CN205340716U - Feeding system for composite manufacturing - Google Patents
Feeding system for composite manufacturing Download PDFInfo
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- CN205340716U CN205340716U CN201620084110.5U CN201620084110U CN205340716U CN 205340716 U CN205340716 U CN 205340716U CN 201620084110 U CN201620084110 U CN 201620084110U CN 205340716 U CN205340716 U CN 205340716U
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- blender
- feeding system
- dosing pump
- feeding
- storage vat
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Abstract
The utility model discloses a feeding system for composite manufacturing, including a feedway, the 2nd feedway, the 3rd feedway and blender, a feedway feeds through with the bottom of blender, the 2nd feeding system feeds through with the bottom of blender, the 3rd feeding system includes agitator and measuring pump, the discharge gate of agitator has connected gradually the delivery pump, coarse filter and storage vat, the discharge gate of storage vat and the pan feeding mouth of measuring pump intercommunication, the discharge gate of measuring pump is connected with fine filter, fine filter's discharge gate and the central pan feeding pipe intercommunication in blender bottom, the top of blender one side is equipped with the discharging pipe. This feeding system degree of automation is high, and labor operational intensity hangs down, adopts the mode that the resin was stuck with paste with pigment is stuck with paste and the magnesium oxide paste is separately handled, and the ration is accurate reliable, the effective quality that improves final material paste of ability to effectively improve combined material's production efficiency and quality, also reduced manufacturing cost.
Description
Technical field
This utility model belongs to composite production technical field, especially relates to a kind of composite production feeding system.
Background technology
Material in process of production, is stuck with paste feeding streamline by feeding system and is carried out the techniques such as follow-up forming and hardening again by composite, therefore expects that the quality of the quality the stuck with paste composite for producing has a great impact.Current feeding system be first by each raw material manually quantitatively after put into mixing in-tank mixing in batches, it is re-fed into streamline, mixed process often occurs caking phenomenon, cause that the composite produced does not meet industry standard, and the cost of labor of this feed mode is higher, is unfavorable for the long-term stability development of enterprise.
Utility model content
Technical problem to be solved in the utility model is to provide a kind of composite production feeding system, and this feeding system automaticity is high, and quantitative accurate is reliable, and labor intensity is low, can be effectively improved production efficiency and the quality of composite.
For solving above-mentioned technical problem, the technical solution adopted in the utility model is:
A kind of composite production feeding system, including the first feeding device, second feeding device, 3rd feeding device and blender, first feeding device is connected with the bottom of blender by feeder sleeve I, second feeding system is connected with the bottom of blender by feeder sleeve II, 3rd feeding system includes agitator and dosing pump, the discharging opening of agitator is connected with delivery pump in turn by pipeline, coarse filter and storage vat, the discharging opening of storage vat is connected with the feeding mouth of dosing pump by material control valve, the discharging opening of dosing pump is connected to fine filtrator by pipeline, the discharging opening of fine filtrator is connected with the feeding pipe of blender bottom center by pipeline, the top of blender side is provided with discharge nozzle.
Described first feeding device includes storage vat I and dosing pump I, and the discharging opening of storage vat I is connected by the feeding mouth of material control valve I and dosing pump I, and the discharging opening of dosing pump I is connected with feeder sleeve I;Second feeding device includes storage vat II and dosing pump II, and the discharging opening of storage vat II is connected by the feeding mouth of material control valve II and dosing pump II, and the discharging opening of dosing pump II is connected with feeder sleeve II.
Compared with prior art, the utility model has the advantages that: this feeding system automaticity is high, manual operation intensity is low, adopt resin paste to stick with paste with pigment paste and magnesium oxide and separate the mode processed, quantitative accurate is reliable, the quality that final material is stuck with paste being effectively improved, thus being effectively increased production efficiency and the quality of composite, also reducing production cost.
Accompanying drawing explanation
Below in conjunction with the drawings and specific embodiments, this utility model is described in further detail.
Fig. 1 is structural representation of the present utility model.
Wherein, 1, storage vat I, 11, material control valve I, 2, dosing pump I, 21, feeder sleeve I, 3, storage vat II, 31, material control valve II, 4, dosing pump II, 41, feeder sleeve II, 5, blender, 51, discharge nozzle, 52, feeding pipe, 6, agitator, 7, delivery pump, 8, coarse filter, 81, fine filtrator, 9, storage vat, 91, dosing pump, 92, material control valve, 10, pipeline.
Detailed description of the invention:
As shown in Figure 1, a kind of composite production feeding system, including the first feeding device, second feeding device, 3rd feeding device and blender 5, first feeding device is connected with the bottom of blender 5 by feeder sleeve I21, second feeding system is connected with the bottom of blender 5 by feeder sleeve II41, 3rd feeding system includes agitator 6 and dosing pump 91, the discharging opening of agitator 6 is connected with delivery pump 7 in turn by pipeline 10, coarse filter 8 and storage vat 9, the discharging opening of storage vat 9 is connected with the feeding mouth of dosing pump 91 by material control valve 92, the discharging opening of dosing pump 91 is connected to fine filtrator 81 by pipeline 10, the discharging opening of fine filtrator 81 is connected with the feeding pipe 52 of blender 5 bottom center by pipeline 10, the top of blender 5 side is provided with discharge nozzle 51.
In this utility model, the first feeding device includes storage vat I1 and dosing pump I2, and the discharging opening of storage vat I1 is connected by the feeding mouth of material control valve I11 and dosing pump I2, and the discharging opening of dosing pump I2 is connected with feeder sleeve I21;Second feeding device includes storage vat II3 and dosing pump II4, and the discharging opening of storage vat II3 is connected by the feeding mouth of material control valve II31 and dosing pump II4, and the discharging opening of dosing pump II4 is connected with feeder sleeve II41, thus realizing packet feed.
Composite produces pigment paste used and magnesium oxide is stuck with paste and sent in blender 5 through the first feeding device and the second feeding device respectively, is undertaken quantitatively by dosing pump I2 and dosing pump II4;Resin used and other raw materials are sent in agitator 6, sent in coarse filter 8 by delivery pump 7 after being sufficiently stirred for mixing and once filter, and store to storage vat 9, then by material control valve 92, the resin paste mixed is sent into dosing pump 91 quantification, send into after quantitatively and be re-fed in blender 5 after carrying out secondary filter in fine filtrator 81, stick with paste with pigment paste and magnesium oxide and be mixed into material paste, deliver to the subsequent production carrying out composite on streamline finally by discharge nozzle 51.This feeding system automaticity is high, and quantitative accurate is reliable, and labor intensity is low, is effectively increased production efficiency and the quality of composite, and reduces production cost to a certain extent.
Claims (2)
1. a composite production feeding system, it is characterized in that: include the first feeding device, second feeding device, 3rd feeding device and blender, described first feeding device is connected with the bottom of blender by feeder sleeve I, described second feeding system is connected with the bottom of blender by feeder sleeve II, described 3rd feeding system includes agitator and dosing pump, the discharging opening of described agitator is connected with delivery pump in turn by pipeline, coarse filter and storage vat, the discharging opening of described storage vat is connected with the feeding mouth of dosing pump by material control valve, the discharging opening of described dosing pump is connected to fine filtrator by pipeline, the discharging opening of described fine filtrator is connected with the feeding pipe of blender bottom center by pipeline, the top of described blender side is provided with discharge nozzle.
2. a kind of composite production feeding system according to claim 1, it is characterized in that: described first feeding device includes storage vat I and dosing pump I, the discharging opening of described storage vat I is connected by the feeding mouth of material control valve I and dosing pump I, and the discharging opening of described dosing pump I is connected with feeder sleeve I;Described second feeding device includes storage vat II and dosing pump II, and the discharging opening of described storage vat II is connected by the feeding mouth of material control valve II and dosing pump II, and the discharging opening of described dosing pump II is connected with feeder sleeve II.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201620084110.5U CN205340716U (en) | 2016-01-28 | 2016-01-28 | Feeding system for composite manufacturing |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN201620084110.5U CN205340716U (en) | 2016-01-28 | 2016-01-28 | Feeding system for composite manufacturing |
Publications (1)
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CN205340716U true CN205340716U (en) | 2016-06-29 |
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CN201620084110.5U Active CN205340716U (en) | 2016-01-28 | 2016-01-28 | Feeding system for composite manufacturing |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN114454448A (en) * | 2021-12-15 | 2022-05-10 | 宿迁市金田塑业有限公司 | Manufacturing process and intelligent manufacturing equipment of color base film based on multidirectional stretching |
-
2016
- 2016-01-28 CN CN201620084110.5U patent/CN205340716U/en active Active
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN114454448A (en) * | 2021-12-15 | 2022-05-10 | 宿迁市金田塑业有限公司 | Manufacturing process and intelligent manufacturing equipment of color base film based on multidirectional stretching |
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