CN114130271A - Float glass production multi-warehouse intelligent blending and mixing system - Google Patents

Abstract

The invention relates to the technical field of glass manufacturing, in particular to a float glass production multi-storage intelligent allocation and mixing system which comprises a powder blanking mechanism, a powder conveying belt, a mixture mixing mechanism, a mixture conveying belt, a clinker blanking mechanism, a clinker conveying belt and a feeding trolley.

Description

Float glass production multi-warehouse intelligent blending and mixing system

Technical Field

The invention relates to the technical field of glass manufacturing, in particular to a float glass production multi-warehouse intelligent blending and mixing system.

Background

In the production process of float glass, a batching system is the heaviest of the weights of each factory, the quality of a subsequent working section is determined by high-quality batch, the selection of batching electronic scales and the moisture of silica sand influence the quality of the batch at any moment, electronic scales of most factories select a decrement method electronic scale on electronic scales such as silica sand, dolomite, sodium carbonate and the like, the moisture detection of the silica sand is also a timing detection, a large error exists, and the influence on the quality of the batch is large.

Disclosure of Invention

Aiming at the problems, the invention provides a float glass production multi-warehouse intelligent blending and mixing system.

The technical scheme is that the float glass production multi-storage intelligent allocation and mixing system comprises a powder blanking mechanism, a powder conveying belt, a mixture mixing mechanism, a mixture conveying belt, a clinker blanking mechanism, a clinker conveying belt and a feeding trolley, wherein the powder blanking mechanism stores powder and conveys the powder to the powder conveying belt; the powder conveying belt is provided with an online water measuring point which can measure the water content in the powder, and conveys the powder in the powder blanking mechanism to the mixture mixing mechanism; the mixture mixing mechanism mixes a plurality of powder materials and conveys the mixture to a mixture conveying belt after mixing; the clinker blanking mechanism stores the clinker and conveys the clinker to a clinker conveying belt; the mixture conveying belt is provided with an online water measuring point which can measure the water content in the mixture, and conveys the mixture in the mixture mixing mechanism to the feeding trolley; the clinker conveyer belt conveys the clinker in the clinker blanking mechanism to the feeding trolley.

Optionally, the powder material comprises silica sand, soda ash, dolomite, limestone, feldspar, mirabilite and coal powder.

Further, the clinker is cullet.

It is optional, powder unloading mechanism includes the powder storage jar, the auger is carried to the powder electronic scale and weighs back powder, the storage has the powder in the powder storage jar, powder storage jar bottom discharge mouth and powder are carried the feed end intercommunication of auger, the powder is carried the auger and is carried the powder in the powder storage jar to the powder electronic scale, the powder is weighed to the powder electronic scale, and carry the auger through weighing back powder after weighing and carry the powder to the powder conveyer belt on.

Optionally, the mixture mixing mechanism includes the aggregate bin, divide the material pipe, first machine that mixes, the second mixes the machine, the conveyer pipe, buffer bin and buffer bin carry the auger, the aggregate bin is located the powder conveyer belt below, and aggregate bin top feed inlet can receive the powder that the powder conveyer belt carried, aggregate bin bottom and branch material pipe intercommunication, and the aggregate bin can weigh the powder that gets into, divide the material pipe to mix machine intercommunication with first machine and second respectively, divide the material pipe to carry the powder to first machine or second machine respectively, buffer bin passes through the connecting pipe and communicates with the discharge end of first machine and the discharge end of second machine respectively, buffer bin bottom discharge end and buffer bin carry the auger intercommunication, buffer bin carries the auger and carries the mixture to the mixture conveyer belt.

Optionally, the clinker discharging mechanism comprises a clinker storage tank, a clinker conveying auger, a clinker electronic scale and a weighed clinker conveying auger, clinker is stored in the clinker storage tank, a discharge port at the bottom of the clinker storage tank is communicated with a feed end of the clinker conveying auger, the clinker conveying auger conveys clinker in the clinker storage tank to the clinker electronic scale, the clinker electronic scale weighs the clinker, and the weighed clinker conveying auger conveys the powder to the clinker conveying belt.

The beneficial effects of the invention at least comprise one of the following;

1. through set up on line survey water spot on powder conveyer belt and mixture conveyer belt, it can the rapid survey take the content of moisture in the powder of silica sand as the owner, can improve the quality of whole compounding.

2. Powder and clinker are conveyed based on different conveying belts, are respectively treated and are conveyed to a feeding trolley together, so that the intelligent degree of the whole storage is greatly improved.

Drawings

FIG. 1 is a schematic diagram of a multi-warehouse intelligent blending and mixing system for float glass production;

FIG. 2 is a working block diagram of a float glass production multi-warehouse intelligent blending and mixing system;

FIG. 3 is a schematic structural view of a powder blanking mechanism;

FIG. 4 is a schematic structural view of a mixture mixing mechanism;

FIG. 5 is a schematic structural view of a clinker blanking mechanism;

labeled as: the device comprises a powder blanking mechanism 1, a powder conveying belt 2, a mixture mixing mechanism 3, a mixture conveying belt 4, a mixture conveying belt 5, a clinker conveying belt 6, a feeding trolley 7, a powder storage tank 8, a powder conveying auger 9, a powder electronic scale 10, a weighed powder conveying auger 11, a material collecting bin 12, a material distributing pipe 13, a first mixer 14, a second mixer 15, a conveying pipe 16, a buffer bin 17, a buffer bin conveying auger 18, a clinker storage tank 19, a clinker conveying auger 20, a clinker electronic scale 21 and a weighed clinker conveying auger 22.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly apparent, the present invention will be described in further detail with reference to the accompanying drawings and examples. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the scope of the invention.

In the description of the present invention, it should be noted that the terms "upper", "lower", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, which are only for convenience in describing the present invention and simplifying the description, but do not indicate or imply that the referred device or element must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention; the terms "first," "second," and the like, are used for descriptive purposes only and are not to be construed as indicating or implying relative importance, and furthermore, unless otherwise explicitly stated or limited, the terms "mounted," "connected," and "connected" are to be construed broadly and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

As shown in fig. 1 to 5, the float glass production multi-warehouse intelligent blending and mixing system comprises a powder blanking mechanism 1, a powder conveying belt 2, a mixture mixing mechanism 3, a mixture conveying belt 4, a clinker blanking mechanism 5, a clinker conveying belt 6 and a feeding trolley 7, wherein the powder blanking mechanism 1 stores powder and conveys the powder to the powder conveying belt 2; the powder conveyer belt 2 is provided with an online water measuring point which can test the water content in the powder, and the powder conveyer belt 2 conveys the powder in the powder blanking mechanism 1 to the mixture mixing mechanism 3; the mixture mixing mechanism 3 mixes a plurality of powder materials and conveys the mixture to the mixture conveying belt 4 after mixing; the clinker blanking mechanism 5 stores the clinker and conveys the clinker to the clinker conveying belt 6; the mixture conveying belt 4 is provided with an online water measuring point which can test the water content in the mixture, and the mixture conveying belt 4 conveys the mixture in the mixture mixing mechanism 3 to the feeding trolley 7; the clinker conveyer belt 6 conveys the clinker in the clinker blanking mechanism 5 to the feeding trolley 7.

The purpose of design like this, through set up on powder conveyer belt and mixture conveyer belt on the online water spot of surveying, it can the rapid survey use the silica sand content of moisture in the powder as the owner, can improve the quality of whole compounding, adopts powder and grog to carry based on the conveyer belt of difference, handles respectively, carries to the pay-off dolly in the lump again, increases substantially the intelligent degree of whole storage.

In this embodiment, the powder material includes silica sand, soda ash, dolomite, limestone, feldspar, mirabilite and pulverized coal, and the clinker is cullet.

It is noted that in some usage scenarios, the pulverized coal is also referred to as carbon powder, which is substantially the same material.

In the embodiment, the concrete composition of powder unloading mechanism is disclosed, wherein powder unloading mechanism 1 includes powder storage jar 8, auger 9 is carried to the powder, auger 11 is carried to powder electronic scale 10 and the powder after weighing, the powder is stored with the powder in the powder storage jar 8, 8 bottom discharge mouths of powder storage jar are communicated with the feed end that auger 9 was carried to the powder, auger 9 is carried to the powder in powder storage jar 8 to powder electronic scale 10 to the powder, powder electronic scale 10 weighs the powder, and carry the auger 11 through weighing the back powder after weighing and carry the powder to the powder conveyer belt 2 on.

In actual use, a plurality of powder blanking mechanisms are correspondingly arranged on the same powder conveying belt, the weight of each raw material is convenient to control, usually, each raw material corresponds to a single powder blanking mechanism, and along with the difference of the whole formula, in the powder blanking mechanism where the raw material with high proportion is located under the common condition, the same powder electronic scale corresponds to the plurality of powder blanking mechanisms, so that the large-dose weighing can be carried out at one time without stopping the conveying belt for waiting.

It should be noted that, in order to control the whole system, the number of times of ingredient and the number of times of ingredient return for each storage tank are usually set at the operation console, and if the value at the "ingredient number setting" is less than or equal to the value at the "ingredient number return", the ingredient flow is stopped, and after the discharge of an ingredient in the mixer is completed, the ingredient is not continued.

In the embodiment, the concrete composition of the mixture mixing mechanism is disclosed, wherein the mixture mixing mechanism 3 comprises a collecting bin 12, a distributing pipe 13, a first mixer 14, a second mixer 15, a conveying pipe 16, a buffer bin 17 and a buffer bin conveying auger 18, the collecting bin 12 is positioned below the powder conveying belt 2, a feed inlet at the top of the collecting bin 12 can receive the powder conveyed by the powder conveying belt 2, the bottom of the collecting bin 12 is communicated with the distributing pipe 13, the material collecting bin 12 can weigh the entering powder materials, the material distributing pipe 13 is respectively communicated with the first mixer 14 and the second mixer 15, the material distributing pipe 13 can respectively convey the powder materials to the first mixer 14 or the second mixer 15, the buffer bin 17 is respectively communicated with the discharge end of the first mixer 14 and the discharge end of the second mixer 15 through a connecting pipe 16, the discharge end at the bottom of the buffer bin 17 is communicated with the buffer bin conveying auger 18, and the buffer bin conveying auger 18 conveys the mixture materials to the mixture conveying belt 4.

In the in-service use, the aggregate bin can weigh the powder that gets into, the completion is weighed the plate valve in the back depiler pipe and can be opened for the powder gets into and mixes in the corresponding machine that mixes, the plate valve is because open through trachea atmospheric pressure under the normal conditions, there is trachea gas leakage or the not enough condition of atmospheric pressure, part material glues on the plate valve and the plate valve crosses groove material all around and can lead to the condition that the plate valve blocked when adding the mixer pan feeding, thereby lead to the plate valve to open or close not live, because of exceeding the settlement time when opening or closing, when the plate valve does not have the position of on/off photoelectric switch, the feed proportioning system can suspend the batching.

In the embodiment, the specific composition of the clinker discharging mechanism is further disclosed, wherein the clinker discharging mechanism 5 comprises a clinker storage tank 19, a clinker conveying auger 20, a clinker electronic scale 21 and a weighed clinker conveying auger 22, clinker is stored in the clinker storage tank 19, a discharge port at the bottom of the clinker storage tank 19 is communicated with a feed end of the clinker conveying auger 20, the clinker conveying auger 20 conveys clinker in the clinker storage tank 19 to the clinker electronic scale 21, the clinker is weighed by the clinker electronic scale 21, and powder is conveyed to the clinker conveying belt 6 by the weighed clinker conveying auger 22 after weighing.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments or portions thereof without departing from the spirit and scope of the invention.

Claims (6)

1. The utility model provides a float glass production multi-storage intelligent allotment and compounding system which characterized in that: the device comprises a powder blanking mechanism (1), a powder conveying belt (2), a mixture mixing mechanism (3), a mixture conveying belt (4), a clinker blanking mechanism (5), a clinker conveying belt (6) and a feeding trolley (7), wherein the powder blanking mechanism (1) stores powder and conveys the powder to the powder conveying belt (2); the powder conveying belt (2) is provided with an online water measuring point which can measure the water content in the powder, and the powder conveying belt (2) conveys the powder in the powder blanking mechanism (1) to the mixture mixing mechanism (3); the mixture mixing mechanism (3) mixes a plurality of powder materials and conveys the mixture to the mixture conveying belt (4) after mixing; the clinker blanking mechanism (5) stores clinker and conveys the clinker to a clinker conveying belt (6); the mixture conveying belt (4) is provided with an online water measuring point which can test the water content in the mixture, and the mixture conveying belt (4) conveys the mixture in the mixture mixing mechanism (3) to the feeding trolley (7); the clinker conveyer belt (6) conveys the clinker in the clinker blanking mechanism (5) to the feeding trolley (7).

2. The float glass production multi-warehouse intelligent blending and mixing system of claim 1, wherein: the powder material comprises silica sand, soda ash, dolomite, limestone, feldspar, mirabilite and pulverized coal.

3. The float glass production multi-warehouse intelligent blending and mixing system of claim 2, wherein: the clinker is cullet.

4. The float glass production multi-warehouse intelligent blending and mixing system of claim 3, wherein: powder unloading mechanism (1) carries auger (9), powder electronic scale (10) and weighs back powder and carries auger (11) including powder storage jar (8), powder, the powder is stored in powder storage jar (8), and powder storage jar (8) bottom discharge mouth and powder carry the feed end intercommunication of auger (9), the powder is carried the powder of auger (9) in with powder storage jar (8) and is carried to powder electronic scale (10), powder electronic scale (10) are weighed the powder, and weigh the back through weighing back powder carry auger (11) carry the powder to the powder conveyer belt (2) on.

5. The float glass production multi-warehouse intelligent blending and mixing system of claim 4, wherein: the mixture mixing mechanism (3) comprises a material collecting bin (12), a material distributing pipe (13), a first mixing machine (14), a second mixing machine (15), a conveying pipe (16), a buffer bin (17) and a buffer bin conveying auger (18), wherein the material collecting bin (12) is positioned below the powder conveying belt (2), a feed inlet at the top of the material collecting bin (12) can receive powder conveyed by the powder conveying belt (2), the bottom of the material collecting bin (12) is communicated with the material distributing pipe (13), the material collecting bin (12) can weigh the entering powder, the material distributing pipe (13) is respectively communicated with the first mixing machine (14) and the second mixing machine (15), the material distributing pipe (13) can convey the powder to the first mixing machine (14) or the second mixing machine (15), the buffer bin (17) is respectively communicated with the discharge end of the first mixing machine (14) and the discharge end of the second mixing machine (15) through a connecting pipe (16), the discharge end at the bottom of the buffer bin (17) is communicated with a buffer bin conveying auger (18), and the buffer bin conveying auger (18) conveys the mixture to the mixture conveying belt (4).

6. The float glass production multi-warehouse intelligent blending and mixing system of claim 5, wherein: clinker unloading mechanism (5) include clinker storage jar (19), clinker transport auger (20), clinker electronic scale (21) and weigh back clinker transport auger (22), be stored with the clinker in clinker storage jar (19), clinker storage jar (19) bottom discharge mouth and clinker transport auger (20) the feed end intercommunication, clinker transport auger (20) carry the clinker in clinker storage jar (19) to clinker electronic scale (21), clinker electronic scale (21) weigh the clinker, and weigh the back and carry the auger (22) to carry the powder to clinker conveyer belt (6) through weighing back clinker.

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