CN211261470U - Water circulation system of bottle cooling machine - Google Patents

Abstract

The utility model discloses a cold bottle machine water circulating system, which comprises a conveyor belt, the five-stage basin, the shower that corresponds, it is first, second grade basin export is respectively through respective circulating pump, the spray pump is connected to UHT equipment, reconnect to the shower of mating separately in UHT equipment after the heat transfer, the third, the level four basin export is connected to first respectively through respective spray pump, two tubular heat exchanger, through first, two tubular heat exchanger link to each other with running water cooling system, reconnect to the shower of mating separately after the running water heat transfer, fifth stage basin export is connected third tubular heat exchanger through its spray pump, link to each other with cooling tower cooling system through third tubular heat exchanger, reconnect to its shower of mating after the cooling water heat transfer. The system can effectively reduce the use of the electric energy, the process tower water and the ice water by the bottle cooling machine, and can utilize the heat energy absorbed by spray water to perform UHT sterilization and improve the RO water production efficiency.

Description

Water circulation system of bottle cooling machine

Technical Field

The utility model belongs to bottle cooling machine, concretely relates to bottle cooling machine water circulating system.

Background

At present, most beverage production enterprises are equipped with a cold bottle machine for spray cooling of canned beverages. Generally, a plurality of water tanks are disposed below a conveyor belt of a bottle cooling machine, and the beverage bottles passing through the water tanks are subjected to spray cooling with gradually decreasing temperatures. Because the temperature of the sprayed water rises, extra energy is needed to cool the water and the water is used for circulating spraying, so that the energy consumption is huge and the waste of heat of the sprayed water exists. In addition, each water tank is provided with a circulating pump and a spraying pump, and the water tanks are opened simultaneously for a long time, so that certain energy waste exists.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that a cold bottle machine water circulating system is provided, its heat energy that sprays back water can rational utilization reduces the energy extravagant.

In order to solve the technical problem, the utility model discloses a following technical scheme:

the utility model provides a bottle cooler water circulating system includes the conveyer belt, arrange the five-stage basin in the below along the conveyer belt, arrange in the conveyer belt top and match with each basin and to forming water circulating's five sections shower, first, second grade basin export is respectively through respective circulating pump, the spray pump is connected to UHT equipment, reconnect to respectively mating shower in UHT equipment after the heat transfer, third, fourth grade basin export is connected to first, two tubular heat exchanger respectively through respective spray pump, link to each other through first, two tubular heat exchanger and running water cooling system, reconnect to respectively mating shower after the running water heat transfer, fifth grade basin export connects third tubular heat exchanger through its spray pump, link to each other through third tubular heat exchanger and cooling tower cooling system, reconnect to its mating shower after the cooling water heat transfer.

And the tap water cooling system exchanges heat through the first and second tubular heat exchangers and then is conveyed to the RO unit through a pipeline.

The cooling tower cooling system is also respectively connected with the tap water cooling system through the first plate-type heat exchanger and the second plate-type heat exchanger, and is respectively connected to the first tubular heat exchanger and the second tubular heat exchanger after cooling tap water.

The cooling system of the cooling tower is also connected with the refrigerating machine system through a third plate heat exchanger, and is cooled by the refrigerating water and then connected to a third tube heat exchanger.

The first and second water tanks are also respectively connected with a steam heat-supplementing pipe.

By adopting the water circulation system of the bottle cooling machine, the water in the first and second water tanks with higher temperature after being sprayed is conveyed to UHT equipment, heat energy is provided for UHT sterilization, and the water is conveyed to the spray pipe for spraying after being cooled; the water in the third and fourth water tanks is cooled by tap water and then is conveyed to the spray pipe for spraying, and the tap water after heat exchange is used for water production of the RO unit, so that the water collection efficiency is higher; and the water in the fifth water tank is subjected to heat exchange through the cooling water of the cooling tower and then is conveyed to the spray pipe for spraying. Therefore, the heat of the circulating water can be effectively utilized, and tap water is introduced for cooling, so that the effects of energy conservation and environmental protection are achieved.

Drawings

The following detailed description of the present invention is made with reference to the accompanying drawings and the embodiments:

fig. 1 is a schematic structural diagram of a water circulation system of a bottle cooling machine of the present invention.

Detailed Description

The utility model discloses a cold bottle machine water circulating system is as shown in fig. 1, it mainly includes conveyer belt 1, arrange in five grades of basins 2a ~ 2e of below along conveyer belt 1, arrange in conveyer belt 1 top and match five sections shower 3 to forming hydrologic cycle with each basin 2, five grades of basins 2a ~ 2e reduce from a left side to the right side is used for the refrigerated temperature gradually, above-mentioned part also is the main constitution of cold bottle machine, it needs the explanation here, in order to more clearly convenient show the pipeline arrangement of this system, two of longitudinal symmetry have been drawn into to the cold bottle machine that actually is one in fig. 1. Different from the prior art: outlets of the first and second water tanks 2a and 2b are respectively connected to UHT equipment 6 through respective circulating pump 4 and spray pump 5, after heat exchange in the UHT equipment 6, the UHT equipment is connected to the matched spray pipes 3, a circulating pump is canceled from a third-stage water tank 2c, a spray pump 5 with larger power is directly adopted for energy saving, namely, the outlets of the third and fourth water tanks 2c and 2d are respectively connected to the first and second tubular heat exchangers 7a and 7b through respective spray pumps 5, is connected with a tap water cooling system 8 through a first tubular heat exchanger 7a and a second tubular heat exchanger 7b, is connected with the respective matched spray pipes 3 after the heat exchange of tap water, the outlet of the ce of the fifth-level water tank is connected with a third tubular heat exchanger 7c through a spray pump 5, is connected with a cooling tower cooling system 9 through a third tubular heat exchanger 7c, and is connected to the matched spray pipe 3 after heat exchange by cooling water. And the tap water cooling system 8 exchanges heat through the first and second tubular heat exchangers 7a and 7b and then transmits the heat to the RO unit through a pipeline. The cooling system of the cooling tower is also respectively connected with the tap water cooling system 8 through a first plate heat exchanger 10a and a second plate heat exchanger 10b, and is respectively connected to a first tubular heat exchanger 7a and a second tubular heat exchanger 7b after cooling tap water. The cooling tower cooling system 9 is also connected to a chiller system 11 via a third plate heat exchanger 10c, cooled by chilled water and then connected to a third tube heat exchanger 10 c. The first and second water tanks 2a, 2b are also respectively connected with a steam heat-supplementing pipe 12 for steam heat-supplementing 12 the water in the first and second water tanks. The five-level water tanks 2a to 2e are also connected with a water replenishing pipe 13 for replenishing water.

When in use, after the spraying heat exchange, the water temperature in the first-stage water tank 2a reaches 65 ℃, the water is pumped out by the circulating pump 4 and conveyed upwards to UHT equipment 6 by the spraying pump 5 for UHT sterilization, after the heat exchange temperature is reduced to 60 ℃, the water is input into the spraying pipe 3 for spraying beverage bottles, after the temperature is reduced, the beverage bottles are returned to the first-stage water tank 2a, and the circulation is carried out; the second-stage water tank 2b circulates like the first emergency water tank 2a, and water with the temperature of 55 ℃ is conveyed to UHT equipment 6 for sterilization and then is sprayed and cooled; starting from the third-stage water tank 2c, because the spraying water temperature is low and cannot be used for UHT sterilization, namely 50 ℃, 45 ℃ and 35 ℃, when the environment temperature is cold, the tap water can be input to the first plate-type heat exchanger 7a and the second plate-type heat exchanger 7b by the tap water cooling system 8, the water pumped out by the spraying pump 5 is subjected to heat exchange and cooling respectively for the third-stage water tank 2c and the fourth-stage water tank 2d, and the water is sprayed by the spraying pipe 3 after being cooled and then returns to the third-stage water tank 2c and the fourth-stage water tank 2 d; when the temperature of the ring is higher, the cooling system 9 of the cooling tower can be started, tap water is cooled through the first plate heat exchanger 10a and the second plate heat exchanger 10b, and the tap water is cooled through the tap water and the water pumped out from the third water tank 2c and the fourth water tank 2d to reach the required temperature. The water pumped out by the spray pump 5 from the fifth-stage water tank 2e can be cooled by heat exchange through the third tubular heat exchanger 7c by the cooling tower cooling system 9 when the ring temperature is relatively cold, and then is circulated by spraying through the spray pipe 3, and when the ring temperature is relatively high, the refrigerating machine system 11 is started again, the cooling water temperature of the cooling tower cooling system 9 is reduced through the third plate heat exchanger 10c, and then the water pumped out from the fifth-stage water tank 2e is cooled by heat exchange.

To sum up, adopt the utility model discloses a cold bottle machine water circulating system can effectively reduce the cold bottle machine to electric energy, technology tower water and frozen water's use, but also can utilize the absorbed heat energy of shower water, carries out UHT and disinfects and improve RO system water efficiency.

However, those skilled in the art should realize that the above embodiments are only used for illustrating the present invention and not used as a limitation of the present invention, and that the changes and modifications to the above embodiments are within the scope of the appended claims as long as they are within the true spirit of the present invention.

Claims (5)

1. The utility model provides a bottle cooling machine water circulating system, includes the conveyer belt, arranges in the five-level basin of below along the conveyer belt, arranges in the conveyer belt top and matches with each basin to five sections shower that form hydrologic cycle, its characterized in that: the outlets of the first-stage water tank and the second-stage water tank are respectively connected to UHT equipment through respective circulating pumps and spray pumps, and then connected to respective paired spray pipes after heat exchange in the UHT equipment, the outlets of the third-stage water tank and the fourth-stage water tank are respectively connected to the first-tube heat exchanger and the second-tube heat exchanger through respective spray pumps, connected with a tap water cooling system through the first-tube heat exchanger and the second-tube heat exchanger, connected to respective paired spray pipes after heat exchange of tap water, and the outlet of the fifth-stage water tank is connected with the third-tube heat exchanger through the spray pump, connected with a cooling tower cooling system through the third-tube heat exchanger, and connected to the paired spray pipes after heat exchange.

2. A bottle cooler water circulating system according to claim 1, wherein: and the tap water cooling system exchanges heat through the first and second tubular heat exchangers and then is conveyed to the RO unit through a pipeline.

3. A bottle cooler water circulating system according to claim 1, wherein: the cooling tower cooling system is also respectively connected with the tap water cooling system through the first plate-type heat exchanger and the second plate-type heat exchanger, and is respectively connected to the first tubular heat exchanger and the second tubular heat exchanger after cooling tap water.

4. A bottle cooler water circulating system according to claim 1, wherein: the cooling system of the cooling tower is also connected with the refrigerating machine system through a third plate heat exchanger, and is cooled by the refrigerating water and then connected to a third tube heat exchanger.

5. A bottle cooler water circulating system according to claim 1, wherein: the first and second water tanks are also respectively connected with a steam heat-supplementing pipe.

Images