CN106304828A - Collecting machine - Google Patents

Abstract

A kind of collecting machine includes frame, load carrier, material strip mechanism and cutting mechanism.Material strip mechanism, cutting mechanism are stacked in frame successively.Cutting mechanism includes the first drive division and cutting die assembly.First drive division is used for driving cutting die assembly to move near material strip mechanism direction.Cutting die assembly is used for cutting material strip mechanism and forms some target objects.Load carrier is located between material strip mechanism and loading plate, for housing the target object of excision forming.Collecting machine also includes receiving mechanism.Receiving mechanism is positioned at below load carrier, and partially passes through load carrier.Receiving mechanism utilizes cutting die assembly cut the target object of material strip mechanism formation and drive target object to move to load carrier for supporting.

Description

Collecting machine

Technical field

The present invention relates to a kind of collecting machine for adhesive substrates.

Background technology

In prior art, the part in electronic equipment, such as frame structure, the most usually automated production.First, utilize cutting mould to coordinate cutting to form required part with cutting die, in the part after molding falls under gravity into bearing fixture and be transferred to next station and assemble.When part shape is irregular, can overturn during falling, and then cause the part falling in tool to present inversion or biasing phenomenon.When moving to next station, just can assemble after needing the part in tool is adjusted, and then packaging efficiency reduces.

Summary of the invention

In view of this, it is necessary to a kind of collecting machine avoiding shaped article that upset occurs is provided.

A kind of collecting machine includes frame, load carrier, material strip mechanism and cutting mechanism.Material strip mechanism, cutting mechanism are stacked in frame successively.Cutting mechanism includes the first drive division and cutting die assembly.First drive division is used for driving cutting die assembly to move near material strip mechanism direction.Cutting die assembly is used for cutting material strip mechanism and forms some target objects.Load carrier is located between material strip mechanism and loading plate, for housing the target object of excision forming.Collecting machine also includes receiving mechanism.Receiving mechanism is positioned at below load carrier, and partially passes through load carrier.Receiving mechanism utilizes cutting die assembly cut the target object of material strip mechanism formation and drive target object to move to load carrier for supporting.

Use above-mentioned collecting machine, material carrying mechanism is utilized to support the target object of cutting forming in an assembling process, and move under the drive of material carrying mechanism to after in load carrier and material carrying mechanism is separated to be contained in load carrier, prevent the target object of excision forming from inverting when being contained in load carrier.

Accompanying drawing explanation

Fig. 1 is the generalized section of the collecting machine of the first embodiment.

Fig. 2 is the decomposed figure of collecting machine in Fig. 1.

Fig. 3 is the exploded view of material carrying mechanism in Fig. 1.

Fig. 4 be in Fig. 1 collecting machine when cutting material strip mechanism along the sectional view in III-III direction.

Along the sectional view in III-III direction when Fig. 5 is that in Fig. 1, target object moves to load carrier.

Main element symbol description

Collecting machine	100
		Target object	500
Frame	10
		Loading plate	12
Load carrier	20
		Accepting groove	23
Material strip mechanism	30
		Plate body	31
Fluting	32
		Material strip	34
Cutting mechanism	40
		Locating rack	41
First drive division	42
		Cutting die assembly	43
Material carrying mechanism	50
		Location-plate	51
First perforation	512
		Prop up support component	52
Substrate	521
		Cavity	522
First through hole	523
		Limiting plate	524
Spacing hole	525
		Supporting part	526
Second through hole	527
		Fixture	528
Second drive division	53
		Body	531
Fixing hole	532
		Guide rail	534
Catch bar	535
		Abutting part	536
Fixed part	54
		Second perforation	541
Pushing mechanism	60

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

Detailed description of the invention

Referring to Fig. 1 and Fig. 2, it is the axonometric chart of collecting machine 100 of a kind of better embodiment, and the decomposed figure of collecting machine 100.Collecting machine 100 forms some target objects 500 for a surface trimming and is positioned over by the target object 500 after molding to specifying position.In the present embodiment, target object 500 is irregularly shaped framework.

Collecting machine 100 includes frame 10, load carrier 20, material strip mechanism 30, cutting mechanism 40, material carrying mechanism 50 and pushing mechanism 60.Load carrier 20, material strip mechanism 30, cutting mechanism 40 are stacked in the upper surface of frame 10 successively, and load carrier 20 abuts against with frame 10.Material carrying mechanism 50 is perpendicularly fixed at the lower surface of frame 10, and is correspondingly arranged with load carrier 20, material strip mechanism 30 and cutting mechanism 40.

Frame 10 is substantially in rectangular-shaped.Frame 10 includes the support column 14 of loading plate 12 and support bearing plate 12.Support column 14 is vertically installed in the lower surface of loading plate 12.

Load carrier 20 is positioned on loading plate 12.Load carrier 20 is used for supporting material strip mechanism 30, and houses cutting mechanism 40 and cut the target object 500 of material strip mechanism 30 molding.Several accepting grooves 23 are offered on load carrier 20.Some accepting grooves 23 are mutually parallel along the first direction, and keep at a certain distance away.

Material strip mechanism 30 setting orthogonal with load carrier 20, and be positioned on the surface that load carrier 20 is opposing with loading plate 12.Material strip mechanism 30 forms the raw material of target object 500 for providing.Material strip mechanism 30 includes plate body 31 and the raw material 34 being contained in plate body 31.Some flutings 32 being parallel to each other are offered on plate body 31.Fluting 32 is used for housing raw material 34.Raw material 34 can move along fluting 32 under the promotion of pushing mechanism 60.

Cutting mechanism 40 is set up on load carrier 20, and material strip mechanism 30 is placed in interior.Cutting mechanism 40 includes locating rack the 41, first drive division 42 and cutting die assembly 43.Locating rack 41 is fixed on load carrier 20, and it is hollow support body.Locating rack 41 is for supporting the first drive division 42.First drive division 42 is vertically installed on the surface that locating rack 41 is opposing with load carrier 20.First drive division 42 moves to the direction near raw material 34 for driving cutting die assembly 43.Cutting die assembly 43 is Multilayer Structure, and it is internally provided with multiple cutting die with reservation shape.Cutting die assembly 43 is used for cutting raw material 34 and once forms some target objects 500.

Referring to Fig. 3, material carrying mechanism 50 can move up and down along the direction vertical with loading plate 12.Material carrying mechanism 50 is for cutting when raw material 34 forms some target objects 500 support target object at cutting die assembly 43 and driving target object 500 to move to the accepting groove 23 of load carrier 20.Material carrying mechanism 50 includes location-plate 51, support component the 52, second drive division 53 and fixed part 54.Wherein, a support component 52 and the second drive division 53 are set in turn in the side of location-plate 51, and fixed part 54 is between location-plate 51 and the second drive division 53.Prop up support component 52 one end to be partially housed in cutting die assembly 43 through loading plate 12 and load carrier 20.

Location-plate 51 is general " t " shape.Location-plate 51 is fixed on the sidewall surrounding the first opening 124, and vertical with loading plate 12.Location-plate 51 is for positioning the relative position between material carrying mechanism 50 with frame 10, to prevent material carrying mechanism 50 from moving along with loading plate 12 parallel direction.Four first perforation 512 are offered on location-plate 51.Line between four first perforation 512 forms rectangle.

Prop up support component 52 and include substrate 521, limiting plate 524, some supporting parts 526 and two fixtures 528.Substrate 521 is substantially in cuboid, and it is used for positioning limit plate 524 and supporting part 526.Cavity 522 and some first through holes 523 is offered on substrate 521.Cavity 522 is positioned at the middle part of substrate 521, and along running through whole substrate 521 with loading plate 12 parallel direction.First through hole 523 along with loading plate 12 parallel direction be one row arrange.First through hole 523 is formed by the surface concave downward that substrate 521 is relative with limiting plate 524.First through hole 523 is connected with cavity 522.

Limiting plate 524 is stacked on substrate 521.Limiting plate 524, substantially in cuboid tabular, it offers some spacing holes 525 being arranged side by side.Spacing hole 525 is generally rectangular, and suitable with supporting part 526.Spacing hole 525 is used for preventing supporting part 526 from moving along with loading plate 12 parallel direction.

Supporting part 526 is perpendicularly fixed on substrate 521 through corresponding spacing hole 525 near one end of substrate 521, and along being that a row is arranged with loading plate 12 parallel direction, supporting part 526 passes accepting groove 23 away from one end of substrate 521.Supporting part 526 is substantially in rectangular-shaped.Supporting part 526 offers the second through hole 527.Second through hole 527 runs through supporting part 526 along with loading plate 12 vertical direction, and is oppositely arranged with the first through hole 523.Second through hole 527 is stepped.In the present embodiment, supporting part 526 is suction nozzle.

Fixture 528 is arranged at intervals at the surface that substrate 521 is opposing with loading plate 12.Fixture 528 is substantially stepped in two grades.The cascaded surface of two fixtures 528 is oppositely arranged.

Second drive division 53 moves up and down along with loading plate 12 vertical direction for driving a support component 52.Second drive division 53 includes body 531, some catch bars 535 and abutting part 536.Body 531 is substantially in rectangular-shaped.Body 531 offers some fixing holes 532 and some guide rails 534 arranged in parallel.Fixing hole 532 is oppositely arranged with fixed part 54, and corresponding with the first perforation 512.Guide rail 534 runs through body 531 along with loading plate 12 vertical direction, and it is for providing moving track to catch bar 535.Guide rail 534 is along substantially in cylindrical shape.Catch bar 535 is contained in guide rail 534.Catch bar 535 is used for driving abutting part 536 to move up and down along with loading plate 12 vertical direction.Abutting part 536 is fixedly installed on catch bar 535 one end away from body 531.Abutting part 536 is arranged between two fixtures 528, and abuts against with substrate 521.In present embodiment, the second drive division 53 is cylinder.

Fixed part 54 is fixed on location-plate 51 one end away from loading plate 12.Fixed part 54 is substantially in rectangular-shaped.Four second perforation 541 are offered on fixed part 54.Four second perforation 541 are respectively arranged at four drift angles of fixed part 54.Second perforation 541 is corresponding with the first perforation 512.

Pushing mechanism 60 is positioned on load carrier 20, and setting orthogonal with load carrier 20.Pushing mechanism 60 abuts against with raw material 34, is used for promoting raw material 34 to move, so that not cut raw material 34 is relative with cutting die assembly 43.

Seeing also Fig. 4 to Fig. 5, supporting part 526 first opening 124 and accepting groove 23 are partially housed in cutting mechanism 40.First drive division 42 drives cutting die assembly 43 to move to the direction near material strip mechanism 30, so that the raw material 34 located relative with cutting die assembly 43 to cut the target object 500 forming several reservation shapes.Supporting part 526 supports the target object 500 after molding.Bled by cavity 522, so that target object 500 is adsorbed on the supporting part 526 end away from substrate 521.Second drive division 53 drives supporting part 526 to move to away from loading plate 12 direction.When target object 500 moves to accepting groove 23, stopping bleeding cavity 522, the second drive division 53 drives supporting part 526 to move to away from loading plate 12 direction, so that target object 500 is separated with supporting part 526, and is contained in accepting groove 23.Pushing mechanism 60 promotes raw material 34 to move so that the not cut place of raw material 34 is relative with cutting mechanism 40.

In other alternative embodiments, raw material 34 can be held up so that material strip mechanism 30 is positioned at cutting die assembly 43 by supporting part 526 so that target object 500 completes cutting action in cutting die assembly 43.

Above-mentioned collecting machine, material carrying mechanism 50 is utilized to support the target object 500 of cutting forming in process of production, and under the drive of material carrying mechanism 50, movement is separated to be contained in load carrier 20 to rear in load carrier 20 and material carrying mechanism 50, prevents the target object 500 of excision forming from inverting when moving to load carrier 20.

Those skilled in the art will be appreciated that; above embodiment is intended merely to the present invention is described; and it is not used as limitation of the invention; as long as within the spirit of the present invention, that is made above example suitably changes and changes all to fall within the scope of protection of present invention.

Claims (10)

1. a collecting machine, including frame, load carrier, material strip mechanism and cutting mechanism；This material strip mechanism, cutting mechanism are stacked in frame successively；This cutting mechanism includes the first drive division and cutting die assembly；This first drive division is used for driving cutting die assembly to move near material strip mechanism direction；This cutting die assembly is used for cutting material strip mechanism and forms some target objects；This load carrier is located between material strip mechanism and loading plate, for housing the target object of excision forming；It is characterized in that: this collecting machine also includes receiving mechanism；This receiving mechanism is positioned at below load carrier, and partially passes through load carrier；This receiving mechanism utilizes cutting die assembly cut the target object of material strip mechanism formation and drive target object to move to load carrier for supporting.

2. collecting machine as claimed in claim 1, it is characterised in that: this receiving mechanism includes support component and second drive division；This support component one end passes frame and load carrier；This support component target object after supporting molding；This second drive division moves to the direction away from loading plate for driving a support component, to be positioned in load carrier by target object.

3. collecting machine as claimed in claim 2, it is characterised in that: this support component includes substrate and some supporting parts；These some supporting parts are perpendicularly fixed on substrate；Cavity and the first some through holes is offered on this substrate；This first through hole is parallel to each other, and is vertically arranged with cavity；This supporting part offers the second through hole；This second through hole runs through supporting part, and is oppositely arranged with the first through hole；This cavity, the first through hole and the second through hole three connection；The process that carries out bleeding of this cavity is utilized to make target object be adsorbed in the supporting part end away from substrate.

4. collecting machine as claimed in claim 3, it is characterized in that: deserve target object and move to load carrier and when this cavity is bled in stopping under the drive of supporting part and the second drive division, this second drive division continues to drive supporting part to move to away from load carrier direction so that target object departs from supporting part and is placed in the interior end away from substrate of load carrier.

5. collecting machine as claimed in claim 3, it is characterised in that: a support component also includes the limiting plate being stacked on substrate；Some spacing holes being arranged side by side are offered on this limiting plate；This spacing hole is suitable with supporting part；This supporting part is fixed on substrate through spacing hole near one end of substrate；This spacing hole is used for preventing supporting part along moving with substrate-parallel direction.

6. collecting machine as claimed in claim 3, it is characterised in that: this support component also includes two fixtures；This fixture is arranged at intervals at the surface that substrate is opposing with frame；This fixture be two grades stepped；The cascaded surface of these two fixtures is oppositely arranged；One end of this second drive division is arranged between two fixtures, and abuts against with substrate.

7. collecting machine as claimed in claim 6, it is characterised in that: this second drive division includes body, some catch bars and abutting part；This body offers some guide rails arranged in parallel；This guide rail is arranged along with substrate vertical direction；This guide rail is for providing moving track to catch bar；This abutting part is fixedly installed on catch bar one end away from body；This catch bar can slide to drive a support component to move in guide rail；This abutting part is arranged between two fixtures, and abuts against with substrate.

8. collecting machine as claimed in claim 3, it is characterised in that: this material carrying mechanism also includes location-plate and fixed part；This location-plate is inserted in frame, and arranges with supporting member parallel；This location-plate and fixed part coordinate to position the second drive division, to prevent the second drive division along moving with substrate-parallel direction.

9. collecting machine as claimed in claim 1, it is characterised in that: this material strip mechanism includes plate body and raw material；Some flutings being parallel to each other are offered on this plate body；This fluting is used for housing raw material.

10. collecting machine as claimed in claim 9, it is characterised in that: this receiving mechanism also includes pushing mechanism；This pushing mechanism is positioned on load carrier, and setting orthogonal with load carrier；This pushing mechanism is used for promoting raw material mobile along fluting, so that not cut raw material is relative with cutting mechanism.