CN203237782U - Pneumatic conveying system - Google Patents

Abstract

The utility model relates to the field of material conveying, in particular to a pneumatic conveying system which is suitable for continuous production, fully sealed and high in automation degree. The pneumatic conveying system comprises a fan and a plurality of transit material bins connected with the fan through pipelines respectively. Each transit material bin is provided with a feed inlet and a discharge outlet, the feed inlets are communicated with discharging openings of a plurality of feeding devices through pipelines, and the discharge outlets are communicated with feeding openings of a material processing device through pipelines. According to the pneumatic conveying system, materials can not fall on the ground in the conveying process, material conveying can not be interrupted, and operation is simple. The pneumatic conveying system is fully sealed, dust raise in the conveying process can not happen, meanwhile a dust removal system is mounted to suck a part of dust generated in the discharging process, and a workshop and workers can not be affected. In addition, the system is high in automation and integration degree, operation is quite simple without much labor control, and the workers can not feel fatigue.

Description

Flow delivery systems

Technical field

The utility model relates to the mass transport field, a kind ofly is applicable to the flow delivery systems that quantity-produced is totally-enclosed and degree of automation is high.

Background technology

Existing shop material type of transmission mainly contains several modes such as bucket elevator, belt conveyor and helical conveyer system, and these several modes all exist common defective.At first, can find in the routine that these several systems not exclusively seal, it is practical that certain such device does not have the material of dust to some, exists the dust workshop just not too practical in some productions if be used in.If be used in the workshop of dust, or the production of less feed particulate material, easy health to the people damages on the one hand, also can cause on the other hand the landing of material, thereby is unfavorable for producing.Secondly, the standby function part of these several installings needs manpower, and as the top feeding section of bucket elevator, feeding intake inside needs manpower, can be more arduous so operate.Belt conveyor also is the same with helical conveyer system, mainly all is to carry by manpower.Then, also have these several devices all to work independently, if in producing secondary charging is arranged, also will refill a same equipment, so drop into so also larger.

The utility model content

The technical matters that (one) will solve

The technical problems to be solved in the utility model provides a kind of flow delivery systems that quantity-produced is totally-enclosed and degree of automation is high that is applicable to, and dust waves to prevent from occurring in process of production, the employee is tired and produce the phenomenons such as discontinuous.

(2) technical scheme

For reaching above-mentioned purpose, flow delivery systems of the present utility model comprises blower fan, several transfer feed bins that link to each other with described blower fan by pipeline respectively; Described transfer feed bin is provided with inlet point and discharging opening, and described inlet point is communicated with the discharge gate of several feed arrangements by pipeline, and described discharging opening is communicated with the feeding mouth of material handling apparatus by pipeline.

Preferably, described blower fan is roots blower, and described transfer feed bin is negative pressure stock bin.

Preferably, described transfer feed bin is provided with dust exhaustor.

Preferably, be respectively equipped with several valves on the described pipeline.

Preferably, described valve is operated pneumatic valve.

Preferably, described material handling apparatus is one or more in tripper, vibrating grizzly, ball grinding mill, wrapping machine, the water washing device.

Preferably, described feed arrangement comprises suction gun, described tripper, described vibrating grizzly and described ball grinding mill.

Further, described roots blower comprises the first roots blower and the second roots blower; Described transfer feed bin comprises the first transfer feed bin; Described suction gun comprises the first suction gun and the second suction gun; Described the first transfer feed bin links to each other with the first roots blower, and the inlet point of described the first transfer feed bin is communicated with the first suction gun, and the discharging opening of described the first transfer feed bin is communicated with the feeding mouth of described tripper.

Further, described transfer feed bin also comprises the second transfer feed bin and the 3rd transfer feed bin; Described vibrating grizzly comprises the first vibrating grizzly and the second vibrating grizzly; Described the second transfer feed bin links to each other with the second roots blower, and the inlet point of described the second transfer feed bin is communicated with the discharge gate of described tripper, and the discharging opening of described the second transfer feed bin is communicated with the feeding mouth of described the first vibrating grizzly; Described the 3rd transfer feed bin links to each other with the second roots blower, and the inlet point of described the 3rd transfer feed bin is communicated with the discharge gate of described tripper, and the discharging opening of described the 3rd transfer feed bin is communicated with the feeding mouth of described the second vibrating grizzly; The discharge gate of the first vibrating grizzly and the second vibrating grizzly is communicated with the feeding mouth of sub-material feed bin respectively.

Further, described transfer feed bin also comprises the 4th transfer feed bin; The transfer feed bin is communicated with ball grinding mill, wrapping machine or water washing device by the feeding feed bin, and the feeding feed bin comprises the first feeding feed bin, the second feeding feed bin and the 3rd feeding feed bin; Described the 4th transfer feed bin links to each other with the second roots blower, the inlet point of described the 4th transfer feed bin is communicated with the discharge gate of described sub-material feed bin, the discharging opening of described the 4th transfer feed bin is communicated with the feeding mouth of the first feeding feed bin, the discharge gate of described the first feeding feed bin is communicated with the feeding mouth of described ball grinding mill, and the discharge gate of described ball grinding mill is communicated with the inlet point of described the second transfer feed bin.

Further, described transfer feed bin also comprises the 5th transfer feed bin; Described the 5th transfer feed bin links to each other with the second roots blower, the inlet point of described the 5th transfer feed bin is communicated with the discharge gate of described sub-material feed bin, the discharging opening of described the 5th transfer feed bin is communicated with the feeding mouth of the second feeding feed bin, the discharge gate of described the second feeding feed bin is communicated with the feeding mouth of described wrapping machine, and the inlet point of described the 5th transfer feed bin is communicated with described the second suction gun.

Further, described transfer feed bin also comprises the 6th transfer feed bin; Described the 6th transfer feed bin links to each other with the second roots blower, the inlet point of described the 6th transfer feed bin is communicated with the discharge gate of described sub-material feed bin, the discharging opening of described the 6th transfer feed bin is communicated with the feeding mouth of the 3rd feeding feed bin, and the discharge gate of described the 3rd feeding feed bin is communicated with the feeding mouth of described water washing device.

Preferably, be respectively equipped with level-sensing device on described transfer feed bin and the described feeding feed bin.

(3) beneficial effect

The flow delivery systems that the utility model adopts technique scheme to provide, material can not land in the process of convey materials, can not be interrupted yet, and is simple to operate; Secondly, the utility model is totally-enclosed system, does not have dust to raise in the course of conveying outward, and dust pelletizing system is housed simultaneously, and the part dust that the blanking part can be produced siphons away, and can not impact workshop and staff; In addition, native system automation and integrated degree are high, and what operate and can compare is simple, do not need too many manpower control, the phenomenon of staff's fatigue can not occur.

Description of drawings

Fig. 1 is the constructional drawing of the utility model flow delivery systems.

Among the figure, 1: the four transfer feed bin; 2: the first feeding feed bins; 3: ball grinding mill; 4: the second suction guns; 5: the five transfer feed bins; 6: the second feeding feed bins; 7: wrapping machine; 8: the second transfer feed bins; 9: the first vibrating grizzlies; 10: the three transfer feed bins; 11: the second vibrating grizzlies; 12: the first roots blowers; 13: the first transfer feed bins; 14: tripper; 15: the first suction guns; 16: the first roots blowers; 17: the six transfer feed bins; 18: the three feeding feed bins; 19: water washing device; 20: the sub-material feed bin.

The specific embodiment

Below in conjunction with drawings and Examples the utility model flow delivery systems is described in further detail.Following examples are used for explanation the utility model, but are not used for limiting scope of the present utility model.

In description of the present utility model, need to prove, term " " center "; " vertically "; " laterally "; " on "; D score; " front ", " afterwards ", " left side ", " right side ", " vertically ", " level ", " top ", " end " " interior ", orientation or the position relationship of indications such as " outward " are based on orientation shown in the drawings or position relationship, only be for convenience of description the utility model and simplified characterization, rather than device or the element of indication or hint indication must have specific orientation, with specific orientation structure and operation, therefore can not be interpreted as restriction of the present utility model.In addition, term " first ", " second ", " the 3rd " only are used for describing purpose, and can not be interpreted as indication or hint relative importance.

In description of the present utility model, need to prove that unless clear and definite regulation and restriction are arranged in addition, term " installation ", " linking to each other ", " connection " should be done broad understanding, for example, can be captive joint, also can be to removably connect, or connect integratedly; Can be mechanical connection, also can be to be electrically connected; Can be directly to link to each other, also can indirectly link to each other by intermediary, can be the connection of two element internals.For the ordinary skill in the art, can particular case understand the concrete meaning of above-mentioned term in the utility model.

In addition, in description of the present utility model, except as otherwise noted, the implication of " a plurality of " is two or more, and the implication of " several " is one or more.

As shown in Figure 1, flow delivery systems of the present utility model comprises roots blower, several transfer feed bins that link to each other with roots blower by pipeline respectively, and this transfer feed bin is negative pressure stock bin.The transfer feed bin is provided with inlet point and discharging opening, its inlet point is communicated with the discharge gate of several feed arrangements by pipeline, its discharging opening is communicated with the feeding mouth of material handling apparatus by pipeline, wherein, be respectively equipped with several operated pneumatic valves on the pipeline, operated pneumatic valve can be pneumatic ball valve or Pneumatic butterfly valve, and the valve location on the pipeline and quantity are determined by the specific works situation of flow delivery systems.In addition, the transfer feed bin is provided with dust exhaustor.

Wherein, material handling apparatus is tripper 14, vibrating grizzly, ball grinding mill 3, wrapping machine 7 or water washing device 19 etc., and material handling apparatus can arrange according to the application purpose of flow delivery systems, is not limited to above-mentioned several forms of listing.Feed arrangement is suction nozzle, suction gun, Rotary feeder, tripper 14, vibrating grizzly or ball grinding mill 3 etc., material enters system through suction nozzle, suction gun or Rotary feeder, the material of process first treatment can enter again the transfer feed bin and be further processed, first treatment can be not identical with the mode of further processing, can be identical yet.The rifle body of suction gun comprises suction tube and is enclosed within the outer gas piping of suction tube, between gas piping and suction tube, be provided with anchor shaft at rifle body rear portion, outside the gas piping at rifle body rear portion, be arranged with one section sleeve pipe---regulate turning handle, have corresponding perforate at adjusting turning handle and gas piping one side, regulate the turning handle upside and have the strip slotted eye, to being provided with through hole at gas piping and suction tube in the strip slot hole, setscrew nut passes above-mentioned each perforate and will regulate turning handle, gas piping and suction tube and be fixedly connected on the anchor shaft, is provided with the suction protecting wire net at gas piping and suction tube leading section.

Below in conjunction with Fig. 1, the embodiment of flow delivery systems of the present utility model is described in detail.Roots blower comprises the first roots blower 12 and the second roots blower 16.The transfer feed bin comprises the first transfer feed bin 13, the second transfer feed bin 8, the 3rd transfer feed bin 10, the 4th transfer feed bin 1, the 5th transfer feed bin 5 and the 6th transfer feed bin 17.Suction gun comprises the first suction gun 15 and the second suction gun 4.Vibrating grizzly comprises the first vibrating grizzly 9 and the second vibrating grizzly 11.The transfer feed bin is communicated with ball grinding mill 3, wrapping machine 7 or water washing device 19 by the feeding feed bin, and the feeding feed bin comprises the first feeding feed bin 2, the second feeding feed bin 6 and the 3rd feeding feed bin 18.

Wherein, the first transfer feed bin 13 links to each other with the first roots blower 12, and the inlet point of the first transfer feed bin 13 is communicated with the first suction gun 15, and the discharging opening of the first transfer feed bin 13 is communicated with the feeding mouth of tripper 14.

Wherein, the second transfer feed bin 8 links to each other with the second roots blower 16, and the inlet point of the second transfer feed bin 8 is communicated with the discharge gate of tripper 14, and the discharging opening of the second transfer feed bin 8 is communicated with the feeding mouth of described the first vibrating grizzly 9; The 3rd transfer feed bin 10 links to each other with the second roots blower 16, and the inlet point of the 3rd transfer feed bin 10 is communicated with the discharge gate of tripper 14, and the discharging opening of the 3rd transfer feed bin 10 is communicated with the feeding mouth of the second vibrating grizzly 11; The discharge gate of the first vibrating grizzly 9 and the second vibrating grizzly 11 is communicated with the feeding mouth of sub-material feed bin 20 respectively.Sub-material feed bin 20 comprises nine feed bins, and sequence number is followed successively by a, b, c, d, e, f, g, h and i, and the material of the corresponding different-grain diameter of each feed bin has vibrating grizzly to distribute the material of different-grain diameter to enter corresponding feed bin.

Wherein, the 4th transfer feed bin 1 links to each other with the second roots blower 16, the inlet point of the 4th transfer feed bin 1 is communicated with the discharge gate of sub-material feed bin 20, the discharging opening of the 4th transfer feed bin 1 is communicated with the feeding mouth of the first feeding feed bin 2, the discharge gate of the first feeding feed bin 2 is communicated with the feeding mouth of ball grinding mill 3, and the discharge gate of ball grinding mill 3 is communicated with the inlet point of the second transfer feed bin 8.

Wherein, the 5th transfer feed bin 5 links to each other with the second roots blower 16, the inlet point of the 5th transfer feed bin 5 is communicated with the discharge gate of sub-material feed bin 20, the discharging opening of the 5th transfer feed bin 5 is communicated with the feeding mouth of the second feeding feed bin 6, the discharge gate of the second feeding feed bin 6 is communicated with the feeding mouth of wrapping machine 7, and the inlet point of the 5th transfer feed bin 5 is communicated with the second suction gun 4.

Wherein, the 6th transfer feed bin 17 links to each other with the second roots blower 16, the inlet point of the 6th transfer feed bin 17 is communicated with the discharge gate of sub-material feed bin 20, the discharging opening of the 6th transfer feed bin 17 is communicated with the feeding mouth of the 3rd feeding feed bin 18, and the discharge gate of the 3rd feeding feed bin 18 is communicated with the feeding mouth of water washing device 19.

Preferably, be respectively equipped with level-sensing device on transfer feed bin and the feeding feed bin, realize the monitoring to material in the feed bin, guarantee that mass transport is uninterrupted continuously.

The material handling apparatus of flow delivery systems comprises tripper 14, vibrating grizzly, ball grinding mill 3, wrapping machine 7 or 19 5 kinds of forms of water washing device in the present embodiment, can select several form to work individually or simultaneously by the switching of regulating operated pneumatic valve.

Use flow delivery systems of the present utility model material in the process of convey materials and can not land, also can not be interrupted, simple to operate; Secondly, the utility model is totally-enclosed system, does not have dust to raise in the course of conveying outward, and dust pelletizing system is housed simultaneously, and the part dust that the blanking part can be produced siphons away, and can not impact workshop and staff; In addition, native system automation and integrated degree are high, and what operate and can compare is simple, do not need too many manpower control, the phenomenon of staff's fatigue can not occur.

Above embodiment only is used for explanation the utility model, and be not limitation of the utility model, the those of ordinary skill in relevant technologies field, in the situation that does not break away from spirit and scope of the present utility model, can also make a variety of changes and modification, so all technical schemes that are equal to also belong to category of the present utility model.

Claims (13)

1. flow delivery systems, it is characterized in that: described flow delivery systems comprises blower fan, several transfer feed bins that link to each other with described blower fan by pipeline respectively; Described transfer feed bin is provided with inlet point and discharging opening, and described inlet point is communicated with the discharge gate of several feed arrangements by pipeline, and described discharging opening is communicated with the feeding mouth of material handling apparatus by pipeline.

2. flow delivery systems according to claim 1, it is characterized in that: described blower fan is roots blower, described transfer feed bin is negative pressure stock bin.

3. flow delivery systems according to claim 2, it is characterized in that: described transfer feed bin is provided with dust exhaustor.

4. flow delivery systems according to claim 3 is characterized in that: be respectively equipped with several valves on the described pipeline.

5. flow delivery systems according to claim 4, it is characterized in that: described valve is operated pneumatic valve.

6. each described flow delivery systems according to claim 1-5, it is characterized in that: described material handling apparatus is one or more in tripper (14), vibrating grizzly, ball grinding mill (3), wrapping machine (7), the water washing device (19).

7. flow delivery systems according to claim 6, it is characterized in that: described feed arrangement comprises suction gun, described tripper (14), described vibrating grizzly and described ball grinding mill (3).

8. flow delivery systems according to claim 7, it is characterized in that: described roots blower comprises the first roots blower (12) and the second roots blower (16); Described transfer feed bin comprises the first transfer feed bin (13); Described suction gun comprises the first suction gun (15) and the second suction gun (4); Described the first transfer feed bin (13) links to each other with the first roots blower (12), the inlet point of described the first transfer feed bin (13) is communicated with the first suction gun (15), and the discharging opening of described the first transfer feed bin (13) is communicated with the feeding mouth of described tripper (14).

9. flow delivery systems according to claim 8, it is characterized in that: described transfer feed bin also comprises the second transfer feed bin (8) and the 3rd transfer feed bin (10); Described vibrating grizzly comprises the first vibrating grizzly (9) and the second vibrating grizzly (11); Described the second transfer feed bin (8) links to each other with the second roots blower (16), the inlet point of described the second transfer feed bin (8) is communicated with the discharge gate of described tripper (14), and the discharging opening of described the second transfer feed bin (8) is communicated with the feeding mouth of described the first vibrating grizzly (9); Described the 3rd transfer feed bin (10) links to each other with the second roots blower (16), the inlet point of described the 3rd transfer feed bin (10) is communicated with the discharge gate of described tripper (14), and the discharging opening of described the 3rd transfer feed bin (10) is communicated with the feeding mouth of described the second vibrating grizzly (11); The discharge gate of the first vibrating grizzly (9) and the second vibrating grizzly (11) is communicated with the feeding mouth of sub-material feed bin (20) respectively.

10. flow delivery systems according to claim 9, it is characterized in that: described transfer feed bin also comprises the 4th transfer feed bin (1); The transfer feed bin is communicated with ball grinding mill (3), wrapping machine (7) or water washing device (19) by the feeding feed bin, and the feeding feed bin comprises the first feeding feed bin (2), the second feeding feed bin (6) and the 3rd feeding feed bin (18); Described the 4th transfer feed bin (1) links to each other with the second roots blower (16), the inlet point of described the 4th transfer feed bin (1) is communicated with the discharge gate of described sub-material feed bin (20), the discharging opening of described the 4th transfer feed bin (1) is communicated with the feeding mouth of the first feeding feed bin (2), the discharge gate of described the first feeding feed bin (2) is communicated with the feeding mouth of described ball grinding mill (3), and the discharge gate of described ball grinding mill (3) is communicated with the inlet point of described the second transfer feed bin (8).

11. flow delivery systems according to claim 10 is characterized in that: described transfer feed bin also comprises the 5th transfer feed bin (5); Described the 5th transfer feed bin (5) links to each other with the second roots blower (16), the inlet point of described the 5th transfer feed bin (5) is communicated with the discharge gate of described sub-material feed bin (20), the discharging opening of described the 5th transfer feed bin (5) is communicated with the feeding mouth of the second feeding feed bin (6), the discharge gate of described the second feeding feed bin (6) is communicated with the feeding mouth of described wrapping machine (7), and the inlet point of described the 5th transfer feed bin (5) is communicated with described the second suction gun (4).

12. flow delivery systems according to claim 11 is characterized in that: described transfer feed bin also comprises the 6th transfer feed bin (17); Described the 6th transfer feed bin (17) links to each other with the second roots blower (16), the inlet point of described the 6th transfer feed bin (17) is communicated with the discharge gate of described sub-material feed bin (20), the discharging opening of described the 6th transfer feed bin (17) is communicated with the feeding mouth of the 3rd feeding feed bin (18), and the discharge gate of described the 3rd feeding feed bin (18) is communicated with the feeding mouth of described water washing device (19).

13. flow delivery systems according to claim 12 is characterized in that: be respectively equipped with level-sensing device on described transfer feed bin and the described feeding feed bin.

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