CN106144442A - A kind of aluminum hull part flow arrangement - Google Patents

Abstract

A kind of aluminum hull part flow arrangement, position installation feeding web tangent with rotating disk rotating disk after, the first discharging conveyor belts is installed in the position tangent with rotating disk, the left side of rotating disk；Flap and flap cylinder are installed between feeding web and the first discharging conveyor belts；The second discharging conveyor belts is installed in position tangent with rotating disk before rotating disk, and adjustable plate is installed in the left side of rotating disk.Normal transfer, the aluminum hull import transmitting arrival rotating disk by feeding web, along with rotating disk conveying arrives at the first discharging, road processing unit (plant) after entrance；During shunting, when after the processing speed of road processing unit (plant) fast not, produce when piling up, Photoelectric Detection I is signaled and is made flap eject, and aluminum hull below enters at the second discharging by the break-in of swing arm, road processing unit (plant) after entrance.When processing unit (plant) when below goes wrong, Photoelectric Detection II is signaled and is made swing arm cylinder drive swing arm to rotate, and makes unnecessary aluminum hull pile up at rotating disk.This device can play certain shunting and store the effect of aluminum hull.

Description

A kind of aluminum hull part flow arrangement

Technical field

The present invention relates to the auxiliary device of pressing equipment, particularly relate to a kind of aluminum hull part flow arrangement.

Background technology

At present, aluminum hull conveying between each processing stations (being such as stamped at coding) be required for by transfer reality Existing, owing to the speed of the processing aluminum hull of each processing unit (plant) is different, particularly；When process velocity below is less than processing speed above When spending, it is necessary to part flow arrangement is installed in transfer correspondence.Otherwise aluminum hull can produce accumulation, it is impossible to realizes automatic production line operation.At present The method of the employing of present stage is manually unnecessary aluminum hull shunting or direct device to be shunted, but all do not have automatic storage and Automatically detection aluminum hull quantity function, once operator's error can cause scrapping of aluminum hull.

A kind of aluminum hull part flow arrangement that the present invention mentions is by machinery and the coordinating of pneumatic element, it is achieved multichannel point Stream, the most also has automatic storage aluminum hull and automatically detects the function of aluminum hull quantity, makes aluminum hull produce and realizes full-automation.

Summary of the invention

For weak point present in the problems referred to above, the present invention provides a kind of aluminum hull part flow arrangement.

For achieving the above object, the present invention provides a kind of aluminum hull part flow arrangement, including:

Rotating disk, described rotating disk is connected with motor by flange, and along with motor rotates clockwise；

Coaming plate, the supporting plate installed below of described rotating disk are installed in the outside of described rotating disk；

Feeding web, described feeding web is arranged on after described rotating disk, tangent with described rotating disk；

First discharging conveyor belts, described first discharging conveyor belts is arranged on the right side of described rotating disk, tangent with described rotating disk, Photoelectric Detection I is installed in the side of described first discharging conveyor belts；

Second discharging conveyor belts, described second discharging conveyor belts is arranged on before described rotating disk, tangent with described rotating disk, Photoelectric Detection II is installed in the side of described second discharging conveyor belts；

Flap, described flap is arranged between described feeding web and the first discharging conveyor belts；

Adjustable plate, described adjustable plate is arranged on the left side of described rotating disk, and adjustable angle；

Cross bar, described cross bar is arranged on above described rotating disk, installs along the longitudinal direction, installs pendulum in the middle of described cross bar Swing arm cylinder, the cylinder rod of described swing arm cylinder connects swing arm；

Photoelectric Detection III, described Photoelectric Detection III is connected on described cross bar by Photoelectric Detection III support, and position Adjustable.

Improve further as the present invention, described feeding web, the first discharging conveyor belts and the second discharging conveyor belts and Described rotating disk contact position is respectively mounted rebound.

Improve further as the present invention, described feeding web, the first discharging conveyor belts and the second discharging conveyor belts It is respectively mounted outer side rail and interior side rail above.

Improving further as the present invention, the inner side guard rail position above described feeding web connects guide part, described in lead Interior side rail head processing point above the arc-shaped that is shaped as in portion, described first discharging conveyor belts and the second discharging conveyor belts Portion.

Improve further as the present invention, described flap connection rotating plate cylinder, after described flap cylinder, connect hinge.

Improving further as the present invention, described coaming plate processes coaming plate hole with described flap corresponding position.

Improve further as the present invention, described swing arm be shaped as involute shape.

Improve further as the present invention, described rotating disk close to center process feed opening.

Improve further as the present invention, below described rotating disk, with described feed opening correspondence position, container is installed.

The invention have the benefit that

1., by the conveying of rotating disk, utilization machinery coordinates with pneumatic element, makes aluminum hull be divided into the discharging of several roads, reaches shunting Purpose.

2. utilize Photoelectric Detection II to judge the quantity of aluminum hull of the second discharging conveyor belts, control turning of swing arm cylinder Dynamic, when the quantity of aluminum hull is too much, make aluminum hull forward on rotating disk, at rotating disk, have the function temporarily storing aluminum hull.

3. special circumstances, when the quantity that operator find aluminum hull the most in time is too much, unnecessary aluminum hull passes through blanking Mouth drops in container below, and it is too much that Photoelectric Detection III checks aluminum hull quantity, alarm operator.

4. this device is reasonable in design, cheap, multiple functional, and automaticity is high, is suitable between aluminum shell machining device Transition.

Accompanying drawing explanation

Fig. 1 is the top view (the first discharge state) of the present invention a kind of aluminum hull part flow arrangement；

Fig. 2 is the top view (the second discharge state) of the present invention a kind of aluminum hull part flow arrangement；

Fig. 3 is the top view (storing state) of a kind of aluminum hull part flow arrangement；

Fig. 4 is the front view of a kind of aluminum hull part flow arrangement；

Fig. 5 is the part drawing of aluminum hull.

In figure: 1, rotating disk；2, coaming plate；3, coaming plate hole；4, flap；5, hinge；6, flap cylinder；7, Photoelectric Detection I；8, mistake Cab apron；9, the first discharging conveyor belts；10, swing arm；11, feed opening；12, cross bar；13, Photoelectric Detection II；14, the second discharging is defeated Send band；15, swing arm cylinder；16, flange；17, adjustable plate；18, Photoelectric Detection III；19, Photoelectric Detection III support；20, enter Material conveyer belt；21, guide part；22, container；23, motor；24, aluminum hull；25, supporting plate.

Detailed description of the invention

As Figure 1-4, a kind of aluminum hull part flow arrangement described in the embodiment of the present invention, including: rotating disk 1 by flange 16 with Motor 23 connects, and along with motor rotates clockwise；Coaming plate 2 is installed in the outside of rotating disk 1, and coaming plate 2 is processed with flap 4 corresponding position Coaming plate hole 3, makes swing arm rotate in coaming plate hole.The supporting plate installed below 25 of rotating disk 1, is used for installing coaming plate 2 and cross bar 12；Enter Material conveyer belt 20 is arranged on after rotating disk 1, tangent with rotating disk 1；First discharging conveyor belts 9 is arranged on the right side of rotating disk 1, with turn Dish 1 is tangent, and Photoelectric Detection I is installed in the side of the first discharging conveyor belts 9；Second discharging conveyor belts 14 is arranged on before rotating disk 1, Tangent with rotating disk 1, Photoelectric Detection II 13 is installed in the side of the second discharging conveyor belts 14；Feeding web the 20, first discharging carries Band 9 and the second discharging conveyor belts 14 are respectively mounted rebound 8 with rotating disk contact position.Feeding web the 20, first discharging conveyor belts 9 and The above of second discharging conveyor belts 14 is respectively mounted outer side rail and interior side rail.Feeding web 20 inner side guard rail position above is even Connect guide part 21, guide part 21 be shaped as arc-shaped, make aluminum hull enter rotating disk time smooth transition.First discharging conveyor belts 9 and Second discharging conveyor belts 14 interior side rail head processing tip above, play the guiding role.Flap 4 is arranged on feeding web 20 And between the first discharging conveyor belts 9, flap 4 connection rotating plate cylinder 6, connect hinge 5 after flap cylinder 6.Adjustable plate 17 is pacified It is contained in the left side of rotating disk 1, and adjustable angle, utilizes adjustable plate to be deposited on rotating disk by unnecessary aluminum hull；Cross bar 12 is arranged on and turns Above dish 1, installing along the longitudinal direction, install swing arm cylinder 15 in the middle of cross bar 12, the cylinder rod of swing arm cylinder 15 connects Swing arm 10, swing arm 10 be shaped as involute shape, flexible contact when making swing arm contact with aluminum hull, prevent inclining of aluminum hull Fall.Photoelectric Detection III18 is connected on cross bar 12 by Photoelectric Detection III support 19, and position is adjustable, passes through Photoelectric Detection III detects that aluminum hull quantity is too much, alarm operator.Rotating disk 1 close to center process feed opening 11.Rotating disk 1 With feed opening 11 correspondence position, container 22 is installed below, unnecessary aluminum hull is collected.

By the conveying of rotating disk, utilization machinery coordinates with pneumatic element, makes aluminum hull be divided into the discharging of several roads, reach shunting Purpose.Utilize Photoelectric Detection II to judge the quantity of aluminum hull of the second discharging conveyor belts, control the rotation of swing arm cylinder, work as aluminum When the quantity of shell is too much, make aluminum hull forward on rotating disk, at rotating disk, have the function temporarily storing aluminum hull.Special circumstances, work as operator Member finds that when the quantity of aluminum hull is too much, unnecessary aluminum hull drops in container below by feed opening, Photoelectric Detection the most in time It is too much that III checks aluminum hull quantity, alarm operator.This device is reasonable in design, cheap, multiple functional, automatically Change degree is high, is suitable for the transition between aluminum shell machining device.

Time specifically used, understand the present invention for convenience, be described in conjunction with accompanying drawing；

Aluminum hull after preceding processes (such as punching press) processing arrives the import department of rotating disk by the conveying of feeding web, passes through Leading back into rotating disk of guide part, the upper surface of rotating disk drives aluminum hull along the edge of rotating disk with the frictional force of aluminum casing bottom Motion, arrives at the first discharging conveyor belts, discharging, and aluminum hull enters next processor.

Process velocity after the first discharging conveyor belts slower or problematic need process time (as spray code spraying apparatus does not has oil Ink, or during without problems such as colour bands), aluminum hull is piled up at the first discharging conveyor belts, and when reaching some, Photoelectric Detection I detects Arrive, and instruct flap cylinder action, flap is pushed away (seeing Fig. 2) toward the center of rotating disk, now from the aluminum of feeding web discharging Shell encounters flap rear to changing, and aluminum hull can occur some to offset toward the center of rotating disk, i.e. will not enter into first and go out At material conveyer belt.Until Photoelectric Detection I can't detect aluminum hull, flap cylinder resets, and aluminum hull re-enters into the first discharging conveying At band.Change nyctitropic aluminum hull and move at swing arm, along with the evolvent profile track of swing arm, be directed to the second discharging defeated Sending at band, discharging, aluminum hull enters next processor.

Process velocity after the second discharging conveyor belts slower or problematic need process time (this situation is not frequent Occur, because process velocity is through design, only when processing unit (plant) below breaks down, just have), aluminum hull goes out second Piling up at material conveyer belt, when reaching some, Photoelectric Detection II detects, and instructs one angle of swing arm rotational cylinder (see Fig. 3), the unnecessary aluminum hull central motion guiding past rotating disk by swing arm, utilize adjustable plate to be piled up by unnecessary aluminum hull On rotating disk, and along with rotating disk rotates together, play the effect of a temporary transient accumulation.Until Photoelectric Detection II can't detect aluminum Shell, swing arm cylinder resets, and aluminum hull re-enters into the second discharging conveyor belts.When the quantity piled up reaches a timing, part aluminum Shell drops in container by blanking hole, and Photoelectric Detection III detects that aluminum hull quantity is too much simultaneously, alarm operator.

The foregoing is only the preferred embodiments of the present invention, be not limited to the present invention, for the skill of this area For art personnel, the present invention can have various modifications and variations.All within the spirit and principles in the present invention, that is made any repaiies Change, equivalent, improvement etc., should be included within the scope of the present invention.

Claims (9)

1. an aluminum hull part flow arrangement, it is characterised in that including:

Rotating disk (1), described rotating disk (1) is connected with motor (23) by flange (16), and along with motor rotates clockwise；

Coaming plate (2), the supporting plate installed below (25) of described rotating disk (1) are installed in the outside of described rotating disk (1)；

Feeding web (20), described feeding web (20) is arranged on after described rotating disk (1), with described rotating disk (1) phase Cut；

First discharging conveyor belts (9), described first discharging conveyor belts (9) is arranged on the right side of described rotating disk (1), with described rotating disk (1) tangent, Photoelectric Detection I (7) is installed in the side of described first discharging conveyor belts (9)；

Second discharging conveyor belts (14), described second discharging conveyor belts (14) is arranged on before described rotating disk (1), with described turn Dish (1) is tangent, and Photoelectric Detection II (13) is installed in the side of described second discharging conveyor belts (14)；

Flap (4), described flap (4) is arranged between described feeding web (20) and the first discharging conveyor belts (9)；

Adjustable plate (17), described adjustable plate (17) is arranged on the left side of described rotating disk (1), and adjustable angle；

Cross bar (12), described cross bar (12) is arranged on above described rotating disk (1), installs along the longitudinal direction, described cross bar (12) Installing swing arm cylinder (15) in the middle of, the cylinder rod of described swing arm cylinder (15) connects swing arm (10)；

Photoelectric Detection III (18), described Photoelectric Detection III (18) is connected to described cross bar (12) by Photoelectric Detection III support (19) On, and position is adjustable.

A kind of aluminum hull part flow arrangement the most according to claim 1, it is characterised in that: described feeding web (20), first Discharging conveyor belts (9) and the second discharging conveyor belts (14) are respectively mounted rebound (8) with described rotating disk contact position.

A kind of aluminum hull part flow arrangement the most according to claim 2, it is characterised in that: described feeding web (20), first Discharging conveyor belts (9) and the above of the second discharging conveyor belts (14) are respectively mounted outer side rail and interior side rail.

A kind of aluminum hull part flow arrangement the most according to claim 3, it is characterised in that: described feeding web (20) is above Inner side guard rail position connects guide part (21), described guide part (21) be shaped as arc-shaped, described first discharging conveyor belts (9) and Second discharging conveyor belts (14) interior side rail head processing tip above.

A kind of aluminum hull part flow arrangement the most according to claim 1, it is characterised in that: described flap (4) connection rotating plate cylinder (6), hinge (5) is connected after described flap cylinder (6).

A kind of aluminum hull part flow arrangement the most according to claim 5, it is characterised in that: described coaming plate (2) and described flap (4) Corresponding position processing coaming plate hole (3).

A kind of aluminum hull part flow arrangement the most according to claim 1, it is characterised in that: being shaped as gradually of described swing arm (10) Burst at the seams shape.

A kind of aluminum hull part flow arrangement the most according to claim 1, it is characterised in that: described rotating disk (1) close to center Processing feed opening (11).

A kind of aluminum hull part flow arrangement the most according to claim 8, it is characterised in that: with described below described rotating disk (1) Feed opening (11) correspondence position installs container (22).