CN203157057U - Mixed water outtake faucet forming mold - Google Patents

Abstract

The utility model discloses a mixed water outtake faucet forming mold which comprises a moving mold core, a fixed mold core, an ejecting mechanism and a third cylinder, wherein the moving mold core is provided with a first moving mold cavity, a second moving mold cavity, a third moving mold cavity and a fourth moving mold cavity in sequence; the fixed mold core is provided with a first fixed mold cavity, a second fixed mold cavity and a third fixed mold cavity; a first half finished product or a finished product can be formed by combining the second moving mold cavity, the third moving mold cavity and the second fixed mold cavity; a second half finished product can be formed by combining the first moving mold cavity, the fourth moving mold cavity, the first fixed mold cavity and the third fixed mold cavity; the third cylinder is connected with the fixed mold core so as to switch the moving mold core and the fixed mold core between a first corresponding relationship and a second corresponding relationship; and the ejecting mechanism is used for ejecting the finished products when the moving mold core and the fixed mold core are opened. One set of molds is only adopted; and in addition, due to the instant forming, the production efficiency is greatly improved, and the mold has the characteristic of low logistics cost.

Description

A kind of faucet water mould that blends

Technical field

The utility model relates to leading manufacturing technology field, relates to a kind of faucet water mould that blends in particular, and it can integral type, low cost and processes expeditiously and blend faucet water.

Background technology

Now the tap that uses of household mostly is and has the tap that hot water or cold water's water inlet pipe mixes water outlet again, and this tap inner core body construction is to be made of two vertical tubes and a transverse tube that is communicated with two vertical tubes, and this transverse tube middle part is for blending the mouth of a river, for the control valve assembly in wherein.

Traditional faucet body generally is to adopt the metallic copper integrally casting to form, but because resource comparatively lacks, holding at high price of metal causes the material cost of faucet body higher.In addition, because this blends faucet body is the structure that is formed by three part three-way pipes, it adopts one-shot forming processing very difficult, usually all be to adopt many parts to process respectively, the mode machine-shaping that again many parts is welded together is no matter be all to have deficiency in crudy or at aspects such as required costs so.

In order to overcome above-mentioned defective, people realize moulding to faucet body by the mode that adopts quadric injection mould, it specifically is to process two injection moulding assemblies by two independent mould cavities earlier, two injection moulding assemblies that will mold again injection moulding again of putting together is to link together two injection moulding assemblies.

But, generally be to adopt two molds respectively two injection moulding assemblies to be processed at present, machine-shaping obtains two kinds of semi-finished product again after the demoulding, two kinds of semi-finished product are inserted together carry out quadric injection mould in the quadric injection mould mould again, so that two kinds of semi-finished product are connected to a finished product.So as can be known, it has die cost height, logistics cost height and the low defective of production efficiency, in case and semi-finished product structural failure appears, produce in advance based on half-finished, be easy to form waste product in batches.

In view of this, the inventor has this case to produce at above-mentioned defective further investigation of the prior art then.

The utility model content

Main purpose of the present utility model is to provide a kind of faucet water mould that blends, and to solve prior art when adopting quadric injection mould processing faucet body, has die cost height, logistics cost height and the low problem of production efficiency.

In order to reach above-mentioned purpose, solution of the present utility model is:

A kind of faucet water mould that blends, wherein, comprise mavable module core, cover half benevolence, ejecting mechanism and the 3rd oil cylinder, this mavable module core has the first dynamic model cave that is arranged in order, the second dynamic model cave, the 3rd dynamic model cave and the 4th dynamic model cave, this cover half benevolence has the first cover half cave that is arranged in order, the second cover half cave and the 3rd cover half cave, this second dynamic model cave, plasticly behind the 3rd dynamic model cave and the second cover half cave matched moulds go out first semifinished or finished goods, this first dynamic model cave, the 4th dynamic model cave and the first cover half cave, plasticly behind the 3rd cover half cave matched moulds go out second semi-finished product, after this mavable module core and the die sinking of cover half benevolence, first semi-finished product are stayed in the second dynamic model cave or the 3rd dynamic model cave, these second semi-finished product are stayed in the first cover half cave or the 3rd cover half cave, the 3rd oil cylinder links to each other with cover half benevolence so that mavable module core and cover half benevolence are switched between first corresponding relation and second corresponding relation, this ejecting mechanism is pushing-off product when mavable module core and the die sinking of cover half benevolence then, this first corresponding relation is the second dynamic model cave, the 3rd dynamic model cave, the 4th dynamic model cave is respectively in alignment with the first cover half cave, the second cover half cave, the 3rd cover half cave, this second corresponding relation are the first dynamic model cave, the second dynamic model cave, the 3rd dynamic model cave is respectively in alignment with the first cover half cave, the second cover half cave, the 3rd cover half cave.

Further, this ejecting mechanism has first oil cylinder, movable latch, first slide block, second slide block, fork, second oil cylinder, pull bar, first driving lever, second driving lever, first contiguous block, second contiguous block, big ejector retainner plate, the first little ejector retainner plate, the second little ejector retainner plate and top rod, and first oil cylinder, movable latch, first slide block, second slide block and fork form a whole and be fixed on the mavable module core; Second oil cylinder and pull bar are fixed on the mavable module core together; Piston rod and the pull bar of this second oil cylinder are fixedly linked, and are formed with first through slot on this pull bar; Piston rod and the fork of this first oil cylinder are fixedly linked, and are formed with second through slot on this fork, are respectively arranged with first guide groove and second guide groove on this first slide block and second slide block; The bearing of trend of this first through slot and second through slot is vertical arrangement, and this first guide groove, second guide groove are identical with the bearing of trend of second through slot; This first slide block and second slide block are arranged side by side, and this fork is folded to be located on first slide block and second slide block and second through slot and first guide groove and second guide groove are aligned mutually; This pull bar is folded be located on the fork and make first through slot and second through slot between have overlapping part; This movable latch runs through first through slot and second through slot and selects to be installed with in first guide groove or second guide groove; This first little ejector retainner plate and the second little ejector retainner plate are installed with in big ejector retainner plate and are fixed with big ejector retainner plate with the control of second contiguous block or separated by first contiguous block; This first driving lever fixedly is located on first slide block and changes the position of first contiguous block with the motion of first slide block, second driving lever fixedly is located on second slide block and changes the position of second contiguous block with the motion of second slide block, this top rod is fixed on the big ejector retainner plate, this corresponding second dynamic model cave of first little ejector retainner plate, this corresponding the 3rd dynamic model cave of second little ejector retainner plate all is provided with the thimble for pushing-off product on this first little ejector retainner plate and the second little ejector retainner plate.

Further, this first contiguous block, one end is formed with first driver slot, the other end is formed with first storage tank and is positioned at the end and is the oppositely first barb-like binding block, and this first driving lever lower end is located in first driver slot and can drives first contiguous block and produces translation; Be formed with first containing hole on this big ejector retainner plate, be formed with first through hole that aligns and arrange with first containing hole on this first little ejector retainner plate, be arranged in first storage tank that the lower end part of first containing hole and lower end part that this first little ejector retainner plate is arranged in first through hole all are contained in first contiguous block in this big ejector retainner plate, this first binding block is fastened in first through hole and can be under the drive of first driving lever and penetrate in first containing hole so that the first little ejector retainner plate and big ejector retainner plate are fixedly linked.

Further, this second contiguous block, one end is formed with second driver slot, the other end is formed with second storage tank and is positioned at the end and is the oppositely second barb-like binding block, and this second driving lever lower end is located in second driver slot and can drives second contiguous block and produces translation; Be formed with second containing hole on this big ejector retainner plate, be formed with second through hole that aligns and arrange with second containing hole on this second little ejector retainner plate, be arranged in second storage tank that the lower end part of second containing hole and lower end part that this second little ejector retainner plate is arranged in second through hole all are contained in second contiguous block in this big ejector retainner plate, this second binding block is fastened in second through hole and can be under the drive of second driving lever and penetrate in second containing hole so that the second little ejector retainner plate and big ejector retainner plate are fixedly linked.

After adopting said structure, the utility model relates to a kind of faucet water mould and moulding process thereof of blending, it utilizes the first dynamic model cave and the 4th dynamic model cave moulding second semi-finished product, moulding first semi-finished product or finished product are come in the recycling second dynamic model cave and the 3rd dynamic model cave, so make under the drive of the 3rd oil cylinder, in the one-period of the 3rd oil cylinder, can mold two finished products.

Thus, the utility model only needs to adopt a mold when adopting the two-shot process moulding to blend faucet water, in addition because can instant-forming, has not only improved production efficiency greatly, but also has had the low characteristics of logistics cost.

Description of drawings

Fig. 1 blends the structural representation of faucet water for the utility model molds;

Fig. 2 is a kind of schematic diagram that blends when mavable module core and cover half benevolence are in first corresponding relation in the faucet water mould for the utility model relates to;

Fig. 3 is a kind of schematic diagram that blends when mavable module core and cover half benevolence are in second corresponding relation in the faucet water mould for the utility model relates to;

Fig. 4 is a kind of structural representation that blends mavable module core in the faucet water mould for the utility model relates to;

Fig. 5 is a kind of structural representation that blends cover half benevolence in the faucet water mould for the utility model relates to;

Fig. 6 and Fig. 7 are a kind of for the utility model relates to blend ejecting mechanism in the faucet water mould and is used for the schematic diagram that waste product or finished product with the second dynamic model cave eject;

Fig. 8 and Fig. 9 are a kind of for the utility model relates to blend ejecting mechanism in the faucet water mould and is used for the schematic diagram that the finished product with the 3rd dynamic model cave ejects;

The schematic diagram that Figure 10 is assembled together the first little ejector retainner plate, the second little ejector retainner plate and big ejector retainner plate by first contiguous block and second contiguous block for the utility model;

Figure 11 is the installation diagram of a whole set of mould of the utility model;

Figure 12 is the schematic diagram that the utility model first little ejector retainner plate, the second little ejector retainner plate and big ejector retainner plate are in stationary state;

Figure 13 is the schematic diagram that the utility model first little ejector retainner plate, the second little ejector retainner plate and big ejector retainner plate are in released state;

Figure 14 is the concrete structure schematic diagram of first contiguous block and second contiguous block in the utility model.

Among the figure:

Mavable module core 1 first dynamic model cave 11

The 3rd dynamic model cave 13, the second dynamic model cave 12

The 4th dynamic model cave 14 cover half benevolence 2

21 second cover half caves 22, the first cover half cave

The 3rd cover half cave 23 ejecting mechanisms 3

First oil cylinder, 31 forks 311

Movable latch 312 second through slots 313

First slide block, 32 first driving levers 321

First guide groove, 322 second slide blocks 33

Second driving lever, 331 second guide grooves 332

Second oil cylinder, 34 pull bars 341

First through slot, 342 first contiguous blocks 35

First driver slot, 351 first storage tanks 352

First binding block, 353 second contiguous blocks 36

Second driver slot, 361 second storage tanks 362

Second binding block, 363 big ejector retainner plates 37

Top rod 371 first containing holes 372

Second containing hole, 373 first little ejector retainner plates 38

First through hole, 381 second little ejector retainner plates 39

Second through hole 391 the 3rd oil cylinder 4

Blend faucet water 200 first semi-finished product 210

Second semi-finished product 220 the 3rd semi-finished product 230.

The specific embodiment

In order further to explain the technical solution of the utility model, the utility model is elaborated below by specific embodiment.

As shown in Figure 1, it is a kind of for the utility model relates to blend faucet water 200 moulds and moulding process molds the structural representation that blends faucet water 200, this blends faucet water 200 and be divided into first semi-finished product 210 when moulding, second semi-finished product 220 and the 3rd semi-finished product 230, wherein the 3rd semi-finished product 230 are to adopt quadric injection mould to process, in the utility model, this blends the same two vertical tubes and the transverse tube of also comprising with prior art of faucet water 200, these first semi-finished product 210 comprise the part of two vertical tubes and transverse tube, these second semi-finished product 220 comprise a part transverse tube, and 230 of the 3rd semi-finished product are the connecting portions that first semi-finished product 210 are linked to each other with second semi-finished product 220 of being used for of quadric injection mould moulding.

Extremely shown in Figure 5 as Fig. 2, a kind of faucet water 200 moulds that blend that the utility model relates to, comprise mavable module core 1, cover half benevolence 2, ejecting mechanism 3 and the 3rd oil cylinder 4, this mavable module core 1 has the first dynamic model cave 11, the second dynamic model cave 12, the 3rd dynamic model cave 13 and the 4th dynamic model cave 14 that is arranged in order, and this cover half benevolence 2 has the first cover half cave 21, the second cover half cave 22 and the 3rd cover half cave 23 that is arranged in order.

This second dynamic model cave 12, plasticly behind the 3rd dynamic model cave 13 and the second cover half cave, 22 matched moulds go out first semi-finished product 210 or the finished product, this first dynamic model cave 11, the 4th dynamic model cave 14 and the first cover half cave 21, plasticly behind 23 matched moulds of the 3rd cover half cave go out second semi-finished product 220, after this mavable module core 1 and 2 die sinkings of cover half benevolence, first semi-finished product 210 are stayed in the second dynamic model cave 12 or the 3rd dynamic model cave 13, these second semi-finished product 220 are stayed in the first cover half cave 21 or the 3rd cover half cave 23, the 3rd oil cylinder 4 links to each other with cover half benevolence 2 so that mavable module core 1 and cover half benevolence 2 are switched between first corresponding relation and second corresponding relation, 3 pushing-off products when mavable module core 1 and 2 die sinkings of cover half benevolence of this ejecting mechanism, specifically see also Fig. 2 and shown in Figure 3, this first corresponding relation is the second dynamic model cave 12, the 3rd dynamic model cave 13, the 4th dynamic model cave 14 is respectively in alignment with the first cover half cave 21, the second cover half cave 22, the 3rd cover half cave 23, this second corresponding relation are the first dynamic model cave 11, the second dynamic model cave 12, the 3rd dynamic model cave 13 is respectively in alignment with the first cover half cave 21, the second cover half cave 22, the 3rd cover half cave 23.

Extremely shown in Figure 14 as Fig. 6, as a kind of specific embodiment of this ejecting mechanism 3, this ejecting mechanism 3 has first oil cylinder 31, movable latch 312, first slide block 32, second slide block 33, fork 311, second oil cylinder 34, pull bar 341, first driving lever 321, second driving lever 331, first contiguous block 35, second contiguous block 36, big ejector retainner plate 37, the first little ejector retainner plate 38, second little ejector retainner plate 39 and the top rod 371.

This first oil cylinder 31, movable latch 312, first slide block 32, second slide block 33 and fork 311 form a whole and are fixed on the mavable module core 1; Second oil cylinder 34 and pull bar 341 are fixed on the mavable module core 1 together; The piston rod of this second oil cylinder 34 and pull bar 341 are fixedly linked, and are formed with first through slot 342 on this pull bar 341; The piston rod of this first oil cylinder 31 and fork 311 are fixedly linked, and are formed with second through slot 313 on this fork 311, are respectively arranged with first guide groove 322 and second guide groove 332 on this first slide block 32 and second slide block 33; The bearing of trend of this first through slot 342 and second through slot 313 is vertical arrangement, and this first guide groove 322, second guide groove 332 are identical with the bearing of trend of second through slot 313; This first slide block 32 and second slide block 33 are arranged side by side, and particularly, the orientation of this first slide block 32 and second slide block 33 is identical with the orientation in the second dynamic model cave 12 and the 3rd dynamic model cave 13.

This fork 311 is folded to be located on first slide block 32 and second slide block 33 and second through slot 313 and first guide groove 322 and second guide groove 332 is aligned mutually; This pull bar 341 is folded be located on the fork 311 and make first through slot 342 and second through slot 313 between have overlapping part; This movable latch 312 runs through first through slot 342 and second through slot 313 and selects to be installed with in first guide groove 322 or second guide groove 332, when movable latch 312 is installed with in first guide groove 322, as shown in Figure 6 and Figure 7, the slide block 32 of winning is fixedly linked with fork 311; When movable latch 312 is installed with in second guide groove 332, as Fig. 8 and shown in Figure 9, make this moment second slide block 33 be fixedly linked with fork 311.

This first little ejector retainner plate 38 and the second little ejector retainner plate 39 be installed with in big ejector retainner plate 37 and by first contiguous block 35 with 36 controls of second contiguous block and fixing with big ejector retainner plate 37 or separate; This first driving lever 321 fixedly is located on first slide block 32 and changes the position of first contiguous block 35 with the motion of first slide block 32, second driving lever 331 fixedly is located on second slide block 33 and changes the position of second contiguous block 36 with the motion of second slide block 33, this top rod 371 is fixed on the big ejector retainner plate 37, these first little ejector retainner plate, 38 corresponding second dynamic model caves 12, these second little ejector retainner plate, 39 corresponding the 3rd dynamic model caves 13 all are provided with the thimble for pushing-off product on this first little ejector retainner plate 38 and the second little ejector retainner plate 39.

Particularly, extremely shown in Figure 14 as Figure 10, these first contiguous block, 35 1 ends are formed with first driver slot 351, the other end is formed with first storage tank 352 and is positioned at the end and is the oppositely first barb-like binding block 353, and these first driving lever, 321 lower ends are located in first driver slot 351 and can drive first contiguous block 35 and produce translation; Be formed with first containing hole 372 on this big ejector retainner plate 37, be formed with first through hole 381 that aligns and arrange with first containing hole 372 on this first little ejector retainner plate 38, be arranged in first storage tank 352 that the lower end part of first containing hole 372 and lower end part that this first little ejector retainner plate 38 is arranged in first through hole 381 all are contained in first contiguous block 35 in this big ejector retainner plate 37, this first binding block 353 is fastened in first through hole 381 and can be under the drive of first driving lever 321 and penetrate in first containing hole 372 so that the first little ejector retainner plate 38 and big ejector retainner plate 37 are fixedly linked.

Similarly, these second contiguous block, 36 1 ends are formed with second driver slot 361, the other end is formed with second storage tank 362 and is positioned at the end and is the oppositely second barb-like binding block 363, and these second driving lever, 331 lower ends are located in second driver slot 361 and can drive second contiguous block 36 and produce translation; Be formed with second containing hole 373 on this big ejector retainner plate 37, be formed with second through hole 391 that aligns and arrange with second containing hole 373 on this second little ejector retainner plate 39, be arranged in second storage tank 362 that the lower end part of second containing hole 373 and lower end part that this second little ejector retainner plate 39 is arranged in second through hole 391 all are contained in second contiguous block 36 in this big ejector retainner plate 37, this second binding block 363 is fastened in second through hole 391 and can be under the drive of second driving lever 331 and penetrate in second containing hole 373 so that the second little ejector retainner plate 39 and big ejector retainner plate 37 are fixedly linked.

A kind of faucet water 200 moulding process that blend that the utility model is related to are described in detail below, and this moulding process comprises the steps:

1. prepare a molding tool, it comprises mavable module core 1, cover half benevolence 2, ejecting mechanism 3 and the 3rd oil cylinder 4, this mavable module core 1 has the first dynamic model cave 11 that is arranged in order, the second dynamic model cave 12, the 3rd dynamic model cave 13 and the 4th dynamic model cave 14, this cover half benevolence 2 has the first cover half cave 21 that is arranged in order, the second cover half cave 22 and the 3rd cover half cave 23, this mavable module core 1 and cover half benevolence 2 are being switched between first corresponding relation and second corresponding relation under the drive of the 3rd oil cylinder 4, this first corresponding relation is the second dynamic model cave 12, the 3rd dynamic model cave 13, the 4th dynamic model cave 14 is respectively in alignment with the first cover half cave 21, the second cover half cave 22, the 3rd cover half cave 23, this second corresponding relation are the first dynamic model cave 11, the second dynamic model cave 12, the 3rd dynamic model cave 13 is respectively in alignment with the first cover half cave 21, the second cover half cave 22, the 3rd cover half cave 23;

2. the matched moulds under first corresponding relation with mavable module core 1 and cover half benevolence 2, the 3rd dynamic model cave 13 and the second cover half cave 22 mold first semi-finished product 210, the 4th dynamic model cave 14 and the 3rd cover half cave 23 mold second board finished product, 21 moulding one waste products in this second dynamic model cave 12 and the first cover half cave; Please refer to shown in Figure 2ly, this moment is not owing to exist first semi-finished product 210 and second semi-finished product 220 between the second dynamic model cave 12 and the first cover half cave 21, and so it forms out is waste product;

3. mavable module core 1 and cover half benevolence 2 are carried out die sinking, these first semi-finished product 210 are stayed in the 3rd dynamic model cave 13, second semi-finished product 220 are stayed in the 3rd cover half cave 23, restarting ejecting mechanism 3 ejects the waste product of moulding between the second dynamic model cave 12 and the first cover half cave 21, and simultaneously ejecting mechanism 3 is switched to next and eject station, namely corresponding to the position in the 3rd dynamic model cave 13; Specifically please refer to Fig. 6 and shown in Figure 7; The operating procedure of this ejecting mechanism 3 comprises:

A, first oil cylinder 31 start, this moment, this movable latch 312 linked together first slide block 32 with fork 311, namely first oil cylinder 31 drives the motion of loosing core of first slide block 32, drive first contiguous block 35 by first driving lever 321 again, the little ejector retainner plate 38 of winning is fixedly linked with big ejector retainner plate 37, ejects action by injection machine by top rod 371 again waste product is ejected;

After B, first oil cylinder 31 reset, by second oil cylinder 34 movable latch 312 is moved on second slide block 33, to realize ejecting mechanism 3 is switched to the position in the 3rd dynamic model cave 13.

4. the 3rd oil cylinder 4 drives 2 motions of cover half benevolence, and makes mavable module core 1 and cover half benevolence 2 be in second corresponding relation; Please refer to shown in Figure 3;

5. the matched moulds under second corresponding relation with mavable module core 1 and cover half benevolence 2, this first dynamic model cave 11 and the first cover half cave 21 mold second semi-finished product 220, this second dynamic model cave 12 and the second cover half cave 22 mold first semi-finished product, 210, the three dynamic model caves 13 and the 3rd cover half cave 23 molds finished product;

6. mavable module core 1 and cover half benevolence 2 are carried out die sinking, these first semi-finished product 210 are stayed in the second dynamic model cave 12, these second semi-finished product 220 are stayed in the first cover half cave 21, restarting ejecting mechanism 3 ejects the finished product of moulding between the 3rd dynamic model cave 13 and the 3rd cover half cave 23, and simultaneously ejecting mechanism 3 is switched to the next one and eject station, namely corresponding to the position in the second dynamic model cave 12; Particularly, step 6. in, the operating procedure of this ejecting mechanism 3 comprises:

A, first oil cylinder 31 start, this moment, this movable latch 312 linked together second slide block 33 with fork 311, namely first oil cylinder 31 drives the motion of loosing core of second slide block 33, drive second contiguous block 36 by second driving lever 331 again, make the second little ejector retainner plate 39 and big ejector retainner plate 37 be fixedly linked, eject action by injection machine by top rod 371 again product is ejected;

After B, first oil cylinder 31 reset, by second oil cylinder 34 movable latch 312 is moved on first slide block 32, to realize ejecting mechanism 3 is switched to the position in the second dynamic model cave 12.

7. the 3rd oil cylinder 4 drives 2 motions of cover half benevolence, and makes mavable module core 1 and cover half benevolence 2 be in first corresponding relation;

8. the matched moulds under first corresponding relation with mavable module core 1 and cover half benevolence 2, the 3rd dynamic model cave 13 and the second cover half cave 22 mold first semi-finished product 210, the 4th dynamic model cave 14 and the 3rd cover half cave 23 mold second board finished product, 21 moulding one finished products in this second dynamic model cave 12 and the first cover half cave;

9. mavable module core 1 and cover half benevolence 2 are carried out die sinking, these first semi-finished product 210 are stayed in the 3rd dynamic model cave 13, second semi-finished product 220 are stayed in the 3rd cover half cave 23, restarting ejecting mechanism 3 ejects the finished product of moulding between the second dynamic model cave 12 and the first cover half cave 21, and simultaneously ejecting mechanism 3 is switched to next and eject station, namely corresponding to the position in the 3rd dynamic model cave 13; The 3rd oil cylinder 4 drives 2 motions of cover half benevolence, and makes mavable module core 1 and cover half benevolence 2 be in second corresponding relation;

10. 5. repeating step to 9., can mold two finished products in the one-period of the 3rd oil cylinder 4.

In sum, the utility model relates to a kind of faucet water 200 moulds and moulding process thereof of blending, it utilizes the first dynamic model cave 11 and the 4th dynamic model cave 14 moulding second semi-finished product 220, moulding first semi-finished product 210 or the finished product come in the recycling second dynamic model cave 12 and the 3rd dynamic model cave 13, so make under the drive of the 3rd oil cylinder 4, in the one-period of the 3rd oil cylinder 4, can mold two finished products.

Thus, the utility model only needs to adopt a mold when adopting the two-shot process moulding to blend faucet water 200, in addition because can instant-forming, has not only improved production efficiency greatly, but also has had the low characteristics of logistics cost.

Above-described embodiment and graphic and non-limiting product form of the present utility model and style, any person of an ordinary skill in the technical field all should be considered as not breaking away from patent category of the present utility model to its suitable variation or modification of doing.

Claims (4)

1. one kind blends the faucet water mould, it is characterized in that, comprise mavable module core, cover half benevolence, ejecting mechanism and the 3rd oil cylinder, this mavable module core has the first dynamic model cave that is arranged in order, the second dynamic model cave, the 3rd dynamic model cave and the 4th dynamic model cave, this cover half benevolence has the first cover half cave that is arranged in order, the second cover half cave and the 3rd cover half cave, this second dynamic model cave, plasticly behind the 3rd dynamic model cave and the second cover half cave matched moulds go out first semifinished or finished goods, this first dynamic model cave, the 4th dynamic model cave and the first cover half cave, plasticly behind the 3rd cover half cave matched moulds go out second semi-finished product, after this mavable module core and the die sinking of cover half benevolence, first semi-finished product are stayed in the second dynamic model cave or the 3rd dynamic model cave, these second semi-finished product are stayed in the first cover half cave or the 3rd cover half cave, the 3rd oil cylinder links to each other with cover half benevolence so that mavable module core and cover half benevolence are switched between first corresponding relation and second corresponding relation, this ejecting mechanism is pushing-off product when mavable module core and the die sinking of cover half benevolence then, this first corresponding relation is the second dynamic model cave, the 3rd dynamic model cave, the 4th dynamic model cave is respectively in alignment with the first cover half cave, the second cover half cave, the 3rd cover half cave, this second corresponding relation are the first dynamic model cave, the second dynamic model cave, the 3rd dynamic model cave is respectively in alignment with the first cover half cave, the second cover half cave, the 3rd cover half cave.

2. a kind of faucet water mould that blends as claimed in claim 1, it is characterized in that, this ejecting mechanism has first oil cylinder, movable latch, first slide block, second slide block, fork, second oil cylinder, pull bar, first driving lever, second driving lever, first contiguous block, second contiguous block, big ejector retainner plate, the first little ejector retainner plate, the second little ejector retainner plate and top rod, and first oil cylinder, movable latch, first slide block, second slide block and fork form a whole and be fixed on the mavable module core; Second oil cylinder and pull bar are fixed on the mavable module core together; Piston rod and the pull bar of this second oil cylinder are fixedly linked, and are formed with first through slot on this pull bar; Piston rod and the fork of this first oil cylinder are fixedly linked, and are formed with second through slot on this fork, are respectively arranged with first guide groove and second guide groove on this first slide block and second slide block; The bearing of trend of this first through slot and second through slot is vertical arrangement, and this first guide groove, second guide groove are identical with the bearing of trend of second through slot; This first slide block and second slide block are arranged side by side, and this fork is folded to be located on first slide block and second slide block and second through slot and first guide groove and second guide groove are aligned mutually; This pull bar is folded be located on the fork and make first through slot and second through slot between have overlapping part; This movable latch runs through first through slot and second through slot and selects to be installed with in first guide groove or second guide groove; This first little ejector retainner plate and the second little ejector retainner plate are installed with in big ejector retainner plate and are fixed with big ejector retainner plate with the control of second contiguous block or separated by first contiguous block; This first driving lever fixedly is located on first slide block and changes the position of first contiguous block with the motion of first slide block, second driving lever fixedly is located on second slide block and changes the position of second contiguous block with the motion of second slide block, this top rod is fixed on the big ejector retainner plate, this corresponding second dynamic model cave of first little ejector retainner plate, this corresponding the 3rd dynamic model cave of second little ejector retainner plate all is provided with the thimble for pushing-off product on this first little ejector retainner plate and the second little ejector retainner plate.

3. a kind of faucet water mould that blends as claimed in claim 2, it is characterized in that, this first contiguous block, one end is formed with first driver slot, the other end is formed with first storage tank and is positioned at the end and is the oppositely first barb-like binding block, and this first driving lever lower end is located in first driver slot and can drives first contiguous block and produces translation; Be formed with first containing hole on this big ejector retainner plate, be formed with first through hole that aligns and arrange with first containing hole on this first little ejector retainner plate, be arranged in first storage tank that the lower end part of first containing hole and lower end part that this first little ejector retainner plate is arranged in first through hole all are contained in first contiguous block in this big ejector retainner plate, this first binding block is fastened in first through hole and can be under the drive of first driving lever and penetrate in first containing hole so that the first little ejector retainner plate and big ejector retainner plate are fixedly linked.

4. a kind of faucet water mould that blends as claimed in claim 2, it is characterized in that, this second contiguous block, one end is formed with second driver slot, the other end is formed with second storage tank and is positioned at the end and is the oppositely second barb-like binding block, and this second driving lever lower end is located in second driver slot and can drives second contiguous block and produces translation; Be formed with second containing hole on this big ejector retainner plate, be formed with second through hole that aligns and arrange with second containing hole on this second little ejector retainner plate, be arranged in second storage tank that the lower end part of second containing hole and lower end part that this second little ejector retainner plate is arranged in second through hole all are contained in second contiguous block in this big ejector retainner plate, this second binding block is fastened in second through hole and can be under the drive of second driving lever and penetrate in second containing hole so that the second little ejector retainner plate and big ejector retainner plate are fixedly linked.

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