CN215176471U - Airflow drying energy-saving system - Google Patents
Airflow drying energy-saving system Download PDFInfo
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- CN215176471U CN215176471U CN202121333182.6U CN202121333182U CN215176471U CN 215176471 U CN215176471 U CN 215176471U CN 202121333182 U CN202121333182 U CN 202121333182U CN 215176471 U CN215176471 U CN 215176471U
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Abstract
The utility model discloses an air flow drying energy-saving system, which comprises a storage box and an outer protective box, wherein a plurality of connecting rods are fixedly arranged at the bottom end of the outer protective box, a conveying assembly is arranged between the storage box and the outer protective box, a heating mechanism is arranged inside the outer protective box, and a separating mechanism is arranged on one side of the outer protective box; the heating mechanism comprises an airflow heating pipe, an air heater is fixedly arranged at the outer end of the airflow heating pipe, two fin heat exchangers are fixedly arranged between the outer protective box and the airflow heating pipe, a fixed frame is fixedly arranged in the airflow heating pipe, and a fan is fixedly arranged in the fixed frame; and a cyclone separator is arranged on one side of the storage box. The utility model discloses a heating mechanism can use the superimposed heating methods of multiple mode to heat the inside air of air heating pipe, and heating effect is better, and starch drying efficiency is high, and output is high, and energy consumption reduces, and environmental protection more improves the company's benefit.
Description
Technical Field
The utility model relates to a dry technical field of starch, concretely relates to air drying economizer system.
Background
Starch is a raw material widely used in food, industry, paper industry and pharmaceutical industry, and starch drying is the most important link in production, and the energy consumption in the drying process is large, so how to save energy is a problem which is difficult to solve in the starch production process.
At present, most of airflow drying energy-saving systems are not completely designed in practical use, the heating mode is not reasonably designed, the energy consumption is high, the starch drying yield is low, and the company benefit is low.
Therefore, it is necessary to develop an energy-saving pneumatic drying system to solve the above problems.
Disclosure of Invention
The utility model aims at providing an air current drying economizer system can use the superimposed heating methods of multiple mode to heat the inside air of air heating pipe through heating mechanism, and heating effect is better, and starch drying efficiency is high, and output is high, and energy consumption reduces, and environmental protection more improves company's benefit to solve the above-mentioned weak point in the technique.
In order to achieve the above object, the present invention provides the following technical solutions: an airflow drying energy-saving system comprises a storage box and an outer protection box, wherein a plurality of connecting rods are fixedly arranged at the bottom end of the outer protection box, the bottom ends of the connecting rods are fixedly connected with the top end of the storage box, a conveying assembly is arranged between the storage box and the outer protection box, a heating mechanism is arranged in the outer protection box, and a separating mechanism is arranged on one side of the outer protection box;
the heating mechanism comprises an airflow heating pipe, the airflow heating pipe is fixedly arranged inside an outer protection box, an air heater is fixedly arranged at the outer end of the airflow heating pipe, two fin heat exchangers are fixedly arranged between the outer protection box and the airflow heating pipe, the two fin heat exchangers are both arranged at the outer end of the air heater, a liquid feeding pipeline is fixedly arranged on one side of each of the two fin heat exchangers, a steam conveying pipeline is fixedly arranged on one side of each of the two fin heat exchangers, a liquid discharging pipeline is fixedly arranged on one side of each of the two fin heat exchangers, a steam output pipeline is fixedly arranged on one side of each of the two fin heat exchangers, the liquid discharging pipelines and the steam output pipelines are both arranged at the bottoms of the liquid feeding pipelines and the steam conveying pipelines, a fixing frame is fixedly arranged inside the airflow heating pipe, and a fan is fixedly arranged inside the fixing frame;
the separating mechanism comprises a second conveying pipeline, the second conveying pipeline is fixedly arranged at the top end of the airflow heating pipe, a gathering cover is fixedly arranged at the bottom end of the second conveying pipeline, the bottom end of the gathering cover is in contact with the top end of the fixing frame, one end of the second conveying pipeline extends out of the top end of the outer protection box, a cyclone separator is arranged on one side of the storage box, one end of the second conveying pipeline is fixedly connected with one side of the cyclone separator, a gas discharge pipeline is fixedly arranged at the top end of the cyclone separator, and a material discharge pipeline is fixedly arranged at the bottom end of the cyclone separator.
Preferably, the conveying assembly comprises a spiral conveying rod, a motor, a first conveying pipeline and a supporting base, the supporting base is fixedly arranged inside the airflow heating pipe, the motor is fixedly arranged at the bottom end of the storage box, the spiral conveying rod is arranged between the supporting base and the bottom end inside the storage box, two ends of the spiral conveying rod are respectively movably connected with the bottom end of the supporting base and the bottom end inside the storage box through bearings, and the bottom end of the spiral conveying rod extends out of the bottom end of the storage box and is fixedly connected with the top end of an output shaft of the motor.
Preferably, the stirring subassembly includes two pivots and a plurality of stirring board, and is a plurality of the stirring board is all fixed to be established in two pivot outer ends, two the pivot is all established inside the air heating pipe, two the pivot is all established in the support base bottom, two both ends pass through bearing swing joint, two respectively with the inside front and back both ends of air heating pipe around the pivot rear end all passes the air heating pipe and extends to outer guard box rear end.
Preferably, a motor is fixedly arranged at the rear end of the outer protection box, and the front end of an output shaft of the motor is fixedly connected with the rear end of one of the rotating shafts.
Preferably, two the motor rear end all is equipped with the belt pulley, two be equipped with the belt between the belt pulley.
Preferably, two second supporting legs are fixedly arranged at the bottom end of the storage box.
Preferably, a support frame is fixedly arranged at the outer end of the cyclone separator.
Preferably, a raw material feeding pipeline is fixedly arranged on one side of the storage tank.
In the technical scheme, the utility model provides a technological effect and advantage:
1. the air flow conveyed to the inside of the air flow heating pipe can be heated by the working of the air heater, the heated air flow of the material is supported and lifted by the aid of the suction of the fan, the material is dried after flowing through a certain height, the finned heat exchanger can exchange heat by using liquid and also exchange heat by using steam, a liquid feeding pipeline and a liquid discharging pipeline are used for liquid heat exchange conveying, a steam conveying pipeline and a steam output pipeline are used for orderly conveying, condensed water of a thermoelectric center exchanges heat with air through the finned heat exchanger, the air heats the air flow heating pipe after the temperature of the condensed water is raised, the temperature of the cold air is raised, the using amount of the steam is greatly reduced, compared with the prior art, the air in the air flow heating pipe can be heated by using a heating mode of superposition of various modes, the heating effect is better, the starch drying efficiency is high, the yield is high, and the energy consumption is reduced, the environment is more protected;
2. through gathering the cover gathering material, inside second pipeline carried the material to cyclone, cyclone can collect the material inside self, and cyclone is dry to get rid of the pipeline discharge with humid air from gas, and pipeline output can be got rid of from the material to dry material, compares with prior art, can separate humid air and material once more, plays dry effect once more.
Drawings
In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings needed to be used in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments described in the present invention, and other drawings can be obtained by those skilled in the art according to these drawings.
Fig. 1 is a schematic view of the overall structure of the present invention;
FIG. 2 is a cross-sectional view of a storage box and an outer protective box of the present invention;
FIG. 3 is a rear view of the outer protective case of the present invention;
fig. 4 is an enlarged view of the structure of the part a of fig. 2 according to the present invention;
fig. 5 is a perspective view of the material reversing assembly of the present invention;
fig. 6 is a perspective view of the support base of the present invention;
fig. 7 is a perspective view of the fixing frame of the present invention.
Description of reference numerals:
1 storage box, 2 spiral conveying rods, 3 motors, 4 first conveying pipelines, 5 outer protective boxes, 6 airflow heating pipes, 7 supporting bases, 8 air heaters, 9 finned heat exchangers, 10 liquid feeding pipelines, 11 steam conveying pipelines, 12 liquid discharging pipelines, 13 steam outputting pipelines, 14 fixing frames, 15 fans, 16 gathering covers, 17 second conveying pipelines, 18 motors, 19 cyclone separators, 20 gas removing pipelines, 21 material removing pipelines, 22 supporting frames, 23 connecting rods, 24 second supporting legs, 25 raw material feeding pipelines, 26 rotating shafts, 27 material turning plates, 28 belt pulleys and 29 belts.
Detailed Description
In order to make the technical solution of the present invention better understood by those skilled in the art, the present invention will be further described in detail with reference to the accompanying drawings.
The utility model provides an air flow drying energy-saving system as shown in figure 1, figure 2, figure 4, figure 6 and figure 7, which comprises a storage box 1 and an outer protective box 5, wherein the bottom end of the outer protective box 5 is fixedly provided with a plurality of connecting rods 23, the bottom ends of the connecting rods 23 are fixedly connected with the top end of the storage box 1, a conveying assembly is arranged between the storage box 1 and the outer protective box 5, a heating mechanism is arranged inside the outer protective box 5, and a separating mechanism is arranged on one side of the outer protective box 5;
the heating mechanism comprises an airflow heating pipe 6, the airflow heating pipe 6 is fixedly arranged inside an outer protective box 5, an air heater 8 is fixedly arranged at the outer end of the airflow heating pipe 6, two fin heat exchangers 9 are fixedly arranged between the outer protective box 5 and the airflow heating pipe 6, the two fin heat exchangers 9 are both arranged at the outer end of the air heater 8, a liquid feeding pipeline 10 is fixedly arranged at one side of each of the two fin heat exchangers 9, a steam conveying pipeline 11 is fixedly arranged at one side of each of the two fin heat exchangers 9, a liquid discharging pipeline 12 is fixedly arranged at one side of each of the two fin heat exchangers 9, a steam output pipeline 13 is fixedly arranged at one side of each of the two fin heat exchangers 9, the liquid discharging pipeline 12 and the steam output pipeline 13 are both arranged at the bottoms of the liquid feeding pipeline 10 and the steam conveying pipeline 11, a fixing frame 14 is fixedly arranged inside the airflow heating pipe 6, a fan 15 is fixedly arranged inside the fixed frame 14.
Further, in the above technical scheme, the conveying assembly includes a screw conveying rod 2, a motor 3, a first conveying pipeline 4 and a supporting base 7, the supporting base 7 is fixedly arranged inside the airflow heating pipe 6, the motor 3 is fixedly arranged at the bottom end of the storage box 1, the screw conveying rod 2 is arranged between the supporting base 7 and the bottom end inside the storage box 1, two ends of the screw conveying rod 2 are respectively movably connected with the bottom end of the supporting base 7 and the bottom end inside the storage box 1 through bearings, and the bottom end of the screw conveying rod 2 extends from the bottom end of the storage box 1 and is fixedly connected with the top end of an output shaft of the motor 3.
Further, in the above technical scheme, two second supporting legs 24 are fixedly arranged at the bottom end of the storage box 1, and the second supporting legs 24 support the storage box 1.
Further, in the above technical solution, a raw material feeding pipeline 25 is fixedly arranged on one side of the storage tank 1, and the raw material feeding pipeline 25 is convenient for conveying materials into the storage tank 1.
The implementation mode is specifically as follows: when the device is used, the motor 3 is started, the motor 3 drives the spiral conveying rod 2 to rotate when working, the spiral conveying rod 2 rotates to enable materials in the storage box 1 to be conveyed into the airflow heating pipe 6, then the air heater 8 and the fan 15 are started, the air heater 8 can heat airflow conveyed into the airflow heating pipe 6 when working, the heated airflow of the materials is supported and rises by means of the suction force of the fan 15, the materials are dried after flowing through a certain height, the finned heat exchanger 9 can exchange heat by using liquid and also exchange heat by using steam, the liquid feeding pipeline 10 and the liquid discharging pipeline 12 are used for liquid heat exchange conveying, the steam conveying pipeline 11 and the steam output pipeline 13 are used for orderly conveying, condensed water in a thermoelectric center passes through the finned heat exchanger 9 to exchange with air, the air heats the airflow heating pipe 6 after the temperature of the condensed water rises, and the temperature of cold air rises, greatly reduced the quantity of steam, and the comdenstion water at thermoelectric center is then through cooling recycle, the energy saving, the utility model discloses a heating mechanism can use the superimposed heating methods of multiple mode to heat 6 inside air of air heating pipe, and heating effect is better, and starch drying efficiency is high, and output is high, and energy consumption reduces, and environmental protection more, and this embodiment has specifically solved that most air flow drying economizer system structural design is imperfect among the prior art, and the heating methods design is unreasonable, and energy consumption hinges highly, and starch drying output is low, the low problem of company's benefit.
The utility model provides a dry economizer system of air current as shown in figure 1 and figure 2, including separating mechanism, separating mechanism includes second pipeline 17, second pipeline 17 is fixed to be established on 6 tops of air current heating pipe, 17 bottom mounting of second pipeline is equipped with gathering cover 16, 16 bottoms of gathering cover and the contact of fixed 14 tops of frame, second pipeline 17 one end is extended from 5 tops of outer guard box, 1 one side of storage box is equipped with cyclone 19, 17 one end of second pipeline and 19 one side fixed connection of cyclone, 19 fixed being equipped with gas removal pipeline 20 in cyclone 19 tops, 19 bottom mounting of cyclone is equipped with the material and gets rid of pipeline 21.
Further, in the above technical solution, a support frame 22 is fixedly arranged at the outer end of the cyclone separator 19, and the support frame 22 supports the cyclone separator 19.
The implementation mode is specifically as follows: the gathering cover 16 is used for gathering materials, then the materials can be conveyed to the interior of the cyclone separator 19 through the second conveying pipeline 17, the cyclone separator 19 can collect the materials in the interior of the cyclone separator 19, the cyclone separator 19 is used for drying and discharging wet air from the gas discharging pipeline 20, dry materials are output from the material discharging pipeline 21, and then the drying of the materials is completed.
The utility model provides an air flow drying energy-saving system as shown in figures 1-5, which comprises a material turning component, wherein the material turning component comprises two rotating shafts 26 and a plurality of material turning plates 27, the plurality of material turning plates 27 are all fixedly arranged at the outer ends of the two rotating shafts 26, the two rotating shafts 26 are all arranged inside the air flow heating pipe 6, the two rotating shafts 26 are all arranged at the bottom of the supporting base 7, the front and back ends of the two rotating shafts 26 are respectively movably connected with the front and back ends inside the air flow heating pipe 6 through bearings, the back ends of the two rotating shafts 26 extend to the back end of the outer protective box 5 through the air flow heating pipe 6, the motor 18 works to drive the two rotating shafts 26 to rotate, the two rotating shafts 26 can drive the material turning plates 27 to rotate, the material conveyed into the air flow heating pipe 6 can be turned through the rotation of the material turning plates 27, the material after turning can more easily rise under the drawing force of the fan 15, the drying efficiency can be improved.
Further, in the above technical solution, a motor 18 is fixedly arranged at the rear end of the outer protection box 5, the front end of the output shaft of the motor 18 is fixedly connected with the rear end of one of the rotating shafts 26, and the motor 18 drives one of the rotating shafts 26 to rotate when working.
Further, in the above technical solution, two belt pulleys 28 are respectively sleeved at the rear ends of the two motors 18, a belt 29 is arranged between the two belt pulleys 28, and the two rotating shafts 26 are driven to rotate together by the belt pulleys 28 and the belt 29.
While certain exemplary embodiments of the present invention have been described above by way of illustration only, it will be apparent to those of ordinary skill in the art that the described embodiments may be modified in various different ways without departing from the spirit and scope of the present invention. Accordingly, the drawings and description are illustrative in nature and should not be construed as limiting the scope of the invention.
Claims (8)
1. The utility model provides a pneumatic drying economizer system, includes storage box (1) and outer guard box (5), outer guard box (5) bottom mounting is equipped with a plurality of connecting rods (23), and is a plurality of connecting rod (23) bottom and storage box (1) top fixed connection, be equipped with between storage box (1) and the outer guard box (5) and carry subassembly, its characterized in that: a heating mechanism is arranged in the outer protective box (5), and a separating mechanism is arranged on one side of the outer protective box (5);
the heating mechanism comprises an airflow heating pipe (6), the airflow heating pipe (6) is fixedly arranged inside an outer protective box (5), an air heater (8) is fixedly arranged at the outer end of the airflow heating pipe (6), two fin heat exchangers (9) are fixedly arranged between the outer protective box (5) and the airflow heating pipe (6), the two fin heat exchangers (9) are respectively arranged at the outer ends of the air heater (8), a liquid feeding pipeline (10) is fixedly arranged at one side of each of the two fin heat exchangers (9), a steam conveying pipeline (11) is fixedly arranged at one side of each of the two fin heat exchangers (9), a liquid discharging pipeline (12) is fixedly arranged at one side of each of the two fin heat exchangers (9), a steam output pipeline (13) is fixedly arranged at one side of each of the two fin heat exchangers (9), the liquid discharging pipeline (12) and the steam output pipeline (13) are respectively arranged at the bottoms of the liquid feeding pipeline (10) and the steam conveying pipeline (11), a fixed frame (14) is fixedly arranged inside the airflow heating pipe (6), and a fan (15) is fixedly arranged inside the fixed frame (14);
separating mechanism includes second pipeline (17), second pipeline (17) are fixed to be established on air heating pipe (6) top, second pipeline (17) bottom mounting is equipped with gathering cover (16), gathering cover (16) bottom and fixed frame (14) top contact, second pipeline (17) one end is extended from outer guard box (5) top, storage box (1) one side is equipped with cyclone (19), second pipeline (17) one end and cyclone (19) one side fixed connection, cyclone (19) top is fixed and is equipped with gas and gets rid of pipeline (20), cyclone (19) bottom mounting is equipped with the material and gets rid of pipeline (21).
2. The pneumatic drying energy-saving system as claimed in claim 1, wherein: the conveying assembly comprises a spiral conveying rod (2), a motor (3), a first conveying pipeline (4) and a supporting base (7), the supporting base (7) is fixedly arranged inside an airflow heating pipe (6), the motor (3) is fixedly arranged at the bottom end of a storage box (1), the spiral conveying rod (2) is arranged between the supporting base (7) and the bottom end inside the storage box (1), two ends of the spiral conveying rod (2) are respectively movably connected with the bottom end of the supporting base (7) and the bottom end inside the storage box (1) through bearings, and the bottom end of the spiral conveying rod (2) extends out of the bottom end of the storage box (1) and is fixedly connected with the top end of an output shaft of the motor (3).
3. The pneumatic drying energy-saving system as claimed in claim 1, wherein: the stirring subassembly includes two pivot (26) and a plurality of stirring board (27), and is a plurality of stirring board (27) are all fixed to be established in two pivot (26) outer ends, two inside airflow heating pipe (6) is all established in pivot (26), two pivot (26) are all established in supporting pedestal (7) bottom, two pivot (26) front and back both ends respectively with airflow heating pipe (6) inside around both ends pass through bearing swing joint, two pivot (26) rear end all passes airflow heating pipe (6) and extends to outer guard box (5) rear end.
4. The pneumatic drying energy-saving system as claimed in claim 3, wherein: the rear end of the outer protection box (5) is fixedly provided with a motor (18), and the front end of an output shaft of the motor (18) is fixedly connected with the rear end of one rotating shaft (26).
5. The airflow drying energy-saving system according to claim 4, characterized in that: two motor (18) rear end all is equipped with belt pulley (28), two be equipped with belt (29) between belt pulley (28).
6. The pneumatic drying energy-saving system as claimed in claim 1, wherein: two second supporting legs (24) are fixedly arranged at the bottom end of the storage box (1).
7. The pneumatic drying energy-saving system as claimed in claim 1, wherein: and a support frame (22) is fixedly arranged at the outer end of the cyclone separator (19).
8. The pneumatic drying energy-saving system as claimed in claim 1, wherein: and a raw material feeding pipeline (25) is fixedly arranged on one side of the storage box (1).
Priority Applications (1)
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CN202121333182.6U CN215176471U (en) | 2021-06-16 | 2021-06-16 | Airflow drying energy-saving system |
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CN202121333182.6U CN215176471U (en) | 2021-06-16 | 2021-06-16 | Airflow drying energy-saving system |
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CN215176471U true CN215176471U (en) | 2021-12-14 |
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CN202121333182.6U Active CN215176471U (en) | 2021-06-16 | 2021-06-16 | Airflow drying energy-saving system |
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- 2021-06-16 CN CN202121333182.6U patent/CN215176471U/en active Active
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