, can not weigh inserts 2 wounded, and the injecting products 3 obtained also can not be made to walk batch cutting edge of a knife or a sword.

For achieving the above object, present invention also offers a kind of insert-molding equipment, comprising above-mentioned insert modeling die.As injection machine etc.

Above, be only preferred embodiment of the present invention, be not intended to limit protection scope of the present invention.

Claims (20)

1. an insert molding method, is characterized in that, comprising:

Inserts is positioned in the insert modeling die with front mould and rear mold;

By described front mould and described rear mold matched moulds, described inserts is made to contact the inner surface of described front mould;

The force value between described front mould and described rear mold is detected by pressure inductor;

When the described force value detected reaches a setting value, pin the die-closed position of described front mould and described rear mold;

Carry out injection moulding at described die-closed position, form insert-molding product.

2. insert molding method as claimed in claim 1, is characterized in that, is describedly positioned over by inserts in the insert modeling die with front mould and rear mold, comprising:

Interconnective first floating mold insert and the second floating mold insert are arranged in described rear mold, described inserts is arranged on described first floating mold insert.

3. insert molding method as claimed in claim 2, be is characterized in that, be connected by described first floating mold insert by set screw with described second floating mold insert.

4. insert molding method as claimed in claim 2, is characterized in that, described by described front mould and described rear mold matched moulds, makes described inserts contact the inner surface of described front mould, comprising:

Described second floating mold insert is connected with slide block, described slide block and motors are connect.

5. insert molding method as claimed in claim 4, is characterized in that, is describedly connected with slide block by described second floating mold insert, comprising:

By T-slot structure or oat tail groove structure, described slide block is connected with described second floating mold insert, and the face that described slide block and described second floating mold insert contact with each other is the clinoplain cooperatively interacted.

6. insert molding method as claimed in claim 4, is characterized in that, describedly described slide block and motors is connect, and comprising: be connected with described slide block by described motor by connecting rod.

7. insert molding method as claimed in claim 1, is characterized in that, describedly detects force value between described front mould and described rear mold by pressure inductor, comprising: be arranged in described rear mold by described pressure inductor.

8. insert molding method as claimed in claim 7, it is characterized in that, described described pressure inductor is arranged in described rear mold, comprise: interconnective first floating mold insert and the second floating mold insert are arranged in described rear mold, described pressure inductor is arranged in described first floating mold insert.

9. insert molding method as claimed in claim 1, is characterized in that, described setting value is the destroyed and maximum pressure value that can bear of inserts described in matched moulds process.

10. the insert-molding product adopting insert molding method as claimed in any one of claims 1-9 wherein to prepare.

11. 1 kinds of insert modeling dies, is characterized in that, comprising: front mould, rear mold and the inserts be positioned between described front mould and described rear mold, also comprise:

Drive unit, for by described front mould and described rear mold matched moulds; And

Pressure inductor, for detecting the force value between described front mould and described rear mold;

Wherein, when the described force value detected reaches a setting value, drive unit is also for pinning the die-closed position of described front mould and described rear mold.

12. insert modeling dies as claimed in claim 11, is characterized in that, described rear mold is provided with interconnective first floating mold insert and the second floating mold insert, described inserts is arranged on described first floating mold insert.

13. insert modeling dies as claimed in claim 12, it is characterized in that, described first floating mold insert is connected by set screw with described second floating mold insert.

14. insert modeling dies as claimed in claim 12, it is characterized in that, described drive unit comprises:

The slide block be connected with described second floating mold insert; And

The motor be connected with described slide block.

15. insert modeling dies as claimed in claim 14, it is characterized in that, described slide block is connected by T-slot structure or oat tail groove structure with described second floating mold insert, and the face that described slide block and described second floating mold insert contact with each other is the clinoplain cooperatively interacted.

16. insert modeling dies as claimed in claim 14, it is characterized in that, described motor is connected by connecting rod with described slide block.

17. insert modeling dies as claimed in claim 11, it is characterized in that, described pressure inductor is arranged in described rear mold.

18. insert modeling dies as claimed in claim 17, is characterized in that, described rear mold is provided with interconnective first floating mold insert and the second floating mold insert, described pressure inductor is arranged in described first floating mold insert.

19. insert modeling dies as claimed in claim 11, is characterized in that, described setting value is the destroyed and maximum pressure value that can bear of inserts described in matched moulds process.

20. 1 kinds of insert-molding equipment, is characterized in that, comprise the insert modeling die according to any one of claim 11 to 19.