CN104325596A - Fan blade forming shaft-core automatic inserting mechanism - Google Patents

Abstract

A fan blade forming shaft-core automatic inserting mechanism comprises a fan blade forming mould, a shaft core containing box, a shaft core pulling-out mechanism and a shaft core jacking mechanism. The shaft core containing box is used for in-batch preassemble of core shafts. The shaft core pulling-out mechanism is used for sequentially conveying the shaft cores in the shaft core containing box down to the fan blade forming mould. The shaft core jacking mechanism is used for pushing the shaft cores in the fan blade forming mould to the specified location. The fan blade forming mould is used for forming a fan blade on the shaft core. The fan blade forming shaft-core automatic inserting mechanism can achieve the fan blade shaft core automatic feeding production, and solves the production problem that the shaft cores must be manually inserted in the fan blade forming production.

Description

Flabellum is shaping inserts axle core mechanism automatically

Technical field

The present invention relates to the automatically slotting axle core mechanism in the shaping production of plastic cement products, particularly relate to the automatically slotting axle core mechanism in the shaping production of a kind of radiator fan flabellum.

Background technology

At present, in the shaping production process of the flabellum of radiator fan, flabellum plastic shaping and the insertion of metal shaft core are two indispensable parts.Autoloader is generally used to realize in the current industry of flabellum plastic shaping part, but metal shaft core insertion portion is grown because axle core shape is thin, axle wicking surface smoothness requirements height does not allow many factors impacts such as scratching, still cannot realize self-feeding in current industry to produce, be all produce to insert axle core operating type manually.But, manually insert the defects such as axle core work production mode has waste of manpower, production efficiency is low, labour intensity is large, production safety coefficient is low.

Summary of the invention

In view of this, be necessary to provide a kind of without the need to manual operation, automatically can complete the shaping slotting axle core mechanism automatically of flabellum of axle core insertion work.

A kind of flabellum is shaping inserts axle core mechanism automatically, and it comprises flabellum mould, axle core accepting box, axle core extraction mechanism and axle core and heads into mechanism.Described axle core accepting box is used for batch prepackage axle core.This axle core extraction mechanism is used for the axle core in axle core accepting box to be delivered to successively in flabellum mould downwards.Described axle core heads into mechanism for the axle core in flabellum mould is pushed to assigned address.Flabellum is taken shape in axle core by described flabellum mould after pushing at axle core.

The shaping axle core mechanism of automatically inserting of flabellum of the present invention is by axle core accepting box batch prepackage axle core, and by axle core extraction mechanism, the axle core in axle core accepting box is delivered to downwards in flabellum mould successively, head into mechanism finally by axle core and axle core is pushed to the shaping position of flabellum, thus the self-feeding achieving flabellum axle core is produced, solving must to insert a production difficult problem for axle core manually in the shaping production of electric fan.

Accompanying drawing explanation

Fig. 1 is the shaping perspective view of automatically inserting axle core mechanism of the flabellum in embodiment of the present invention.

Fig. 2 is the shaping perspective view of automatically inserting another angle of axle core mechanism of the flabellum in Fig. 1.

Fig. 3 is the shaping decomposition texture schematic diagram automatically inserting axle core mechanism of the flabellum in Fig. 1.

Fig. 4 is the shaping slotting axle core accepting box of axle core mechanism and the part assembling structure schematic diagram of flabellum mould automatically of the flabellum in Fig. 1.

Fig. 5 is the shaping slotting axle core accepting box of axle core mechanism and the decomposed structural representation of flabellum mould automatically of the flabellum in Fig. 4.

Fig. 6 is the shaping perspective view removed after one of them mould pin of automatically inserting axle core mechanism of the flabellum in Fig. 1.

Main element symbol description

Flabellum is shaping inserts axle core mechanism automatically	100
		Flabellum mould	10
Axle core accepting box	20
		Axle core extraction mechanism	30
Axle core heads into mechanism	40
		Slide post	50
Mould pin	60
		Limiting component	70
Male model	11
		Master mold	12
Flabellum ejecting mechanism	13
		Male module	111
Male die core	112
		Mould in male model	113
Male model sleeve	114
		Detection part	115
Accepting groove	116
		First opening	112a
Second opening	113a
		Through hole	113b
3rd opening	114a
		Body	1121、1221
Flabellum forming part	1122、1222
		Female module	121
Mother module core	122
		Backboard	131
Ejector beam	132
		Push back pin	133
Spring	134
		First through hole	135
Breach	136
		Axle core box	21
Axle core box seat	22
		Overhead gage	23
Lower baffle plate	24
		Lock flitch	25
Axle core rolled portion	211
		Inclined-plane	212
Passage	213
		Fixed block	221
Gap	222
		Cambered surface	223
Slit	224
		Cylinder	31
Forward block	32
		Flap	33
Rotating shaft	34
		Axle core guiding parts	35
Rotation section	331
		Drive division	332
Gathering sill	351
		Fixed head	41
Driver part	42
		Axle core top board	43
Axle core push rod	44
		Guide pillar	431
Second through hole	432
		Perforation	433
Third through-hole	411

Following detailed description of the invention will further illustrate the present invention in conjunction with above-mentioned accompanying drawing.

Detailed description of the invention

Below in conjunction with accompanying drawing, the present invention is described in further detail.

Refer to Fig. 1, Fig. 2 and Fig. 3, the shaping slotting axle core mechanism 100 automatically of a kind of flabellum that embodiment of the present invention provides comprises flabellum mould 10, axle core accepting box 20, axle core extraction mechanism 30 and axle core and heads into mechanism 40.

Described flabellum mould 10 comprises male model 11, master mold 12 and flabellum ejecting mechanism 13.Described male model 11 comprises mould 113, male model sleeve 114 and detection part 115 in male module 111, male die core 112, male model.Described male module 111 is in a rectangular block shape structure, and its surface relative with master mold 12 caves inward the rectangular-shaped accepting groove 116 of formation one, and described male die core 112 is placed in this accepting groove 116.In described male model, mould 113 is arranged on the center of male die core 112, and described male model sleeve 114 to be plugged in male model in mould 113.The body 1121 that male die core 112 comprises a rectangular block shape and the flabellum forming part 1122 be formed on body 1121.This body 1121 end face offers formation one first opening 112a, in described male model, mould 113 is offered and is formed with the second opening 113a, described male model sleeve 114 is offered and is formed with the 3rd opening 114a.When mould in male model 113 and male model sleeve 114 are assembled in male die core 112, the first opening 112a, the second opening 113a and the 3rd opening 114a are interconnected.In addition, in described male model, mould 113 is also formed with multiple through hole 113b(and refers to Fig. 4), the plurality of through hole 113b is around two of mould 113 in the through male model of central shaft of mould in male model 113 relative end faces.Described detection part 115 is arranged on two sides of male module 111, and whether it has axle core to be ejected for detecting in male model sleeve 114.

Described master mold 12 comprises female module 121 and mother module core 122.Described female module 121 surface relative with male model 11 caves inward the rectangular-shaped accepting groove (not shown) of formation one, and described mother module core 122 is placed in this accepting groove.Described mother module core 122 comprises the flabellum forming part 1222 on body 1221 and body 1221.When assembling, the male module 111 of described male model 11 is together with female module 121 relative combinations of described master mold 12, thus by male die core 112 and mother module core 122 relative combinations, now, can between the flabellum forming part 1122 of male die core 112 and the flabellum forming part 1222 of mother module core 122 injection-moulded plastic with shaping flabellum.

The spring 134 that described flabellum ejecting mechanism 13 comprises a backboard 131, multiple ejector beam 132, four push back pins 133 and is set on this push back pin 133.Described backboard 131 is a rectangular plate-like structure, and in the present embodiment, described backboard 131 is double panel structure.Multiple ejector beam 132 is vertically formed in backboard 131 center and extends towards male model 11 direction, multiple ejector beam 132 is corresponding with the through hole 113b on mould 113 in the male model of male model 11 respectively, for inserting in the through hole 113b of mould 113 in male model through male module 111.Described four push back pins 133 are vertically set on the corner place of backboard 131 respectively and extend towards male model 11 direction, and the activity of four push back pins 133 is inserted in male module 111.When described backboard 131 moves towards male model 11 direction, described multiple ejector beam 132 can be passed by the through hole 113b of mould in male model 113, in order to the flabellum after shaping is ejected, described spring 134 is compressed simultaneously, after flabellum after shaping is ejected, described backboard 131 can under the elastic force effect of spring 134 homing.Described backboard 131 also offers the first through hole 135 that four run through backboard 131.The two ends up and down of described backboard 131 also form breach 136 respectively.

Please then consult Fig. 4 and Fig. 5, described axle core accepting box 20 comprises axle core box 21, axle core box seat 22, overhead gage 23, lower baffle plate 24 and two lock flitch 25.Described axle core box seat 22 is fixed on the end face of male module 111, and it comprises the fixed block 221 that two relative spacings are arranged.The end face that these two fixed blocks 221 are relative has a gap 222.The end face of these two fixed blocks 221 is respectively a cambered surface 223, and these two cambered surfaces 223 are extended to gap 222 by the lateral wall of fixed block 221 respectively.Described axle core box 21 is the rectangular box-shaped structure of an inner hollow, and it is arranged on axle core box seat 22.This axle core box 21 is inner arranges an axle core rolled portion 211 near axle core box seat 22 position, and the cross section of this axle core rolled portion 211 is roughly in a triangle, and in the middle part of it, court gives prominence to away from axle core box seat 22 direction, the inclined-plane 212 under both sides are formed respectively and are tilted to.The both sides of this axle core rolled portion 211 respectively with the madial wall of axle core box 21 separately, form the passage 213 of two connection shaft core boxes 21 and axle core box seat 22.Described two lock flitch 25 are inserted in passage 213, for the openings of sizes of control channel 213 by the lateral wall activity of axle core box 21 respectively.Described overhead gage 23 and lower baffle plate 24 are covered in the side of axle core box 21 and axle core box seat 22 respectively, for closed axle core accepting box 20.In use, axle core is put behind axle core box 21 inside by specific direction, can be rolled downwards by the inclined-plane 212 of axle core rolled portion 211, and roll in axle core box seat 22 by passage 213, then roll in gap 222 by the cambered surface 223 of axle core box seat 22, finally dropped in flabellum mould 10 by gap 222.The openings of sizes of passage 213 can be realized by plug lock flitch 25.

Described axle core extraction mechanism 30 comprises cylinder 31, forward block 32, flap 33, rotating shaft 34 and axle core guiding parts 35.Described cylinder 31 is fixed on the end face of male module 111, and it is fixedly connected with forward block 32 by a driving shaft.Described flap 33 comprises mutual rotation section connected vertically 331 and drive division 332, this rotation section 331 and drive division 332 form one inverted " L " shape, the wherein end face of the parallel male module 111 in rotation section 331, the end face of the vertical male module 111 of drive division 332.The end of described drive division 332 is formed with a breach, and one section of described forward block 32 is plugged in this breach.One of them fixed block 221 of described axle core box seat 22 is also formed with a slit 224, and this slit 224 is near the gap 222 of axle core box seat 22 and the upper and lower surface of through fixed block 221 and end face.Described flap 33 is articulated in this slit 224 by rotating shaft 34, and wherein, the end of rotation section 331 is arranged in gap 222, and with closing gap 222, drive division 332 then extends shaft core box seat 22 and connects with a terminal block of forward block 32.On described axle core guiding parts 35, its upper and lower end face through is formed with a gathering sill 351.One end of this axle core guiding parts 35 extends in the accepting groove 116 of male module 111 and through the first opening 112a of male die core 112 and is connected with mould in male model 113, and the other end is exposed by the end face of male module 111 and contacts with axle core box seat 22.Gap 222 is communicated with the 3rd opening 114a of the second opening 113a of mould in male model 113 and male model sleeve 114 by the gathering sill 351 of axle core guiding parts 35.In use, cylinder 31 drives forward block 32 to move, forward block 32 drives flap 33 34 to be rotated counterclockwise around the shaft, the rotation section 331 of flap 33 is made to rotate to be contained in completely in slit 224 thus, thus gap 222 conducting made, the axle core be contained in axle core accepting box 20 can be dropped in male model sleeve 114 by axle core guiding parts 35 by this gap 222.Described flap 33 can under the driving of cylinder 31 34 reciprocating rotaries around the shaft, thus make the axle core in axle core accepting box 20 to be delivered in flabellum mould 10 successively incessantly downwards.

Refer to Fig. 3 and Fig. 6, described axle core heads into mechanism 40 and comprises fixed head 41, two driver part 42, axle core top board 43 and an axle core push rod 44.Described fixed head 41 is a rectangular panel body, and described two driver parts 42 are separately fixed at the middle part at fixed head about 41 two ends.Described axle core top board about 43 two ends are fixed with driver part 42 respectively, and axle core top board 43 is formed with two guide pillars 431, this two guide pillars 431 activity is inserted in male module 111.Described driver part 42 moves forward and backward for driving shaft core top board 43.Described axle core push rod 44 is vertically fixed on the center of axle core top board 43, and it is for being inserted in male model sleeve 114 through male module 111.The axle core dropped in male model sleeve 114 by axle core accepting box 20, along with the movement of axle core top board 43, can eject to assigned address by described axle core push rod 44 from male model sleeve 114.The backboard 131 of described flabellum ejecting mechanism 13 is arranged between axle core top board 43 and fixed head 41.The perforation 433 described axle core top board 43 also offering second through hole 432 corresponding with the first through hole 135 on the backboard 131 of flabellum ejecting mechanism 13 and pass for the ejector beam 132 of flabellum ejecting mechanism 13.

The shaping axle core mechanism 100 of automatically inserting of described flabellum also comprises four slide posts 50 and two mould pin 60.Described two mould pin 60 lay respectively at the both sides that axle core heads into mechanism 40 and flabellum ejecting mechanism 13, and the fixed head 41 that described axle core heads into mechanism 40 is fixed in male module 111 by these two mould pin 60.Described four slide post 50 one end are fixed on fixed head 41, and the other end is fixed in male module 111 through the first through hole 135 on the backboard 131 of flabellum ejecting mechanism 13 and the second through hole 432 on axle core top board 43 successively.Described flabellum ejecting mechanism 13 and axle core top board 43 can along slide post 50 slide anteroposterior.The fixed head 41 that described axle core heads into mechanism 40 also offers third through-hole 411, and ex-ternal transmission mechanism (not shown) is connected with the backboard 131 of flabellum ejecting mechanism 13 by this third through-hole 411, moves for driving this flabellum ejecting mechanism 13.

The shaping axle core mechanism 100 of automatically inserting of described flabellum also comprises two limiting components 70.These two limiting components 70 are oppositely arranged in the upper and lower surface of male module 111 respectively, and it heads into the axle core top board 43 of mechanism 40 for keeping off spindle core.By the distance between adjustment limiting component 70 and axle core top board 43, the position of axle core top board 43 movement can be limited, thus the position that control axle core is ejected.

Described flabellum is shaping inserts axle core mechanism 100 in use automatically, and be first pre-installed in axle core accepting box 20 by axle core batch, axle core is delivered to downwards in the male model sleeve 114 of flabellum mould 10 by described axle core extraction mechanism 30 successively; Then, the driver part 42 driving shaft core top board 43 that described axle core heads into mechanism 40 moves, and makes axle core push rod 44, under the accurate guiding of guide pillar 431, the axle core in male model sleeve 114 is pushed to assigned address; Then between the male die core 112 and mother module core 122 of flabellum mould 10 injection-moulded plastic with shaping flabellum, make shaping after flabellum and axle core one-body molded; After flabellum is shaping, master mold 12 is separated from male model 11, then drives flabellum ejecting mechanism 13, the ejector beam 132 of flabellum ejecting mechanism 13 mould 113 one end from male model is passed, thus the flabellum after shaping is ejected from male model 11, make shaping after flabellum be separated with male model 11.Described detection part 115 for detect whether have axle core to be pushed out from male model sleeve 114, when detect do not have axle core to be pushed out time, illustrate that the axle core in axle core accepting box 20 all uses, need again another batch of axle core to be loaded in axle core accepting box 20.

Relative to prior art, the shaping axle core mechanism 100 of automatically inserting of flabellum of the present invention is by axle core accepting box 20 batch prepackage axle core, and by axle core extraction mechanism 30, the axle core in axle core accepting box 20 is delivered to downwards in flabellum mould 10 successively, head into mechanism 40 finally by axle core and axle core is pushed to the shaping position of flabellum, thus the self-feeding achieving flabellum axle core is produced, solving must to insert a production difficult problem for axle core manually in the shaping production of electric fan.

Be understandable that, for the person of ordinary skill of the art, the change and distortion that other various picture answers can be made by technical conceive according to the present invention, and all these change the protection domain that all should belong to the claims in the present invention with distortion.

Claims (10)

1. the shaping slotting axle core mechanism automatically of flabellum, it comprises flabellum mould, axle core accepting box, axle core extraction mechanism and axle core and heads into mechanism, described axle core accepting box is used for batch prepackage axle core, this axle core extraction mechanism is used for the axle core in axle core accepting box to be delivered to successively in flabellum mould downwards, described axle core heads into mechanism for the axle core in flabellum mould is pushed to assigned address, and flabellum is taken shape in axle core by described flabellum mould after pushing at axle core.

2. flabellum as claimed in claim 1 is shaping inserts axle core mechanism automatically, it is characterized in that, described flabellum mould comprises male model, master mold and flabellum ejecting mechanism, described male model and master mold are combined mutually, for shaping flabellum, described flabellum ejecting mechanism is used for the flabellum after shaping to eject from flabellum mould.

3. flabellum as claimed in claim 2 is shaping inserts axle core mechanism automatically, it is characterized in that, described flabellum ejecting mechanism comprises a backboard, be arranged on multiple ejector beams at backboard center, the push back pin being arranged on backboard surrounding and the spring be set on push back pin, described ejector beam and the activity of described push back pin are inserted in the male model of flabellum mould, when described backboard moves towards male model direction, described multiple ejector beam can pass from male model, so that the flabellum after shaping is ejected, after flabellum after shaping is ejected, described backboard can homing under the elastic force effect of described spring.

4. flabellum as claimed in claim 1 is shaping inserts axle core mechanism automatically, it is characterized in that, described axle core accepting box is arranged on the top of flabellum mould, comprise an axle core box and an axle core box seat described axle core box is arranged on described axle core box seat, described axle core box seat comprises two spaced fixed blocks, these two fixed blocks have a gap, and the axle core be contained in axle core box is exported by this gap.

5. flabellum as claimed in claim 4 is shaping inserts axle core mechanism automatically, it is characterized in that, the end face of described two fixed blocks is respectively one is tilted to extend downward gap cambered surface by axle core box seat lateral wall, described axle core box interior is provided with axle core rolled portion near axle core box seat position, the middle part of this axle core rolled portion is given prominence to towards away from axle core box seat direction, both sides form the inclined-plane under being tilted to respectively, the both sides of this axle core rolled portion respectively with the madial wall of axle core box separately, form the passage of two connection shaft core boxes and axle core box seat, described axle core batch is pre-installed on after in axle core accepting box, rolled downwards by the inclined-plane of described axle core rolled portion, and roll in axle core box seat by described passage, then the cambered surface along described axle core box seat is rolled in gap.

6. flabellum as claimed in claim 5 is shaping inserts axle core mechanism automatically, it is characterized in that, described axle core accepting box also comprises two lock flitch, and described lock flitch is inserted in described passage by the lateral wall activity of described axle core box, for controlling the openings of sizes of described passage.

7. flabellum as claimed in claim 4 is shaping inserts axle core mechanism automatically, it is characterized in that, described axle core extraction mechanism comprises cylinder, forward block, flap and rotating shaft, described cylinder is fixed on the top of flabellum mould, move around for driving forward block, one of them fixed block of described axle core box seat is also formed with a slit, this slit is communicated with described gap, described flap is by slit described in described rotating shaft pivot joint, wherein one end of flap is arranged in described gap, the other end is connected with described forward block, described flap is by the driving reciprocating rotary around the shaft of cylinder, with constantly gap described in opening and closing of fault, axle core in axle core accepting box is delivered to downwards in described flabellum mould successively incessantly.

8. flabellum as claimed in claim 7 is shaping inserts axle core mechanism automatically, it is characterized in that, described axle core extraction mechanism also comprises an axle core guiding parts, this axle core guiding parts its upper and lower end face through is formed with a gathering sill, and the axle core exported from the gap of described axle core accepting box is inputed in flabellum mould by described gathering sill.

9. flabellum as claimed in claim 1 is shaping inserts axle core mechanism automatically, it is characterized in that, described axle core heads into that mechanism comprises fixed head, the driver part be fixed on this fixed head, the axle core top board fixed with this driver part and the axle core push rod be fixed on axle core top board, described driver part drives described axle core top board to move, and described axle core push rod to insert in flabellum mould and ejects the axle core in flabellum mould to assigned address along with the movement of described axle core top board.

10. flabellum as claimed in claim 9 is shaping inserts axle core mechanism automatically, it is characterized in that, the shaping axle core mechanism of automatically inserting of described flabellum also comprises limiting component, this limiting component is arranged on flabellum mould, the axle core top board of mechanism is headed into for keeping off spindle core, by the distance between adjustment limiting component and axle core top board, the position of axle core top board movement can be limited, thus the position that control axle core is ejected.