CN200988690Y - Confluent conveyor with negative pressure transport path - Google Patents

Abstract

The utility model relates to a confluence conveying device with negative pressure conveying chutes, which transports a plurality of materials from a material input area to a material output area after being conflated along a transportation direction. The utility model comprises a multi-chute convey line and a convey line with less chutes, wherein, the multi-chute convey line comprises feeding chutes and negative pressure chutes with a first rating amount. The convey line with less chutes comprises conflated conveying chutes with a second rating amount. Because the first rating amount is larger than the second rating amount, the transported materials is transported from the input area to the confluence conveying chutes with smaller amount through the feeding chutes and negative pressure chutes with larger amount, and then is outputted to the output area after being conflated at the confluence chutes. In addition, the negative pressure chutes are provided with negative pressure generation units that can absorb materials, and the confluence chutes are provided with guiding plates that can position the materials with higher accuracy and stability to transport the materials smoothly to the output area.

Description

The interflow feedway that possesses the negative pressure transportation road

Technical field

The utility model relates to a kind of device for transporting objects, is meant a kind of negative pressure transportation road that possesses especially, material can be carried the interflow feedway of a few channels via the interflow by multi-channel.

Background technology

In existing device for transporting objects, be mostly will be in multi-channel be carried by meeting interflow mechanism mass transport to the minority transfer passage.Yet, in the process of interflow convey materials, flow rate adjustment and the control of the most important person no more than treating convey materials.Yet, at existing device for transporting objects convey materials, though also there is relevant control setup to come flow rate adjustment and control, some problems of ubiquity.Among these problems, it is the most serious to be offset out set conveying track with material again, because, in case material is when set conveyor track trace displacement, will badly influence the particularity of transfer position, mass transport more accurately and effectively the position can't be handled to time one, even also the production quality can be had a strong impact on.

For example: when carrying out commodity packaging, if the material offset, then the package encapsulation line just may be seriously crooked, even also can produce package encapsulation line partly and do not have this material is coated sealing definitely.For example: when carrying out paper cutting, if the material offset, then the paper cutting line will deflection and irregular.Again for example: carrying out plate when locking operation, if plate to be locked skew, then the position on this plate also can with skew go out original position to be locked, then lock assembly (as screw or bolt) and just may correspond to other non-position that the confession locks of this plate, and penetrate this position and the destruction of causing this plate.

Yet, take a broad view of existing interflow feedway, its location inaccuracy in course of conveying but is a undisputable fact.Also just because of the accuracy rate deficiency of location, and badly influence the quality of entire product.

The technical matters that the utility model institute desire solves:

Because existing device for transporting objects is when convey materials, particularly with material by most channel switch when the minority channel transmits, the phenomenon of the serious deviation of ubiquity setting accuracy, the contriver faces this major issue especially and actively manages to improve.

The utility model content

Main purpose of the present utility model is to provide a kind of interflow feedway that possesses the negative pressure transportation road.This interflow feedway possesses a negative pressure transportation road is arranged, collaborate to the minority transfer passage in the conversion of most transfer passages at this material, material firmly can be adsorbed on fixing position, be aided with suitable adjusting and control setup, do not push and the out-of-position phenomenon each other and can not produce because mass transport is out-of-sequence.

The technological means that the utility model is dealt with problems:

The utility model provides a kind of interflow feedway that possesses the negative pressure transportation road for solving the technological means that prior art problems adopted, by with several materials from a material input area, export a material output area along a throughput direction to after through the interflow.This interflow feedway includes a multi-conveying-line and few road travel line.This multi-conveying-line comprises the charging feed track and the negative pressure transportation road of first load quantity, and this few road travel line comprises the interflow feed track of second load quantity.The second above-mentioned load quantity is less than first load quantity, and in the cited preferred embodiment of the utility model, first load quantity be for two, the second load quantities then be one.

This negative pressure transportation road includes a negative pressure transportation belt, and this negative pressure transportation belt possesses a conveyor side and a pressure-bearing side, offers at least one absorption round that runs through this conveyor side and this pressure-bearing side in the desired location of this negative pressure transportation belt.Close position in this pressure-bearing side is equiped with a negative pressure generation unit, and this negative pressure generation unit possesses a blowing engine is arranged, and produces a negative pressure with the pressure-bearing side at this negative pressure transportation belt.In addition, be to be arranged with a containment member around this blowing engine, and the sealing member is to enclose with this negative pressure transportation belt to constitute a negative pressure insulating space.Simultaneously, this interflow feed track more can be equiped with a pair of guide plate or guiding belt.

When this material was carried on this conveyor side, the negative pressure that this blowing engine produced can be adsorbed on the conveyor surface of this negative pressure transportation belt this material via this absorption round in this negative pressure insulating space.

In addition, this interflow feedway more can and should be installed several detection counting unit by few road travel line along this multi-conveying-line, and this detection counting unit can onlinely be incorporated into existing flow rate monitored control system.In the course of conveying of this material, when this material detects counting unit through this, can produce the logistics detection signal to the flow rate monitored control system, the flow rate monitored control system can produce the logistics control signal according to this, by control and the speed of transmission and the sequential of regulating this material.

The effect of the utility model contrast prior art:

Compared to general existing device for transporting objects, the interflow feedway that possesses the negative pressure transportation road provided by the utility model, not only can be in conjunction with existing flow rate monitored control system with control and the speed of transmission and the sequential of regulating this material, still can make this material can be more firm and accurately be located on this negative pressure transportation belt by effect by this negative pressure generation unit, more can be by exporting this material output area to this material interflow and via this interflow mouth more reposefully by this guide plate or guiding belt.

Description of drawings

Fig. 1 is the block diagram that shows the utility model first embodiment;

Fig. 2 is the schematic side view that shows the utility model first embodiment;

Fig. 3 is the top view that shows the utility model first embodiment;

Fig. 4 shows negative pressure transportation belt among the utility model first embodiment and the configuration relation scheme drawing between the negative pressure generation unit;

Fig. 5 is the block diagram that shows the utility model second embodiment.

[primary clustering nomenclature]

100,100a interflow feedway

1 material input area

2 material output areas

3 materials

4 multi-conveying-lines

41 charging feed tracks

411 charging input ends

412 charging mouths

42 negative pressure transportation roads

421 negative pressure transportation input ends

422 negative pressure transportation mouths

423 negative pressure transportation belts

The 423a conveyor side

423b pressure-bearing side

423c adsorbs round

424 negative pressure generation units

The 424a blowing engine

The 424b containment member

424c negative pressure insulating space

5 few road travel lines

51 interflow feed tracks

511 interflow input ends

512 interflow mouths

513 guide plates

52 discharging feed tracks

521 discharging input ends

522 discharging mouths

5 ' few road travel line

51 ' interflow input end

52 ' interflow mouth

53 ' guiding belt

6 detect counting unit

The specific embodiment

See also Fig. 1 to Fig. 4, Fig. 1 is the block diagram that shows the utility model first embodiment, Fig. 2 is the schematic side view that shows the utility model first embodiment, Fig. 3 is the top view that shows the utility model first embodiment, and Fig. 4 shows negative pressure transportation belt among the utility model first embodiment and the configuration relation scheme drawing between the negative pressure generation unit.As shown in the figure, an interflow feedway 100 is disposed between a material input area 1 and the material output area 2, by several materials 3 are delivered to this material output area 2 from this material input area 1 along a throughput direction I.This interflow feedway 100 includes a multi-conveying-line 4 and few road travel line 5.

This multi-conveying-line 4 includes two charging feed tracks 41 and two negative pressure transportation roads 42.Should include an interflow feed track 51 and discharging feed track 52 by few road travel line 5.In this multi-conveying-line 4, each charging feed track 41 possesses respectively a charging input end 411 and a charging mouth 412 is arranged, and this charging input end 411 is in abutting connection with this material input area 1, and this charging mouth 412 is to be communicated with this charging input end 411.Each negative pressure transportation road 42 possesses respectively a negative pressure transportation input end 421 and a negative pressure transportation mouth 422 is arranged, this negative pressure transportation input end 421 is corresponding respectively one in these charging mouths 412 that are adjacent to, and this negative pressure transportation mouth 422 is to be communicated with this negative pressure transportation input end 421.

Simultaneously, in this multi-conveying-line 4, this negative pressure transportation road 42 more includes a negative pressure transportation belt 423, this negative pressure transportation belt 423 possesses a conveyor side 423a and a pressure-bearing side 423b, offers at least one absorption round 423c that runs through this conveyor side 423a and this pressure-bearing side 423b in the desired location of this negative pressure transportation belt 423.Close position at this pressure-bearing side 423b is equiped with a negative pressure generation unit 424, and this negative pressure generation unit 424 possesses a blowing engine 424a is arranged, and produces a negative pressure with the pressure-bearing side 423b at this negative pressure transportation belt 423.In addition, be to be arranged with a containment member 424b around this blowing engine 424a, and sealing member 424b enclose with this negative pressure transportation belt 423 to constitute a negative pressure insulating space 424c.

In this few road travel line 5, each collaborates feed track 51 and possesses respectively and have an interflow input end 511 to collaborate mouth 512 with one, each collaborate input end 511 be adjacent to respectively in this negative pressure transportation mouth 422 one of at least, this interflow mouth 512 is to be communicated with this interflow input end 511.This discharging feed track 52 is to possess a discharging input end 521 and a discharging mouth 522 are arranged, and this discharging input end 521 is to be adjacent to respectively respectively to collaborate mouth 512, and this discharging mouth 522 is to be communicated with this discharging input end 521, and is adjacent to this material output area 2.In addition, in this few road travel line 5, this interflow feed track 51 more is equiped with a pair of guide plate 513, and it is between this interflow input end 511 and this interflow mouth 512.

When this interflow feedway 100 is carried this material 3, this material 3 is from this material input area 1 input, along this throughput direction worker in regular turn via this charging input end 411, this charging mouth 412 and this negative pressure transportation input end 421, and between this negative pressure transportation mouth 422 and this interflow input end 511, collaborate, so that this material 3 is delivered to this few road travel line 5 from this multi-conveying-line 4, be delivered to this material output area 2 via this interflow mouth 512, this discharging input end 521 with this discharging mouth 522 in regular turn again.

In above course of conveying, when this material 3 is carried on this conveyor side 423a, the negative pressure that this blowing engine 424a is produced can be in this negative pressure insulating space 424c, via this absorption round 423c this material 3 is adsorbed on the conveyor surface 423a of this negative pressure transportation belt 423, so that this material 3 can be located on this negative pressure transportation belt 423 stability when carrying this material 3 to increase.513 of this guide plates help this material 3 is directed to this discharging feed track 52.

Such as the personage who is familiar with related art techniques all can understand, in order more accurately and effectively to grasp the conveying quantity and the speed of this material 3, in this interflow feedway 100, can install this detection counting unit 6 with lacking road travel line 5 along this multi-conveying-line 4, this detection counting unit 6 can onlinely be incorporated into existing flow rate monitored control system.In the course of conveying of this material 3, when this material 3 detects counting unit 6 through this, can produce the logistics detection signal to the flow rate monitored control system, the flow rate monitored control system can produce the logistics control signal according to this, by control and the speed of transmission and the sequential of regulating this charging feed track 41, this negative pressure transportation road 42, this interflow feed track 51 and this discharging feed track 52.

Please continue to consult Fig. 5, it is the block diagram that shows the utility model second embodiment.As shown in the figure, in the utility model second embodiment, be with this interflow feedway 100 among another interflow feedway 100a replacement the utility model first embodiment.The difference of the two is in in the feedway 100a of this interflow, is to replace few road travel line 5 in this interflow feedway 100 with another few road travel line 5 '.Should include an interflow input end 51 ' and an interflow mouth 52 ' and a pair of guiding belt 53 ' by few road travel line 5 '.Wherein, each collaborate input end 51 ' be adjacent to respectively in this negative pressure transportation mouth 422 one of at least, this interflow mouth 52 ' is to be communicated with this interflow input end 51 ', and directly is adjacent to this material output area 2.This guiding belt 53 ' is to be positioned between this interflow input end 51 ' and this interflow mouth 52 ', by exporting this material output area 2 to these material 3 interflow and via this interflow mouth 52 ' more reposefully.

By as can be known by above-mentioned the utility model embodiment, the value on the true tool industry of the utility model.Only above embodiment explanation only is preferred embodiment explanation of the present utility model, all habit in this operator when doing other all improvement and variation according to the foregoing description explanation of the present utility model.Yet all improvement and variation that these are done according to the utility model embodiment are in the claim that still belongs to creation spirit of the present utility model and define.

Claims (7)

1. interflow feedway that possesses the negative pressure transportation road, be in order to several materials from a material input area, export a material output area along a throughput direction to after through the interflow, it is characterized in that this interflow feedway comprises:

One multi-conveying-line includes:

The charging feed track of first load quantity, and each charging feed track possesses respectively a charging input end and a charging mouth arranged, and this charging input end is in abutting connection with this material input area, and this charging mouth is to be communicated with this charging input end;

The negative pressure transportation road of first load quantity, each negative pressure transportation road possesses respectively a negative pressure transportation input end and a negative pressure transportation mouth is arranged, this negative pressure transportation input end is corresponding respectively one in this charging mouth that be adjacent to, and this negative pressure transportation mouth is to be communicated with this negative pressure transportation input end;

One few road travel line, be to be adjacent to this material output area, and the interflow feed track that includes second load quantity, first load quantity is greater than second load quantity, each collaborates feed track and possesses respectively and have an interflow input end to collaborate mouth with one, each collaborates input end is to be adjacent in this negative pressure transportation mouth at least one respectively, and this interflow mouth is to be communicated with this interflow input end;

When this interflow feedway is carried this material, this material is from this material input area input, along this throughput direction in regular turn via this charging input end, this charging mouth and this negative pressure transportation input end, and between this negative pressure transportation mouth and this interflow input end, collaborate, so that this material is delivered to this few road travel line from this multi-conveying-line, and then be delivered to this material output area.

2. the interflow feedway that possesses the negative pressure transportation road as claimed in claim 1, it is characterized in that, described this negative pressure transportation road includes a negative pressure transportation belt, this negative pressure transportation belt possesses a conveyor side and a pressure-bearing side, offer at least one absorption round that runs through this conveyor side and this pressure-bearing side in the desired location of this negative pressure transportation belt, close position in this pressure-bearing side is equiped with a negative pressure generation unit, when this material is carried on this conveyor side, this negative pressure generation unit can produce a negative pressure, and make this material bear this negative pressure via this absorption round, by this material being adsorbed in the conveyor side of this negative pressure transportation belt.

3. the interflow feedway that possesses the negative pressure transportation road as claimed in claim 2 is characterized in that, described this negative pressure generation unit possesses a blowing engine is arranged, and produces this negative pressure with the pressure-bearing side at this negative pressure transportation belt.

4. the interflow feedway that possesses the negative pressure transportation road as claimed in claim 3, it is characterized in that, around described this blowing engine is to be arranged with a containment member, and the sealing member is to enclose with this negative pressure transportation belt to constitute a negative pressure insulating space, by making this negative pressure in this negative pressure insulating space, make this material be adsorbed on the conveyor surface of this negative pressure transportation belt via this absorption round.

5. the interflow feedway that possesses the negative pressure transportation road as claimed in claim 1 is characterized in that, described this interflow feed track is equiped with a pair of guide plate, and it is between this interflow input end and this interflow mouth.

6. the interflow feedway that possesses the negative pressure transportation road as claimed in claim 1 is characterized in that, described this interflow feed track includes a pair of guiding belt, and it is to be disposed between this interflow input end and this interflow mouth.

7. the interflow feedway that possesses the negative pressure transportation road as claimed in claim 1, it is characterized in that, described being somebody's turn to do lacked the discharging feed track that the road travel line more includes one the 4th load quantity, the 4th load quantity is to equal the 3rd load quantity, each discharging feed track possesses respectively a discharging input end and a discharging mouth is arranged, each discharging input end is adjacent to respectively and respectively collaborates mouth, and this discharging mouth is communicated with this discharging input end, and is adjacent to this material output area.

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