CN110252692A - A kind of part part flow arrangement - Google Patents

Abstract

The present invention relates to current divider technical fields, and in particular to a kind of part part flow arrangement, including isocon, diffluence pass and flow distribution plate, the isocon are rectangle straight pipe and are obliquely installed that the isocon upper end is feed inlet, and lower end is discharge port；The feed inlet of the isocon upper end is connected to the outlet of forming parts equipment, the diffluence pass is set to the position on isocon close to discharge port, and diffluence pass is located on the tube wall on the downside of isocon, the flow distribution plate is rotatably connected at diffluence pass, flow distribution plate forms the split channel towards feed inlet when diffluence pass opens wide for making diffluence pass block or open wide；Its object is to solve in existing part flow arrangement, rejected product is shunted in such a way that left and right shunts in shape tube, is easy the problem of occurring situations such as causing product rebound, card product and product to leave during shunting.

Description

A kind of part part flow arrangement

Technical field

The present invention relates to current divider technical fields, in particular to a kind of part part flow arrangement.

Background technique

Punching parts after processing is completed, need to carry out defect inspection to part in forming parts equipment, mainly pair The defect of " the empty riveting ", " weighing wounded " and " foreign matter entrance " that is formed in production process etc. is checked that detection device is detecting zero When part existing defects, part flow distribution plate when shunting way train automatically switches and exports part from diffluence pass, and then makes not Qualified products are separated；Simultaneously during punching machine tune machine, shunting also can be carried out.Current divider used at present is using left The mode of right shunting, shunt conduit are shape tube, and the distance between flow distribution plate and part discharge port of device are relatively close, and shunt There are angles between plate and mould discharging mouth, are easy to impinge upon when part being made to fly out and cause part to rebound on flow distribution plate and hang over point On head piece, simultaneously as shunt conduit is polymorphic structure, wherein can have dead angle, be all easy to cause card product, leave product etc. The generation of problem, also, there is also overall processings to require high, the high problem of cost of manufacture, so needing to propose for such current divider Above-mentioned technical problem is solved for a kind of part part flow arrangement.

Summary of the invention

The purpose of the present invention is to provide a kind of part part flow arrangements, its object is to solve in existing part flow arrangement, Rejected product is shunted by the way of being shunted using left and right in shape tube, be easy product is caused to rebound during shunting, The problem of situations such as card product and product are left occurs.

The embodiment of the present invention is achieved in that

A kind of part part flow arrangement, including isocon, diffluence pass and flow distribution plate, the isocon are rectangle straight pipe and incline Tiltedly setting, the isocon upper end are feed inlet, and lower end is discharge port；The feed inlet of the isocon upper end be connected to part at The outlet of type equipment, the diffluence pass is set to the position on isocon close to discharge port, and diffluence pass is located on the downside of isocon Tube wall on, the flow distribution plate is rotatably connected at diffluence pass, and flow distribution plate is for making diffluence pass block or open wide, and in diffluence pass The split channel towards feed inlet is formed when opening wide.

Further technical solution is that the outside for shunting tube wall is equipped with rot, and the shaft of the rot is worn It is connected in into isocon and with the flow distribution plate, the rot is connect with the detection device signal in forming parts equipment.

Further concrete scheme is that flexible mouth is telescopically communicated in the feed inlet of the isocon, described point Baffle is rotatably connected at the feed inlet of flow tube, the baffle is used to block the feed end of flexible mouth.

Further concrete scheme is that telescopic rod is connected on the tube wall on the downside of the isocon, the telescopic rod Telescopic segment is connected with the downside of the feed end of the flexible mouth.

Further concrete scheme is that the baffle is equipped with connector and dust board；

The dust board is set as two pieces and is separately positioned on the two sides of baffle, for blocking between baffle and flexible mouth Joint gap；

The connector is rotatably connected on the outer wall of isocon, for connecting baffle and isocon.

Further concrete scheme is gas blow pipe to be equipped in the flexible mouth, the gas blow pipe is horizontally set at flexible The downside of the feed end of mouth, the gas blow pipe are axially arranged with gas hole, and the blowing direction of the gas hole diagonally downward and refers to To the direction of parts transport, the gas blow pipe is cylindrical, described along projecting axially outward equipped with convergence part for the gas blow pipe The section of convergence part is triangular in shape；One end of the gas blow pipe is pierced by flexible mouth, and is connected with air inlet pipe.

Further concrete scheme is that the upside of the isocon is equipped with open cleaning mouth, is turned at the cleaning mouth Dynamic to be connected with cover board, one end of the cover board and the side of isocon are rotatedly connected, and the upside of the other end is equipped with connection hook, institute The outer wall for stating isocon is equipped with connecting ring, and when the cover board will clean mouth and block, the connecting ring is articulated in connection In hook.

Further concrete scheme is that several discharge pipes are equipped in the isocon, and the discharge pipe described in several exists It is uniformly arranged in isocon along the direction of parts transport, and is equipped with air outlet in the axial direction of the discharge pipe described in several, The air-out direction of the air outlet diagonally downward and be directed toward parts transport direction.

Further concrete scheme is that the downside of the isocon is equipped with hopper, the hopper and the shunting Mouth connection.

The beneficial effect of the embodiment of the present invention is: setting rectangle straight pipe for isocon, and diffluence pass setting is being divided The downside of flow tube forms and shunts up and down, and can also avoid the occurrence of and shunt dead angle, and part is avoided to return in branching process Phenomena such as bullet, occurs, and then avoids the appearance for the problems such as part card product occurs when shunting at diffluence pass, product is left, and is promoted The reliability and efficiency that product shunts, and the present apparatus also has the characteristics that structure is simple, compared to existing part flow arrangement, also Have the advantages that cost of manufacture is lower.

Detailed description of the invention

In order to illustrate the technical solution of the embodiments of the present invention more clearly, below will be to needed in the embodiment attached Figure is briefly described, it should be understood that the following drawings illustrates only certain embodiments of the present invention, therefore is not construed as pair The restriction of range for those of ordinary skill in the art without creative efforts, can also be according to this A little attached drawings obtain other relevant attached drawings.

Fig. 1 is the structural schematic diagram at the first visual angle of part part flow arrangement of the present invention；

Fig. 2 is the structural schematic diagram at the second visual angle of part part flow arrangement of the present invention；

Fig. 3 is the structural schematic diagram at part part flow arrangement third visual angle of the present invention；

Fig. 4 is the structural schematic diagram at the 4th visual angle of part part flow arrangement of the present invention；

Fig. 5 is the structural schematic diagram that diffluence pass and flow distribution plate are distributed in isocon in the present invention；

Fig. 6 is the structural schematic diagram of flexible mouth in the present invention；

Fig. 7 is the structural schematic diagram of discharge pipe in the present invention；

Fig. 8 is the structural schematic diagram of baffle in the present invention；

Fig. 9 is the structural schematic diagram at the first visual angle of gas blow pipe in the present invention；

Figure 10 is the structural schematic diagram at the second visual angle of gas blow pipe in the present invention；

Figure 11 is the structural schematic diagram of flow distribution plate in the present invention.

Icon: 1- isocon, 2- diffluence pass, 3- flow distribution plate, 4- feed inlet, 5- discharge port, 6- rot, 7- stretch mouth, 8- baffle, 9- telescopic rod, 10- connector, 11- dust board, 12- gas blow pipe, the convergence part 13-, 14- air inlet pipe, 15- clean mouth, 16- cover board, 17- connection hook, 18- connecting ring, 19- discharge pipe, 20- air outlet, 21- hopper, 22- split channel, 23- Gas hole.

Specific embodiment

In order to make the object, technical scheme and advantages of the embodiment of the invention clearer, below in conjunction with the embodiment of the present invention In attached drawing, technical scheme in the embodiment of the invention is clearly and completely described, it is clear that described embodiment is A part of the embodiment of the present invention, instead of all the embodiments.The present invention being usually described and illustrated herein in the accompanying drawings is implemented The component of example can be arranged and be designed with a variety of different configurations.

In the description of the present invention, it is also necessary to which explanation is unless specifically defined or limited otherwise, term " setting ", " installation ", " connected ", " connection " shall be understood in a broad sense, for example, it may be fixedly connected, may be a detachable connection or one Connect to body；It can be directly connected, the connection inside two elements can also be can be indirectly connected through an intermediary. For the ordinary skill in the art, the concrete meaning of above-mentioned term in the present invention can be understood with concrete condition.

Embodiment:

Fig. 1-11 is please referred to, the present embodiment provides a kind of part part flow arrangements, have specifically included isocon 1,2 and of diffluence pass Flow distribution plate 3, isocon 1 are rectangle straight pipe, and isocon 1 is obliquely installed, and upper end is feed inlet 4, and lower end is discharge port 5, will The feed inlet 4 of isocon 1 is connected to the exit of forming parts equipment, is both provided with detection dress in forming parts equipment at present It sets, and then realizes the bad detection of part, the part after then will test is shunted, and diffluence pass 2 is arranged under isocon 1 On the tube wall of side, and diffluence pass 2 can make bad part transportation range in isocon 1 longer close to the position of discharge port 5, So that bad part is efficiently separated, avoid flow distribution plate 3 switch not in time but bad part from discharging 5 be discharged, flow distribution plate 3 rotate It is connected at diffluence pass 2, the rotation of flow distribution plate 3 can make diffluence pass 2 be in the state opened wide or blocked, and spacious in diffluence pass 2 The split channel 22 towards feed inlet 4 is formed when opening.

When existing defects on part are not detected in detection device, flow distribution plate 3 is in the state for blocking diffluence pass 2, this When part can flow transmission in isocon 1 along flow distribution plate 3, and flowed out from the discharge port 5 of 1 downside of isocon, from discharging The parts of 5 outflow of mouth are accordingly to be regarded as qualified products；And detect there is " empty riveting ", " weighing wounded " and " foreign matter on part in detection device Into " the defects of when, flow distribution plate 3 turns an angle in isocon 1, at this point, flow distribution plate 3 no longer blocks diffluence pass 2, point Head piece 2 will be in open state, and the split channel 22 towards feed inlet 4 is formed when diffluence pass 2 opens wide, underproof Part will be flowed out along 22 runner diffluence pass 2 of split channel, and from diffluence pass 2, and then carry out the recycling of rejected product；And point After the upward tilt rotation of flowing plate 3, flow distribution plate 3 can will block inside isocon 1, to ensure that rejected part entirely falls in shunting In mouth 2.

Rectangle straight pipe is set by isocon 1, and diffluence pass 2 is arranged in the downside of isocon 1, is formed and is divided up and down Phenomena such as flowing, and can also avoiding the occurrence of and shunt dead angle, part is avoided to spring back in branching process, and then avoid The appearance for the problems such as part card product occurs when shunting at diffluence pass 2, product is left promotes reliability and effect that product shunts Rate, and the present apparatus also has the characteristics that structure is simple, compared to existing part flow arrangement, also has cost of manufacture lower excellent Point, cost of manufacture are only the one third of original part flow arrangement, have greatly saved cost.

Referring to attached drawing 2 and attached drawing 5, specifically, rot 6 is arranged in the outside of 1 tube wall of isocon, make turning for rot 6 Axis pierces into inside isocon 1, and the shaft of rot 6 is made to be connected with flow distribution plate 3, and then flow distribution plate 3 is driven by rot 6 Rotation, and rot 6 is connect in such a way that signal connects with detection device signal, when having detected presence in detection device When the part of defect, the shaft of rot 6 will be rotated, and can driving flow distribution plate 3 by the rotation of shaft at this time, inclination turns upwards It is dynamic, and after the upward tilt rotation of flow distribution plate 3, flow distribution plate 3 can will block inside isocon 1, to ensure rejected part whole It drops into diffluence pass 2, and then diffluence pass 2 is made to be in open state, the part of existing defects can be distributed from diffluence pass 2 It goes.The control of signal transmission between above-mentioned rot 6 and detection device is controlled using PLC control system.Detection dress The equipment such as the common detection probe of those skilled in the art are set to, PLC is the product that can be bought on the market, just no longer superfluous herein It states.

Referring to attached drawing 1, attached drawing 2, attached drawing 3, attached drawing 4 and attached drawing 6, further, can be stretched at the feed inlet 4 of isocon 1 Contracting ground connection one flexible mouth 7 of setting, and the rotation connection setting baffle 8 at the feed inlet of isocon 14, do not use in isocon 1 When, baffle 8 blocks the feed end of flexible mouth 7, and then can enter in isocon 1 to avoid dust from flexible mouth 7, keeps dividing Cleaning inside flow tube 1.The flexible mold for being adapted to different model of flexible mouth 7, and the elongation of flexible mouth 7 can also incite somebody to action Baffle 8 jacks up, and then guarantees when needing to transport part, and the feed end of flexible mouth 7 is in open state.Preferably, it stretches A telescopic rod 9 is arranged especially by the tube wall of 1 downside of isocon in scalable connection between mouth 7 and isocon 1, will stretch The telescopic segment of bar 9 is connected with the downside of flexible 7 feed end of mouth, can realize that flexible mouth 7 exists by the stretching motion of telescopic rod 9 Flexible in isocon 1, telescopic rod 9 can be using cylinder or hydraulic cylinder or other rod pieces with Telescopic.

Gas blow pipe 12 is additionally provided in flexible mouth 7, gas blow pipe 12 is horizontally installed on the downside of the feed end of flexible mouth 7, And the axial direction of gas blow pipe 12 is equipped with several gas holes 23, several gas holes 23 are uniformly distributed along the axial direction of gas blow pipe 12, The blowing direction of the gas hole 23 diagonally downward and is directed toward the direction of parts transport, is also connected on gas blow pipe 12 and outwardly protrudes Convergence part 13, convergence part 13 along gas blow pipe 12 axial direction be arranged, wherein gas blow pipe 12 is cylindrical, convergence part 13 cut Face is triangular in shape, one end of gas blow pipe 12 is pierced by flexible mouth 7, and connect an air inlet pipe 14, convergence part 13 guarantees that part can be put down Steady flows into isocon 1, specifically, causing part to be stuck in when avoidable part is come out in a manner of skidding off from former and stretching The problem of inside the gap of contracting mouth and former junction, air inlet pipe 14 carries out air inlet, and makes the air-flow blown into from gas blow pipe 12 gas hole 23 is blown out, and can provide the part flowed into isocon 1 transportation power, and then guarantee part in isocon 1 Interior energy normal transport.

Referring to attached drawing 8, specifically, being additionally provided with connector 10 and dust board 11 on baffle 8, one end of connector 10 turns The dynamic outer wall for being connected to isocon 1, the other end are fixedly connected with the upside of baffle 8, and the two sides of baffle 8 are arranged in dust board 11, Dust board 11 is connected to the side on baffle 8 close to isocon 1, when baffle 8 blocks the feed end of flexible mouth 7, dust board 11 block the joint gap between baffle 8 and flexible mouth 7, and then the work of dust-break is further functioned as using dust board 11 With；When baffle 8 is in the state for blocking the feed end of flexible mouth 7, direction and 1 inside zero of isocon that connector 10 is arranged Part flow direction is identical.Baffle 8, connector 10 and dust board 11 are integrally formed structures.

It cleans and connects inside mouth 15 and isocon 1 in the upside of isocon 1 setting cleaning mouth 15 referring to attached drawing 1 and attached drawing 3 It is logical, the rotation connection setting cover board 16 at cleaning mouth 15, by the folding of the rotation control cleaning mouth 15 of cover board 16, specifically, One end of cover board 16 is rotatedly connected with 1 side of isocon, connection hook 17 is provided on the upside of 16 other end of cover board, and dividing Connecting ring 18 is set on the outer wall of flow tube 1, and when that will clean the closure of mouth 15 using cover board 16, connecting ring 18 will the company of being articulated in It connects in hook 17；It can be gone out in isocon 1 in order to being cleaned and being cleared up inside isocon 1 by setting cleaning mouth 15 When existing foreign matter, can rotating plate 16 make to clean mouth 15 and open wide, to be cleaned to internal foreign matter.

Referring to attached drawing 3 and attached drawing 7, discharge pipe 19 is provided in isocon 1, discharge pipe 19 is horizontally installed on isocon 1 Internal upside, discharge pipe 19 are set as more than two and are uniformly arranged in isocon 1 along the direction of parts transport, In a discharge pipe 19 top of diffluence pass 2 is set, air outlet 20 is provided on discharge pipe 19, air outlet 20 is also provided with It is uniformly distributed, is can be along arranged in a straight line or be staggered and every for two or more and along the axial direction of each discharge pipe 19 The air-out direction of one air outlet 20 is diagonally downward and to be directed toward the direction of parts transport, and discharge pipe 19 is arranged in this way With air outlet 20, linear blowing can be formed, keeps part transport more steady.

Specifically, hopper 21 is arranged in the downside of isocon 1, hopper 21 is connected to diffluence pass 2, is flowed from diffluence pass 2 Rejected part out can be discharged from hopper 21, and then convenient for recycling.

The foregoing is only a preferred embodiment of the present invention, is not intended to restrict the invention, for the skill of this field For art personnel, the invention may be variously modified and varied.All within the spirits and principles of the present invention, made any to repair Change, equivalent replacement, improvement etc., should all be included in the protection scope of the present invention.

Claims (9)

1. a kind of part part flow arrangement, including isocon (1), diffluence pass (2) and flow distribution plate (3), it is characterised in that: the shunting Pipe (1) is rectangle straight pipe and is obliquely installed that isocon (1) upper end is feed inlet (4), and lower end is discharge port (5)；It is described The feed inlet (4) of isocon (1) is connected to the outlet of forming parts equipment, and the diffluence pass (2) is set on isocon (1) and leans on The position of nearly discharge port (5), and diffluence pass (2) is located at the tube wall on the downside of isocon (1), the flow distribution plate (3) is rotatably connected on At diffluence pass (2), flow distribution plate (3) for make diffluence pass (2) block or open wide, and diffluence pass (2) open wide when formed towards into The split channel (22) of material mouth (4).

2. part part flow arrangement according to claim 1, it is characterised in that: the outside of isocon (1) tube wall is equipped with Rot (6), the shaft of the rot (6) pierce into isocon (1) and are connected with the flow distribution plate (3), the rot (6) it is connect with the detection device signal in forming parts equipment.

3. part part flow arrangement according to claim 1, it is characterised in that: can in the feed inlet (4) of the isocon (1) It is telescopically communicated with flexible mouth (7), is rotatably connected to baffle (8) at the feed inlet (4) of the isocon (1), the baffle (8) For blocking the feed end of flexible mouth (7).

4. part part flow arrangement according to claim 3, it is characterised in that: connect on the tube wall on the downside of the isocon (1) It is connected to telescopic rod (9), the telescopic segment of the telescopic rod (9) is connected with the downside of the feed end of the flexible mouth (7).

5. part part flow arrangement according to claim 3, it is characterised in that: the baffle (8) is equipped with connector (10) With dust board (11)；

The dust board (11) is set as two pieces and is separately positioned on the two sides of baffle (8), baffle (8) and flexible for blocking Joint gap between mouth (7)；

The connector (10) is rotatably connected on the outer wall of isocon (1), for connecting baffle (8) and isocon (1).

6. part part flow arrangement according to claim 3, it is characterised in that: be equipped with gas blow pipe in the flexible mouth (7) (12), the gas blow pipe (12) is horizontally set at the downside of the feed end of flexible mouth (7), and the gas blow pipe (12), which is equipped with, to be blown Hole (23), the blowing direction of the gas hole (23) is diagonally downward and the direction of direction parts transport, the gas blow pipe (12) are in Cylinder, along projecting axially outward equipped with convergence part (13) for the gas blow pipe (12), the section of the convergence part (13) is in three It is angular；One end of the gas blow pipe (12) is pierced by flexible mouth (7), and is connected with air inlet pipe (14).

7. part part flow arrangement according to claim 1, it is characterised in that: the upside of the isocon (1), which is equipped with, to be opened wide Cleaning mouth (15), be rotatably connected to cover board (16) at the cleaning mouth (15), one end and isocon (1) of the cover board (16) Side be rotatedly connected, the upside of the other end is equipped with connection hook (17), and the outer wall of the isocon (1) is equipped with connecting ring (18), when the cover board (16) will clean mouth (15) and block, the connecting ring (18) is articulated in connection hook (17).

8. part part flow arrangement according to claim 1, it is characterised in that: be equipped with several outlet air in the isocon (1) It manages (19), the discharge pipe (19) described in several is uniformly arranged in isocon (1) along the direction of parts transport, and several Be equipped with air outlet (20) in the axial direction of the discharge pipe (19), the air-out direction of the air outlet (20) diagonally downward and It is directed toward the direction of parts transport.

9. part part flow arrangement according to claim 1, it is characterised in that: the downside of the isocon (1) is equipped with discharge It struggles against (21), the hopper (21) is connected to the diffluence pass (2).