CN211026029U - Glue production system - Google Patents

Abstract

The utility model discloses a glue production system, including looping through feed tank, agitator tank, condenser and the holding vessel that first pipeline links to each other, be equipped with the pump machine that is used for making the glue motion on the first pipeline, the delivery port of condenser has the cooling tank through the second pipe connection, be equipped with the pump machine that is used for making cold water flow to the cooling tank from the condenser on the second pipeline, the cooling tank upper end is the opening setting, the water inlet of condenser links to each other with the cooling tank through the third pipeline. The processed glue is cooled by the condenser and then enters the storage tank, so that the system has high cooling efficiency. Meanwhile, water after heat exchange between the condenser and glue can flow into the cooling tank to dissipate heat, and the water in the cooling tank can also provide cooling water for the condenser, so that the condenser is ensured to have a better condensation effect.

Description

Glue production system

Technical Field

The utility model relates to a glue production, concretely relates to glue production system.

Background

At present, a glue production system mainly comprises a feeding device, a mixing drum, a pipeline and a storage tank, wherein a manufacturing raw material enters the mixing drum through the feeding device, the mixing drum is used for mixing and processing the raw material, and the raw material is conveyed into the storage tank through the pipeline after being processed into glue.

Current glue production system, like the utility model patent of the chinese grant bulletin number CN204891711U discloses a starch glue making devices, including export groove, pumping pipeline, material output pipeline, holding vessel and agitator tank, pumping pipeline one end is put into the export groove in, the other end inserts from the top of holding vessel and stores up the jar internally, the lower extreme of holding vessel is connected to pipeline one end, it is internal that the agitator tank is inserted from the top of agitator tank to the other end, material output pipeline one end is inserted in the storage jar, the other end is for connecting the delivery outlet, be equipped with the (mixing) shaft and connect in the agitator tank at the epaxial impeller of stirring, install the multi-claw filter of "Y" type between the bottom of (mixing) shaft and agitator tank.

The device heats the stirring bin body through the electric heating jacket, and cools off the glue that is processed out through stewing, and cooling efficiency is low to lead to low in production efficiency.

SUMMERY OF THE UTILITY MODEL

To the deficiency that prior art exists, the utility model aims at providing a glue production system has better cooling efficiency.

In order to achieve the above purpose, the utility model provides a following technical scheme:

the utility model provides a glue production system, includes feed tank, agitator tank, condenser and the holding vessel that loops through first pipeline and link to each other, be equipped with the pump machine that is used for making the glue motion on the first pipeline, the delivery port of condenser has the cooling tank through the second pipe connection, be equipped with the pump machine that is used for making cold water flow to the cooling tank from the condenser on the second pipeline, the cooling tank upper end is the opening setting, the water inlet of condenser links to each other with the cooling tank through the third pipeline.

Through adopting above-mentioned technical scheme, the glue that the processing is good cools off through the condenser, reentries into the holding vessel to this system has higher cooling efficiency. Meanwhile, water after heat exchange between the condenser and glue can flow into the cooling tank to dissipate heat, and the water in the cooling tank can also provide cooling water for the condenser, so that the condenser is ensured to have a better condensation effect.

The utility model discloses a further set up to: be equipped with the stirring storehouse in the agitator tank, be equipped with rabbling mechanism in the stirring storehouse, the stirring storehouse lower extreme is equipped with the play rubber tube that passes the agitator tank, goes out the first pipeline between rubber tube intercommunication agitator tank and the condenser, the steam heating chamber has been formed between agitator tank and the stirring storehouse, agitator tank one side is equipped with steam boiler, steam boiler's air supply port is linked together through fourth pipeline and steam heating chamber, steam boiler's inlet links to each other with the cooling tank through fifth pipeline, be equipped with on the fifth pipeline and be used for supplying water into the pump machine in the steam boiler.

Through adopting above-mentioned technical scheme, can give the agitator tank even heating through steam to the glue that makes the stirring has better quality. The water in the cooling tank is only needed to supply water to the steam boiler without being externally connected with other water sources, and the operation is convenient.

The utility model discloses a further set up to: steam heating chamber lower extreme passes through sixth pipe connection cooling tank, install vapour and liquid separator on the sixth pipeline, vapour and liquid separator's gas outlet passes through the outlet duct and connects in steam heating chamber, vapour and liquid separator's liquid outlet passes through the drain pipe and connects in cooling tank.

Through adopting above-mentioned technical scheme, can realize separating steam and water to reuse steam, promoted resource utilization.

The utility model discloses a further set up to: be equipped with the metering control valve on the fifth pipeline, the sixth pipeline is kept away from steam heating chamber one end and is kept away from condenser one end with the second pipeline and all communicates the fifth pipeline, and the sixth pipeline is kept away from steam heating chamber one end and is kept away from condenser one end with the second pipeline and all is located the metering control valve and keeps away from steam boiler one end.

By adopting the technical scheme, the water with higher temperature after heat exchange and the residual hotter water in the steam heating cavity are used as the water supply to be supplied to the steam boiler, so that the heat required to be absorbed after the water is heated into the steam is reduced, and the energy is saved. If the water supply amount is insufficient, water is supplied from the water in the cooling tank.

The utility model discloses a further set up to: the pump is positioned at one side of the metering control valve close to the steam boiler.

By adopting the technical scheme, the water with higher temperature after heat exchange and the residual hotter water in the steam heating cavity are used as far as possible and pass through the metering control valve, so that the heat energy is fully utilized.

The utility model discloses a further set up to: the steam heating cavity is internally provided with a steam distribution ring pipe for uniformly dispersing steam, the steam distribution ring pipe is communicated with the fourth pipeline, and the steam distribution ring pipe is provided with a plurality of air distribution holes.

Through adopting above-mentioned technical scheme, can be when steam gets into the steam zone of heating, more even dispersion makes the stirring storehouse be heated more evenly at the steam zone of heating, has promoted the thermal efficiency.

The utility model discloses a further set up to: the stirring mechanism comprises a stirring shaft arranged in the vertical direction, a driving motor used for driving the rotation of the stirring shaft and a double-helix stirring blade fixedly arranged outside the stirring shaft, the driving motor is fixedly arranged at the upper end of the stirring tank, and the upper end of the stirring shaft penetrates through the stirring bin and the stirring tank to be connected to the output end of the driving motor.

Through adopting above-mentioned technical scheme, adopt double helix form stirring vane to make the raw materials in the stirring storehouse turn over from top to bottom and stir, make the raw materials stir more abundant and be heated more evenly in process of production, promoted the quality of produced glue.

The utility model discloses a further set up to: the stirring bin inner wall pastes and is equipped with scrapes the pole, scrape the pole both ends and pass through connecting rod fixed connection in (mixing) shaft.

Through adopting above-mentioned technical scheme, in the course of working, scrape the pole and rotate with the (mixing) shaft is synchronous, can strike off gluing glue on the inner wall in stirring storehouse in the in-process that glue turned over from top to bottom and stirs, avoid causing the wasting of resources.

The utility model has the advantages of it is following: 1. the cooling efficiency is better; 2. heat energy and water resources are fully utilized; 3. has better production efficiency.

Drawings

FIG. 1 is a schematic structural diagram of an embodiment;

FIG. 2 is a schematic structural view of a stirring tank in the example.

Reference numerals: 1. a first conduit; 2. a feed tank; 3. a stirring tank; 4. a condenser; 5. a storage tank; 6. a pump machine; 7. a second conduit; 8. a cooling pool; 9. a stirring bin; 10. discharging the rubber tube; 11. opening and closing the valve; 12. a stirring mechanism; 13. a stirring shaft; 14. a drive motor; 15. a double helix stirring blade; 16. a scraping rod; 17. a connecting rod; 18. a steam boiler; 19. a fourth conduit; 20. a steam heating cavity; 21. a steam-distributing ring pipe; 22. a fifth pipeline; 23. six pipelines; 24. a gas-liquid separator; 25. a metering control valve; 26. a third pipeline; 27. an air outlet pipe; 28. a liquid outlet pipe.

Detailed Description

As shown in fig. 1, a glue production system includes a feed tank 2, an agitation tank 3, a condenser 4, and a storage tank 5 connected in this order through a first pipe 1. One of the first conduits 1 is provided with a pump 6 for moving the glue. The water outlet of the condenser 4 is connected with a cooling pool 8 through a second pipeline 7, and a pump 6 for enabling cold water to flow from the condenser 4 to the cooling pool 8 is arranged on the second pipeline 7. The upper end of the cooling pool 8 is provided with an opening, and the water inlet of the condenser 4 is connected with the cooling pool 8 through a third pipeline 26.

The glue enters the stirring tank 3 from the feeding tank 2, is cooled by the condenser 4 after being stirred in the stirring tank 3, and is finally stored in the storage tank 5. And the water after heat exchange in the condenser 4 is introduced into the cooling pool 8 for cooling, and the cold water cooled in the cooling pool 8 is supplied into the condenser 4 to continuously exchange heat with the glue, so that the glue is better cooled.

Specifically, as shown in fig. 2, a stirring bin 9 is arranged in the stirring tank 3, and the lower end of the stirring bin 9 is fixedly connected to the inner bottom surface of the stirring tank 3. The lower end of the stirring bin 9 is provided with a rubber outlet pipe 10 penetrating through the stirring tank 3, and the rubber outlet pipe 10 is provided with an opening and closing valve 11. The rubber outlet pipe 10 is communicated with the first pipeline 1 between the stirring tank 3 and the condenser 4.

As shown in fig. 2, a stirring mechanism 12 is arranged in the stirring bin 9, and the stirring mechanism 12 includes a stirring shaft 13 arranged in the vertical direction, a driving motor 14 for driving the stirring shaft 13 to rotate, and a double-helix stirring blade 15 fixedly arranged outside the stirring shaft 13. The driving motor 14 is fixedly arranged at the upper end of the stirring tank 3, and the upper end of the stirring shaft 13 penetrates through the stirring bin 9 and the stirring tank 3 to be connected to the output end of the driving motor 14. The inner wall of the stirring bin 9 is provided with a scraping rod 16, and two ends of the scraping rod 16 are fixedly connected with the stirring shaft 13 through a connecting rod 17. In operation, the driving motor 14 drives the stirring shaft 13 to rotate, and further drives the double helix stirring blade 15 to stir the glue. After the stirring is finished, the opening and closing valve 11 on the glue outlet pipe 10 is opened, so that the glue is discharged out of the stirring bin 9. While stirring, the scraping rod 16 scrapes off the glue in the stirring bin 9, so that the probability that the glue is remained on the inner wall of the stirring bin 9 is reduced.

As shown in fig. 1 and 2, a steam heating chamber 20 is formed between the stirring tank 3 and the stirring bin 9, a steam boiler 18 is arranged on one side of the stirring tank 3, and an air supply port of the steam boiler 18 is communicated with the steam heating chamber 20 through a fourth pipeline 19. A steam-distributing loop 21 for uniformly distributing the steam is provided in the steam heating chamber 20. The steam-distributing pipe 21 is located at the lower end of the steam heating chamber 20 and is fixedly connected to the steam heating chamber 20. The steam-distributing ring pipe 21 is communicated with the fourth pipeline 19, and a plurality of air-distributing holes are formed in the steam-distributing ring pipe 21.

As shown in fig. 1, in order to make full use of the heat energy, the liquid inlet of the steam boiler 18 is connected to the cooling tank 8 via a fifth pipe 22, and the fifth pipe 22 is provided with a pump 6 for supplying water into the steam boiler 18. The lower end of the steam heating cavity 20 is connected with the cooling pool 8 through a sixth pipeline 23, and a gas-liquid separator 24 is arranged on the sixth pipeline 23. The gas outlet of the gas-liquid separator 24 is connected to the steam heating chamber 20 through a gas outlet pipe 27, and the liquid outlet of the gas-liquid separator 24 is connected to the cooling pond 8 through a liquid outlet pipe 28. The fifth pipe 22 is provided with a metering control valve 25, and the metering control valve 25 is positioned at the end of the pump 6 remote from the steam boiler 18. The end of the sixth conduit 23 remote from the steam heating chamber 20 and the end of the second conduit 7 remote from the condenser 4 are both connected to the fifth conduit 22 and the ends of the sixth conduit 23 remote from the steam heating chamber 20 and the second conduit 7 remote from the condenser 4 are both located at the end of the metering control valve 25 remote from the steam boiler 18.

The steam boiler 18 supplies steam into the stirring tank 3 through the fourth pipe 19, thereby heating the stirring tank 3. The steam heating chamber 20 is filled with new steam continuously, the steam with higher temperature moves upwards, and the steam with lower temperature and the generated condensed water flow into the gas-liquid separator 24 through the sixth pipeline 23. The steam flows back to the steam heating chamber 20 after passing through the gas-liquid separator 24 and the water flows into the fifth conduit 22 through the sixth conduit 23. And the water cooled in the second pipe 7 after the glue water is cooled down also flows into the fifth pipe 22, and enters the steam boiler 18 after passing through the metering control valve 25 to supply water to the steam boiler 18. If the water in the second and sixth tubes 7 and 23 is not enough, the water in the cooling pond 8 can be supplied to the steam boiler 18, ensuring the normal operation of the steam boiler 18.

The specific working principle of the system is as follows:

1. the glue enters the stirring tank 3 from the feeding tank 2;

2. the steam boiler 18 supplies steam into the stirring tank 3 through a fourth pipe 19, thereby heating the stirring bin 9; during the heating, the steam having a relatively low temperature and the generated condensed water flow into the gas-liquid separator 24 through the sixth conduit 23. The steam flows back to the steam heating cavity 20 after passing through the gas-liquid separator 24, and the water flows into the fifth pipeline 22 through the sixth pipeline 23;

3. the stirring mechanism 12 stirs the heated glue in the stirring bin 9 to mix the glue;

4. opening an opening and closing valve 11 on the rubber outlet pipe 10 after stirring is finished, cooling through a condenser 4, and finally storing in a storage tank 5;

5. the cooled cold water in the cooling pool 8 is supplied into the condenser 4 to exchange heat with the glue, so that the glue is cooled well;

6. the water after heat exchange in the condenser 4 is introduced into the fifth pipeline 22;

7. if the water introduced into the fifth pipeline 22 is excessive, the excessive water flows into the cooling pool 8; if too little water is introduced into the fifth conduit 22, the cooling pond 8 may supply water to the fifth conduit 22 to ensure that the steam boiler 18 is supplied with water properly and is operating properly.

It is above only the utility model discloses a preferred embodiment, the utility model discloses a scope of protection does not only confine above-mentioned embodiment, the all belongs to the utility model discloses a technical scheme under the thinking all belongs to the utility model discloses a scope of protection. It should be noted that, for those skilled in the art, various modifications and decorations can be made without departing from the principle of the present invention, and these modifications and decorations should also be regarded as the protection scope of the present invention.

Claims (8)

1. The utility model provides a glue production system, characterized by: including feeding tank (2), agitator tank (3), condenser (4) and holding vessel (5) that loop through first pipeline (1) and link to each other, be equipped with pump (6) that are used for making the glue motion on first pipeline (1), the delivery port of condenser (4) is connected with cooling tank (8) through second pipeline (7), be equipped with pump (6) that are used for making cold water flow to cooling tank (8) from condenser (4) on second pipeline (7), cooling tank (8) upper end is the opening setting, the water inlet of condenser (4) links to each other with cooling tank (8) through third pipeline (26).

2. The glue production system of claim 1, wherein: be equipped with stirring storehouse (9) in agitator tank (3), be equipped with rabbling mechanism (12) in stirring storehouse (9), stirring storehouse (9) lower extreme is equipped with rubber outlet pipe (10) that passes agitator tank (3), rubber outlet pipe (10) intercommunication agitator tank (3) and condenser (4) between first pipeline (1), steam heating chamber (20) have been formed between agitator tank (3) and stirring storehouse (9), agitator tank (3) one side is equipped with steam boiler (18), the air supply mouth of steam boiler (18) is linked together through fourth pipeline (19) and steam heating chamber (20), the inlet of steam boiler (18) links to each other with cooling tank (8) through fifth pipeline (22), be equipped with on fifth pipeline (22) and be used for supplying water pump machine (6) in steam boiler (18).

3. The glue production system of claim 2, wherein: steam heating chamber (20) lower extreme passes through sixth pipeline (23) and connects cooling tank (8), install vapour and liquid separator (24) on sixth pipeline (23), the gas outlet of vapour and liquid separator (24) passes through outlet duct (27) and connects in steam heating chamber (20), the liquid outlet of vapour and liquid separator (24) passes through drain pipe (28) and connects in cooling tank (8).

4. A glue production system according to claim 3, wherein: be equipped with metering control valve (25) on fifth pipeline (22), steam heating chamber (20) one end is kept away from in sixth pipeline (23) and condenser (4) one end is kept away from in second pipeline (7) all communicates fifth pipeline (22), and steam heating chamber (20) one end is kept away from in sixth pipeline (23) and condenser (4) one end is kept away from in second pipeline (7) one end all is located metering control valve (25) and keeps away from steam boiler (18) one end.

5. The glue production system of claim 4, wherein: the pump (6) is positioned at one side of the metering control valve (25) close to the steam boiler (18).

6. The glue production system of claim 5, wherein: a steam distribution ring pipe (21) used for uniformly dispersing steam is arranged in the steam heating cavity (20), the steam distribution ring pipe (21) is communicated with a fourth pipeline (19), and a plurality of air distribution holes are formed in the steam distribution ring pipe (21).

7. A glue production system according to claim 3, wherein: rabbling mechanism (12) are including setting up (mixing) shaft (13), being used for driving (mixing) shaft (13) pivoted driving motor (14) and fixed two spiral stirring leaf (15) of locating outside (mixing) shaft (13) along vertical direction, driving motor (14) fixed mounting is in agitator tank (3) upper end, (mixing) shaft (13) upper end is passed stirring storehouse (9) and agitator tank (3) and is connected in driving motor (14) output.

8. The glue production system of claim 7, wherein: the inner wall of the stirring bin (9) is provided with a scraping rod (16), and two ends of the scraping rod (16) are fixedly connected to the stirring shaft (13) through a connecting rod (17).

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