CN205661715U - Pipeline feeding system - Google Patents

Pipeline feeding system Download PDF

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Publication number
CN205661715U
CN205661715U CN201620456963.7U CN201620456963U CN205661715U CN 205661715 U CN205661715 U CN 205661715U CN 201620456963 U CN201620456963 U CN 201620456963U CN 205661715 U CN205661715 U CN 205661715U
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China
Prior art keywords
pipeline
containing box
aerator
bubble bags
bag
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CN201620456963.7U
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Chinese (zh)
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司匡书
刘玉贵
李渊
司桂安
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HANGZHOU BINGJIA TECH Co Ltd
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HANGZHOU BINGJIA TECH Co Ltd
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Abstract

The utility model discloses a pipeline feeding system. In the carrier roller device, the operation of controlling means control air -blower intermittent type nature, bag work is made to outside buffer air bag aerator always, the continuous bubble bag that the system is good is carried earlier in the buffering containing box, the entry of pipeline is put into to first the bubble bag that will make, when waiting to cushion the containing box and filling with the bubble bag, controlling means control drum fan operation, the air -blower will cushion bubble bag in the containing box, and to pass through the pipeline empty, then controlling means control air -blower bring to rest, the bubble bag fills with next time in the wait buffering containing box, thus, the system bag of transport and the buffer air bag aerator of bubble bag in the pipeline does not influence each other, the transport of bubble bag in the pipeline just can not receive pulling force in the other direction, thereby can increase the distance of falling to the ground of bubble bag departure pipeline export, box when accomodating the bubble bag compares the long term, can fill up the box of accomodating the bubble bag by furthest, need not the people for being paved with, and the efficiency is enhanced.

Description

Pipeline feed system
Technical field
This utility model relates to a kind of pipeline feed system, particularly to the pipeline feed system of a kind of bubble bags.
Background technology
Existing bubble bags feed system, the bubble bags made enters directly in pipeline, then directly enters in the duct Row conveying, due to the wind-force that blower fan is bigger so that bubble bags in the speed of pipe outlet much larger than the speed of bag, therefore, pipe Bubble bags in road can be had a strong impact on bubble bags fly out the landing distance after pipe outlet by the contrary pulling force of the direction of motion, The bubble bags of pipe outlet of flying out the most all concentrates on below pipe outlet and neighbouring place, when the casing ratio of storage bubble bags Time longer, it is impossible to automatically fill up the casing of storage bubble bags, need artificially to be paved with, thus affect efficiency.
Utility model content
The purpose of this utility model is to provide a kind of pipeline feed system.
According to an aspect of the present utility model, it is provided that a kind of pipeline feed system, including pipeline, aerator, buffering Containing box and control device, one end of pipeline and the outlet of aerator, pipeline is provided with entrance, buffering containing box be positioned at into Below Kou, control device and send switching signal to aerator.
In this utility model, control device and send switching signal to aerator, control aerator intermittence and run, outside Airbag inflator carries out bag work always, and the continuous air bubbles bag that airbag inflator makes first is transported to buffering storage In case, make first bubble bags is put in the entrance of pipeline, when containing box to be buffered fills with bubble bags, control device Controlling aerator to run, the bubble bags in buffering containing box is emptied by aerator by pipeline, then controls device and controls air blast Machine is out of service, next time the filling of bubble bags in pending buffer containing box, so, and bubble bags conveying in the duct and buffering The bag of airbag inflator is independent of each other, bubble bags conveying in the duct would not by reciprocal pulling force, such that it is able to Increase bubble bags to fly out the landing distance of pipe outlet, when the casing receiving bubble bags is long, can farthest fill out Completely receive the casing of bubble bags, it is not necessary to be artificially paved with, improve efficiency.
In some embodiments, it is also possible to include two photoelectric sensors, one of them photoelectric sensor is located at buffering The top of containing box, another photoelectric sensor is located at the bottom of buffering containing box, and photoelectric sensor sends inspection to controlling device Survey signal.Thus, the photoelectric sensor being located at buffering containing box top detects when in buffering containing box, bubble bags fills with, light Electric transducer sends detection signal to controlling device, controls device control aerator and runs, and aerator is by buffering containing box Bubble bags is emptied by pipeline, be located at buffering containing box bottom photoelectric sensor detect buffering containing box in bubble bags by When emptying, this photoelectric sensor sends detection signal to controlling device, controls device control aerator out of service, pending buffer Next time the filling of bubble bags in containing box, so, bubble bags conveying in the duct and bag are independent of each other, and bubble bags is at pipe Conveying in road would not can be increased bubble bags and fly out the landing distance of pipe outlet by reciprocal pulling force, work as storage When the casing of bubble bags is long, can farthest fill up the casing of storage bubble bags, it is not necessary to be artificially paved with, improve effect Rate.
In some embodiments, it is also possible to include that photoelectric sensor, photoelectric sensor are located at the bubble of buffering containing box Bag porch, counts the bubble bags entering buffering containing box, and photoelectric sensor sends detection signal to controlling device.By This, can detect and count aerator in advance and empty time of bubble bags is T1, thus when the operation of aerator is previously set Between be also T1, in the photoelectric sensor of bubble bags porch of buffering containing box detects buffering containing box, reached some After the bubble bags of (filling up buffering containing box), this photoelectric sensor sends detection signal to controlling device, controls device and controls drum Fan operation, and the operation time be T1, aerator in time T1 by buffering containing box in bubble bags emptied by pipeline, so Rear aerator is out of service, next time the filling of bubble bags in pending buffer containing box, and aerator intermittence is run, so, and gas Bubble bag conveying in the duct and bag are independent of each other, bubble bags conveying in the duct would not by reciprocal pulling force, Bubble bags can be increased fly out the landing distance of pipe outlet, when the casing receiving bubble bags is long, can be at utmost Fill up storage bubble bags casing, it is not necessary to be artificially paved with, improve efficiency.
In some embodiments, it is also possible to include speed regulator, speed regulator sends speed-regulating signal to aerator, controls air blast The rotating speed of machine.Thus, adjusted the rotating speed of aerator by speed regulator, the falling after pipe outlet such that it is able to control bubble bags flies out Ground distance.
In some embodiments, pipeline can include multiple sub-pipes detachable, telescopic being sequentially connected with.By This, multiple sub-pipes removably connect and facilitate dismounting and the transport of pipeline, and the scalable connection of multiple sub-pipes can be according to field The practical situations such as ground adjust the length of pipeline, substantially increase extensibility and the usability of pipeline feed system.
In some embodiments, pipeline can be L-shaped, the other end opening of pipeline can in horizontal direction, pipeline Other end opening can also be downward.Thus, the bubble bags made can be transported to eminence position by L-shaped pipeline, works as pipeline Other end opening in horizontal direction time, bubble bags can be increased and fly out the landing distance after pipe outlet, when another of pipeline When end opening is downward, the bubble bags made can be concentrated in the bubble bags containing box being received into correspondence.
In some embodiments, porch can be provided with and lead lamina membranacea.Thus, the continuous air bubbles bag made passes through guided mode plate Can enter in pipeline more swimmingly and carry, be possible to prevent bubble bags to be stuck in porch, affect the most defeated of bubble bags Send.
In some embodiments, it is also possible to include that equipment placement platform, base plate and support column, equipment placement platform pass through Support column is connected with base plate, and equipment placement platform is positioned at above base plate, and buffering containing box is located on equipment placement platform or buffers Containing box is located on base plate, and when buffering containing box and being located on base plate, equipment placement platform is provided with bubble bags entrance and bubble Bag outlet, aerator is located on base plate, is provided with castor bottom base plate.Thus, it is possible to airbag inflator is placed on equipment Bag is carried out on placement platform;When buffering containing box and being located on equipment placement platform, the bubble bags made first is transported to buffering In containing box, when buffering containing box and being located on base plate, the bubble bags made is by the bubble bags entrance on equipment placement platform First being transported to buffer in containing box, then the bubble bags in buffering containing box is input in pipeline by bubble bags outlet;Base plate On can place the consumptive material case of aerator and bubble bags processed, castor is installed bottom base plate and can be moved easily whole pipeline feeding System.
In some embodiments, when pipeline other end opening in horizontal direction time, the other end of pipeline can be in cone Shape.Thus, wind-force when the tapered shape of the other end of pipeline can be increased export and the deviation of bubble bags can be reduced.
Accompanying drawing explanation
Fig. 1 is the structural representation of the pipeline feed system of a kind of embodiment of this utility model;
Fig. 2 is the perspective view of the pipeline feed system shown in Fig. 1;
Fig. 3 is that the pipeline feed system shown in Fig. 2 places airbag inflator and the structural representation of consumptive material case;
Fig. 4 is the use state diagram of the pipeline feed system shown in Fig. 1;
Fig. 5 is the structural representation of the pipeline feed system of this utility model another embodiment;
Fig. 6 is the perspective view of the pipeline feed system shown in Fig. 5;
Fig. 7 is that the pipeline feed system shown in Fig. 6 places airbag inflator and the structural representation of consumptive material case;
Fig. 8 is the first schematic layout pattern of the pipeline feed system shown in Fig. 5;
Fig. 9 is the second schematic layout pattern of the pipeline feed system shown in Fig. 5;
Figure 10 is the third schematic layout pattern of the pipeline feed system shown in Fig. 5;
Figure 11 is the 4th kind of schematic layout pattern of the pipeline feed system shown in Fig. 5;
Figure 12 is the flow chart of the carrying method of the pipeline feed system of a kind of embodiment of this utility model;
Figure 13 is the flow chart of the carrying method of the pipeline feed system of this utility model another embodiment.
Detailed description of the invention
Below in conjunction with the accompanying drawings this utility model is described in more detail.
Embodiment one:
Fig. 1 to Fig. 4 show schematically show the structure of the pipeline feed system of a kind of embodiment of this utility model.
As shown in Figures 1 to 4, pipeline feed system, including pipeline 1, aerator 2, buffering containing box 3 and control device 4. Additionally, pipeline feed system can also include photoelectric sensor 5, speed regulator 6, equipment placement platform 7, base plate 8 and support column 9.
As depicted in figs. 1 and 2, the lower end of pipeline 1 and the outlet of aerator 2, pipeline 1 is provided with entrance 11, system Good bubble bags can be entered in pipeline 1 by entrance 11.
As depicted in figs. 1 and 2, it is provided with at entrance 11 and leads lamina membranacea 13.The continuous air bubbles bag made can by guided mode plate 13 Carry to enter into more swimmingly in pipeline 1, be possible to prevent bubble bags to be stuck at entrance 11, affect the most defeated of bubble bags Send.
As depicted in figs. 1 and 2, pipeline 1 includes multiple sub-pipes 12 detachable, telescopic being sequentially connected with.Many height Removably connecting of pipeline 12 facilitates dismounting and the transport of pipeline 1, and the scalable connection of multiple sub-pipes 12 can be according to place Adjust the length of pipeline 1 Deng practical situation, substantially increase extensibility and the usability of pipeline feed system.Detachably, Collapsible structure can be realized by grafting form, is fixed by screw with L-shaped gusset after grafting, as long as many height can be realized Pipeline 12 attachment structure detachable, telescopic.
As depicted in figs. 1 and 2, in the present embodiment, pipeline 1 is L-shaped, and the upper end open of pipeline 1 is in horizontal direction.L-shaped Pipeline 1 bubble bags made can be transported to eminence position, the upper end open of pipeline 1 in horizontal direction, can increase gas Bubble bag flies out the landing distance after pipeline 1 upper end open.In other embodiments, the upper end open of pipeline 1 can also be downward, when When the upper end open of pipeline 1 is downward, the bubble bags made can be concentrated in the bubble bags containing box being received into correspondence.At other In embodiment, the global shape of pipeline 1 can also need to be designed to other shapes according to place etc., such as circular arc etc..
The upper end open of pipeline 1 can also tapered shape, the wind-force when opening of tapered shape can be increased export, and The deviation of bubble bags can be reduced.
As depicted in figs. 1 and 2, aerator 2 may be mounted at blower fan and fixes in seat 10, and blower fan is fixed seat 10 and can be supported Pipeline 1.Supporting on aerator 2 display lamp is installed, for difference aerator 2 the most in working order, prevents unexpected generation, instruction Lamp is bright, and aerator 2 is in running order, and display lamp does not works, and aerator 2 is in run-stopping status.
Control device 4 to electrically connect with aerator 2, control device 4 and send switching signal to aerator 2, control aerator 2 Open and break.
In the present embodiment, speed regulator 6 electrically connects with aerator 2, and speed regulator 6 sends speed-regulating signal to aerator 2, controls to adjust The rotating speed of joint aerator 2.In other embodiments, it is also possible to uneasy dress speed regulator 6, pacify according to the transporting velocity of bubble bags in advance Install the aerator 2 that correspondence transfers.
As depicted in figs. 1 and 2, control device 4 and speed regulator 6 is all arranged on blower fan and fixes on seat 10.
As depicted in figs. 1 and 2, equipment placement platform 7 is connected with base plate 8 by support column 9, as being bolted or one Body connects, and equipment placement platform 7 is positioned at above base plate 8, outside airbag inflator can be placed on equipment and put Carrying out bag maker work (as shown in Figure 3) on horizontalization platform 7, the consumptive material case 21 of air-cushion film can be placed on base plate 8 (as shown in Figure 3). Blower fan is fixed seat 10 and is arranged on base plate 8.
As depicted in figs. 1 and 2, the position, four angles bottom base plate 8 is separately installed with castor 81, and castor 81 can be moved easily Whole pipeline feed system and the location to pipeline feed system.
As shown in Figures 2 and 3, the axis of rolling 22 and handle 23 can be installed in the left side of equipment placement platform 7, passes through the axis of rolling Consumptive material in consumptive material case 21 can be imported to be inflated bag on external buffer airbag inflator by the rotation of 22 easily, logical Cross handle 23 and can move whole pipeline feed system.
As depicted in figs. 1 and 2, whole pipeline feed system is all arranged on equipment placement platform 7 and base plate 8, it is achieved one Body formula.
As depicted in figs. 1 and 2, buffering containing box 3 is positioned at the lower section of entrance 11.In the present embodiment, buffering containing box 3 is installed On equipment placement platform 7.
As depicted in figs. 1 and 2, in the present embodiment, a photoelectric sensor 5 is installed at the top of buffering containing box 3, and buffering is received Receive the bottom of case 3 and a photoelectric sensor 5 is also installed.Two photoelectric sensors 5 electrically connect with controlling device 4.It is located at buffering to receive The photoelectric sensor 5 at case 3 top received detects (outside airbag inflator when bubble bags fills with in buffering containing box 3 Bag), photoelectric sensor 5 sends detection signal to controlling device 4, and control device 4 controls aerator 2 and runs, and aerator 2 will be slow The bubble bags rushed in containing box 3 is emptied by pipeline 1, is located at the photoelectric sensor 5 bottom buffering containing box 3 and detects that buffering is received When bubble bags in case 3 of receiving is cleared, this photoelectric sensor 5 sends detection signal to controlling device 4, controls device 4 and controls drum Blower fan 2 is out of service, next time the filling of bubble bags in pending buffer containing box 3, so, and bubble bags conveying in pipeline 1 Being independent of each other with the bag of external buffer airbag inflator, bubble bags conveying in pipeline 1 would not be drawn by reciprocal Power, can increase bubble bags and fly out the landing distance of pipeline 1 upper end outlet, when the casing receiving bubble bags is long, permissible Farthest fill up the casing of storage bubble bags, it is not necessary to be artificially paved with, improve efficiency.
In other embodiments, it is also possible to only include a photoelectric sensor 5, photoelectric sensor 5 is arranged on buffering storage The bubble bags porch (buffering the left side top of containing box 3 as shown in Figure 1) of case 3, photoelectric sensor 5 is to entering buffering containing box The bubble bags of 3 counts, and can detect and count aerator 2 in advance and empty time of bubble bags is T1, thus sets in advance The operation time determining aerator 2 is also T1, when the photoelectric sensor 5 of the bubble bags porch of buffering containing box 3 detects buffering After having reached the bubble bags of some (filling up buffering containing box 3) in containing box 3, this photoelectric sensor 5 sends to controlling device 4 Detection signal, control device 4 controls aerator 2 and runs, and the operation time is T1, and buffering is received in time T1 by aerator 2 Bubble bags in case 3 is emptied by pipeline 1, and then aerator 2 is out of service, and aerator 2 time out of service is set as T, aerator 2 is in time T out of service, and the bubble bags that external buffer airbag inflator makes just can be filled up buffering and be received Receive case 3, aerator 2 in time T out of service in pending buffer containing box 3 the upper of bubble bags once fill, aerator 2 with Time T1-T intermittence is run, so, and the bag of bubble bags conveying in pipeline 1 and external buffer airbag inflator the most not shadow Ringing, bubble bags conveying in pipeline 1 would not can be increased bubble bags fly out what pipeline 1 exported by reciprocal pulling force Landing distance, when the casing receiving bubble bags is long, can farthest fill up the casing of storage bubble bags, it is not necessary to people For being paved with, improve efficiency.
In other embodiments, buffering containing box 3 can not also install photoelectric sensor 5, can be in advance according to bubble Bag transporting velocity (can measure according to the rotating speed of aerator 2) in pipeline 1, controls device 4 and sets aerator 2 with T-T1's Time interval intermittence is run, running time T 1, and the time of not running is T, will buffer containing box in aerator 2 T1 at runtime In the bubble bags that makes empty, the most out of service, aerator 2 gas in pending buffer containing box 3 in time T out of service Next time filling of bubble bag, time T out of service sets according to the bag speed of external buffer airbag inflator, so, gas The bag steeping bag conveying in pipeline 1 and external buffer airbag inflator is independent of each other, and bubble bags conveying in pipeline 1 is just Will not can be increased bubble bags and fly out the landing distance of pipeline 1 upper end outlet by reciprocal pulling force, control device 4 and control Aerator 2 runs with time T1-T intermittence, thus realizes steeping bag conveying in pipeline 1 and external buffer airbag inflator Bag is independent of each other, it is achieved the bubble bags lasting conveying in pipeline 1.
As shown in Figure 1, Figure 2 and Figure 3, buffering containing box 3 is arranged on equipment placement platform 7, external buffer air bag inflator The bubble bags that mechanism is good is first transported to buffer in containing box 3, and bubble bags is temporarily stored in buffering containing box 3, in containing box 3 to be buffered When filling up bubble bags, the bubble bags made is transferred out by pipeline 1 again.
In the present embodiment, controlling device 4 can be controlled by outside airbag inflator, and i.e. outside airbag fills Mechanism of qi can send total control signal to controlling device 4, controls device 4 and sends the control signal of on an off again to aerator 2. In other embodiments, controlling device 4 can not also be controlled by outside airbag inflator, is implemented separately aerator 2 On an off control.
Fig. 4 show schematically show the use state of the pipeline feed system shown in Fig. 1.
As shown in Figure 4, in article packing shop, the casing 25 of storage bubble bags 24 is usually located at the top of operator, Conveniently extracting the bubble bags 24 made, the upper end open of the pipeline 1 of pipeline feed system is positioned at above casing 25.
Outside airbag inflator 26 is placed on equipment placement platform 7 and carries out bag maker work, the consumptive material of air-cushion film Case 21 is placed on base plate 8, the consumptive material in consumptive material case 21 is walked around the axis of rolling 22 and imports to carry out on airbag inflator 26 Inflation bag.
The bubble bags 24 made first is temporarily stored in buffering containing box 3 along A path, by manual for first bubble bags 24 made Putting in the entrance 11 of pipeline 1, after the bubble bags in containing box 3 to be buffered fills up buffering containing box 3, aerator 2 starts fortune OK, the bubble bags 24 made in buffering containing box 3 is transported in casing 25 by pipeline 1 by aerator 2 along B path, works as buffering After bubble bags 24 in containing box 3 is cleared, aerator 2 is out of service, and in pending buffer containing box 3, bubble bags 24 is next time Filling, so, the bag of the bubble bags 24 conveying in pipeline 1 and cushion gas bag inflator 26 is independent of each other, and bubble bags 24 exists Conveying in pipeline 1 would not by reciprocal pulling force, can increase bubble bags 24 fly out pipeline 1 upper end outlet land away from From, when the casing 25 receiving bubble bags 24 is long, can farthest fill up the casing 25 of storage bubble bags 24, it is not necessary to Artificially it is paved with, improves efficiency.
Embodiment two:
The structure of the pipeline feed system of this utility model another embodiment is show schematically show such as Fig. 5 to Fig. 7.
As it is shown in figure 5, in the present embodiment, equipment placement platform 7 is divided into two parts: material conveying platform 73 and delivery platform 74, Base plate 8 is also divided into two parts: feeding bottom plate 82 and conveyor mat 83, material conveying platform 73 is by support column 9 and feeding bottom plate 82 Connecting, form feeding go-cart 31, delivery platform 74 is connected with conveyor mat 83 by support column 9, forms transport trolley 32.
As it is shown in figure 5, feeding go-cart 31 and transport trolley 32 are cascaded.
In the present embodiment, pipeline 1, aerator 2, blower fan fix seat 10, control device 4 and the structure of speed regulator 6, between Annexation is identical with embodiment one, and pipeline 1, aerator 2, blower fan are fixed seat 10, control device 4 and speed regulator 6 and be installed in In transport trolley 32.The mode of operation of aerator 2 is identical with embodiment one.
As shown in Figure 6, consumptive material case 21 is placed on feeding bottom plate 82.The axis of rolling 22 and handle 23 are arranged on material conveying platform 73 Left side.Outside airbag inflator 26 is placed on material conveying platform 73 and carries out bag maker work.
As shown in Figure 6, buffering containing box 3 is arranged in feeding bottom plate 82 and conveyor mat 83, the installation of photoelectric sensor 5 Position is identical with embodiment one.
As shown in Figure 6 and Figure 7, material conveying platform 73 forms bubble bags entrance 71, delivery platform 74 forms bubble Bag outlet 72.
As it is shown in fig. 7, the bubble bags 24 (Fig. 7 is not shown) that airbag inflator 26 makes is by bubble bags entrance 71 first It is transported to buffer in containing box 3, then under aerator 2 intermittent work pattern (identical with embodiment one), buffers containing box 3 Bubble bags 24 be input in pipeline 1 by bubble bags outlet 72, then be transported to specify in casing 25 that (Fig. 7 is not by pipeline 1 Illustrate, identical with the state shown in Fig. 4).
Fig. 8 to Figure 11 show schematically show four kinds of layouts of the pipeline feed system shown in Fig. 5.
As shown in Figs. 8 to 11, in the present embodiment, the combining form of feeding go-cart 31 and transport trolley 32 is wanted according to place Seek four kinds of layout state, see Fig. 8, Fig. 9, Figure 10, Figure 11 respectively.In other embodiments, according to site requirements, feeding go-cart 31 and the combining form of transport trolley 32 can also be laid out in other states.
Figure 12 show schematically show the stream of the carrying method of the pipeline feed system of a kind of embodiment of this utility model Journey.
As shown in figure 12, the carrying method of pipeline feed system comprises the following steps:
101: airbag inflator 26 starts bubble bags processed, control aerator 2 with timed unit 4 and do not run;
102: the bubble bags 24 made enters in buffering containing box 3;
103: make first bubble bags 24 is put in the entrance 11 of pipeline 1;
104: photoelectric sensor 5 detects that in buffering containing box 3, bubble bags 24 fills with, or buffering containing box 3 detected In reached the bubble bags 24 of some after, photoelectric sensor 5 sends detection signal to controlling device 4, controls device 4 and controls drum Blower fan 2 runs;
105: in buffering containing box 3, continuous print bubble bags 24 passes sequentially through the entrance 11 of pipeline 1 and enters in pipeline 1, Under the wind-force effect of aerator 2, continuous print bubble bags 24 flies out from the upper end open of pipeline 1, drops in casing 25;
106: after photoelectric sensor 5 detects that in buffering containing box 3, bubble bags is cleared, photoelectric sensor 5 is to controlling dress Putting 4 transmission detection signals, it is out of service that control device 4 controls aerator 2, or,
The prior transporting velocity according to bubble bags 24 in pipeline 1, controls device 4 and sets the running time T 1 of aerator 2, In aerator 2 T1 at runtime, the bubble bags 24 made in buffering containing box 3 is emptied, according to airbag inflator 26 Bag speed sets aerator 2 time out of service as T, and in the time T that aerator 2 is out of service, buffering containing box 3 is contained Full bubble bags 24;
107: after aerator 2 is out of service, pending buffer containing box 3 fills with bubble bags 24 again;
108: return step 104, it is achieved the bubble bags 24 lasting conveying in pipeline 1.
Figure 13 show schematically show the carrying method of the pipeline feed system of this utility model another embodiment Flow process.
As shown in figure 13, the carrying method of pipeline feed system comprises the following steps:
201: airbag inflation 26 starts bubble bags 24 processed, controls aerator 2 with timed unit 4 and does not runs;
202: when setting, according to the bag speed of airbag inflator 26, time T and the operation that aerator 2 does not runs Between be T1;
203: the bubble bags 24 made enters in buffering containing box 3;
204: make first bubble bags 24 is put in the entrance 11 of pipeline 1;
205: in time T, buffering containing box 3 fills with bubble bags 24;
206: aerator 2 brings into operation, and the operation time be T1, buffering containing box 3 in continuous print bubble bags 24 in air blast Under the wind-force effect of machine 2, the entrance 11 passing sequentially through pipeline 1 enters in pipeline 1;
207: continuous print bubble bags 24 flies out from the upper end open of pipeline 1, drop in casing 25;
In 208: aerator 2 T1 at runtime, the bubble bags 24 made in buffering containing box 3 is emptied;
209: aerator 2 is out of service, and the time out of service be T, pending buffer containing box 3 fills with bubble again Bag 24;
210: return step 205, aerator 2 runs with the time interval intermittence of T-T1, it is achieved bubble bags 24 is at pipeline 1 In lasting conveying.
Above-described is only embodiments more of the present utility model.For the person of ordinary skill of the art, On the premise of creating design without departing from this utility model, it is also possible to making some deformation and improvement, these broadly fall into this practicality Novel protection domain.

Claims (8)

1. pipeline feed system, it is characterised in that include pipeline (1), aerator (2), buffering containing box (3) and control device (4), one end of described pipeline (1) and the outlet of aerator (2), described pipeline (1) is provided with entrance (11), described buffering Containing box (3) is positioned at entrance (11) lower section, and described control device (4) sends switching signal to aerator (2).
Pipeline feed system the most according to claim 1, it is characterised in that also include two photoelectric sensors (5), wherein One described photoelectric sensor (5) is located at the top of buffering containing box (3), and another described photoelectric sensor (5) is located at buffering The bottom of containing box (3), described photoelectric sensor (5) sends detection signal to controlling device (4), or,
Also include that photoelectric sensor (5), described photoelectric sensor (5) are located at the bubble bags porch of buffering containing box (3), to entering The bubble bags entering to buffer containing box (3) counts, and described photoelectric sensor (5) sends detection signal to controlling device (4).
Pipeline feed system the most according to claim 1, it is characterised in that also include speed regulator (6), described speed regulator (6) send speed-regulating signal to aerator (2), control the rotating speed of aerator (2).
4. according to the pipeline feed system described in claim any one of claims 1 to 3, it is characterised in that described pipeline (1) multiple sub-pipes (12) detachable, telescopic being sequentially connected with is included.
Pipeline feed system the most according to claim 1, it is characterised in that described pipeline (1) is L-shaped, described pipeline (1) Other end opening in horizontal direction, or the other end of described pipeline (1) Open Side Down.
Pipeline feed system the most according to claim 5, it is characterised in that described entrance (11) place is provided with and leads lamina membranacea (13)。
Pipeline feed system the most according to claim 1, it is characterised in that also include equipment placement platform (7), base plate (8) and support column (9), described equipment placement platform (7) is connected with base plate (8) by support column (9), equipment placement platform (7) Being positioned at base plate (8) top, described buffering containing box (3) is located at equipment placement platform (7), and above or described buffering containing box (3) is located at On base plate (8), when buffering containing box (3) and being located on base plate (8), equipment placement platform (7) is provided with bubble bags entrance (71) Exporting (72) with bubble bags, described aerator (2) is located on base plate (8), and described base plate (8) bottom is provided with castor (81).
Pipeline feed system the most according to claim 5, it is characterised in that when described pipeline (1) other end opening in During horizontal direction, the tapered shape of the other end of described pipeline (1).
CN201620456963.7U 2016-05-18 2016-05-18 Pipeline feeding system Active CN205661715U (en)

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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN105857720A (en) * 2016-05-18 2016-08-17 杭州丙甲科技有限公司 Pipeline feeding system and conveying method thereof

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN105857720A (en) * 2016-05-18 2016-08-17 杭州丙甲科技有限公司 Pipeline feeding system and conveying method thereof
CN105857720B (en) * 2016-05-18 2018-06-15 杭州丙甲科技有限公司 Bubble bags pipeline feed system and its carrying method

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