CN218620361U - Empty can washing water of ring-pull can and recycling system of heat energy thereof - Google Patents

Abstract

The utility model provides an empty can washing of easy open can water and recycle system of heat energy thereof belongs to water recovery technical field. The utility model comprises a plate heat exchanger, a sterile water recovery tank, a sugar dissolving hot water tank, a RO water storage tank and a spraying machine storage water tank, wherein the plate heat exchanger is provided with a recovery tank sterile water inlet, a RO water inlet, a cooling sterile water outlet and a RO water outlet, a first centrifugal pump is arranged between the sterile water recovery tank and the recovery tank sterile water inlet, the sterile water recovery tank is communicated with the sterile water inlet of the recovery tank through a first centrifugal pump, the cooling sterile water outlet is communicated with the water storage tank of the spraying machine, a second centrifugal pump is arranged between the RO water storage tank and the RO water inlet, the RO water storage tank is communicated with the RO water inlet through a second centrifugal pump, and the RO water outlet is communicated with the sugar dissolving hot water tank. The utility model has the advantages that: reducing the pollution to the environment and the waste of water resources.

Description

Empty can washing water of zip-top can and recycling system of heat energy thereof

Technical Field

The utility model relates to a water recovery technical field, concretely relates to empty can wash of easy open can water and recycle system of heat energy thereof.

Background

In the existing pop can empty filling production process, the empty can of the pop can needs to be flushed with sterile water to clean the inner wall of the empty can, and then the empty can is sent to a filling process for filling, wherein a large amount of sterile water for cleaning the empty can of the pop can is directly discharged into a sewer after being generally used for one time, so that water resource waste is caused, and the total cost of beverage production is increased due to the fact that the water consumption for factory production is large; and because the temperature of the washing tank sterile water is higher, the direct discharge into a sewer can not only pollute the environment, but also waste a large amount of heat energy.

SUMMERY OF THE UTILITY MODEL

For solving the problem among the prior art, the utility model provides a recycle system of easy open can empty can washing water and heat energy thereof, through set up the aseptic water recovery jar of mutually supporting in the recycle system of easy open can empty can washing water and heat energy thereof, plate heat exchanger and centrifugal pump, can send the aseptic water of washing jar of retrieving into the plate heat exchanger and be used for dissolving sugar behind the heat conduction of the aseptic water of washing jar for normal atmospheric temperature RO water, then send into the aseptic water of washing jar after the cooling and spray the cooling for the sealed product of completion filling in the spray thrower, degree of automation is high, can be enough quick, in time, fully retrieve the aseptic water of washing jar, again enable the water resource and obtain more abundant utilization, water resource use cost in the beverage production process has been reduced, and the recovery of heat energy has reduced the consumption of the energy, good energy-saving effect and objective economic benefits have been brought, solved current trade and just directly discharged the sewer waste after the aseptic water of washing bottle only once in the production process, the heat pollution environment, the problem of water use cost has been increased.

The utility model provides a recycling system of empty can washing water and heat energy of ring-pull cans, which comprises a plate heat exchanger, a sterile water recovery tank, a sugar-dissolving hot water tank, a RO water storage tank and a spraying machine water storage tank, wherein the plate heat exchanger is provided with a recovery tank sterile water inlet, a RO water inlet, a cooling sterile water outlet and a RO water outlet, a first centrifugal pump is arranged between the sterile water recovery tank and the recovery tank sterile water inlet, the sterile water recovery tank is communicated with the recovery tank sterile water inlet through the first centrifugal pump, the cooling sterile water outlet is communicated with the spraying machine water storage tank, the RO water storage tank with be equipped with the second centrifugal pump between the RO water inlet, RO water storage tank with the RO water inlet passes through the second centrifugal pump is linked together, RO water delivery port with dissolve sugar hot-water tank is linked together, first centrifugal pump can with wash jar sterile water in the sterile water recovery tank send into plate heat exchanger in with the heat conduction give by the second centrifugal pump is used for dissolving sugar after sending into plate heat exchanger's normal atmospheric temperature RO water, wash jar sterile water after the cooling can be sent into spray and be used for in the quick-witted storage tank of spraying and spray the cooling for the sealed product of completion filling for the spraying machine.

The utility model discloses make further improvement, sterile water recovery tank with be equipped with first pipeline valve between the first centrifugal pump.

The utility model discloses do further improvement, RO water storage tank with be equipped with second pipeline valve between the second centrifugal pump.

The utility model discloses make further improvement, RO water delivery port with dissolve and be equipped with third pipeline valve between the sugar hot-water cylinder.

The utility model discloses make further improvement, sterile water recovery tank top is equipped with the first exhaust port that communicates with outside atmospheric environment.

The utility model discloses make further improvement, dissolve sugar hot water tank top and be equipped with the second gas vent that communicates with outside atmospheric environment.

The utility model discloses make further improvement, it is used for the response still to be equipped with in the sugar hot water jar dissolve the water level pressure sensing device of sugar hot water jar interior water level.

The utility model discloses make further improvement, still be equipped with in the sugar hot water jar and be used for the response the thermometer of temperature in the sugar hot water jar dissolves.

Compared with the prior art, the beneficial effects of the utility model are that: the utility model provides a recycle system of easy open can empty can washing water and heat energy thereof, through set up the aseptic water recovery jar of mutually supporting in the recycle system of easy open can empty can washing water and heat energy, plate heat exchanger and centrifugal pump, can be used for dissolving sugar after sending into the heat conduction of washing a jar aseptic water for normal atmospheric temperature RO water in the plate heat exchanger with the washing jar aseptic water of retrieving, then send into the washing jar aseptic water after the cooling and spray the cooling for the sealed product of completion filling in the spray thrower, degree of automation is high, can be enough quick, in time, will wash jar aseptic water recovery fully, it obtains more abundant utilization to make the water resource again, water resource use cost in the beverage production process has been reduced, and the recovery of heat energy has reduced the consumption of the energy, good energy-saving effect and objective economic benefits have been brought, it is extravagant to have solved current water resource and just directly arrange the sewer after the bottle washing aseptic water only once in process of production, the heat pollution environment, the problem of water use cost has been increased.

Drawings

Fig. 1 is a concrete structural schematic diagram of the system for recycling empty can washing water and heat energy of the pop can of the utility model.

In the figure, 1-plate heat exchanger, 2-sterile water recovery tank, 21-first pipeline valve, 22-first exhaust port, 3-sugar dissolving hot water tank, 31-third pipeline valve, 32-second exhaust port, 4-RO water storage tank, 41-second pipeline valve, 5-sprayer storage tank, 6-first centrifugal pump and 7-second centrifugal pump.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and examples.

As shown in figure 1, the utility model provides a recovery system of empty can washing water and heat energy of pop can, which comprises a plate heat exchanger 1, a sterile water recovery tank 2, a sugar dissolving hot water tank 3, an RO water storage tank 4 and a spray machine water storage tank 5, wherein the plate heat exchanger 1 is provided with a recovery tank sterile water inlet, an RO water inlet, a cooling sterile water outlet and an RO water outlet, a first centrifugal pump 6 is arranged between the sterile water recovery tank 2 and the recovery tank sterile water inlet, the sterile water recovery tank 2 is communicated with the recovery tank sterile water inlet through the first centrifugal pump 6, the cooling sterile water outlet is communicated with the spray machine water storage tank 5, the RO water storage tank 4 with be equipped with second centrifugal pump 7 between the RO water inlet, RO water storage tank 4 with the RO water inlet passes through second centrifugal pump 7 is linked together, RO water delivery port with dissolve sugar hot-water tank 3 is linked together, first centrifugal pump can with wash jar sterile water in the sterile water recovery jar send into plate heat exchanger in with the heat conduction give quilt the normal atmospheric temperature RO water that plate heat exchanger was sent into to the second centrifugal pump is used for dissolving sugar, wash jar sterile water after the cooling can be sent into spray and be used for in the quick-witted storage tank that sprays the machine and spray the cooling for the sealed product of completion filling.

The principle of the membrane separation technology developed in sixties is that raw water passes through a reverse osmosis membrane under the action of high pressure, and a solvent in the water is diffused from low concentration to high concentration so as to achieve the purposes of separation, purification and concentration. Reverse osmosis can remove bacteria, viruses, colloids, organic matters and over 98 percent of soluble salts in water. The method has the characteristics of low operation cost, simple operation, high automation degree, stable effluent quality and the like. Compared with other traditional water treatment methods, the method has obvious advantages and is widely applied to water treatment related industries. In this embodiment, the RO water is heated by the washing tank sterile water and then stored in the sugar dissolving hot water tank, and the heat energy is transferred to the sugar dissolving system to dissolve sugar, thereby reducing the heat energy required for heating the RO water at normal temperature.

As shown in fig. 1, a first pipeline valve 21 is arranged between the sterile water recovery tank 2 and the first centrifugal pump 6, a second pipeline valve 41 is arranged between the RO water storage tank 4 and the second centrifugal pump 7, a third pipeline valve 31 is arranged between the RO water outlet and the sugar dissolving hot water tank 3, a first exhaust port 22 communicated with the external atmospheric environment is arranged at the top of the sterile water recovery tank 2, and a second exhaust port 32 communicated with the external atmospheric environment is arranged at the top of the sugar dissolving hot water tank 3.

As shown in fig. 1, a water level pressure sensing device for sensing the water level in the sugar dissolving hot water tank 3 is further arranged in the sugar dissolving hot water tank 3, and a thermometer for sensing the water temperature in the sugar dissolving hot water tank 3 is further arranged in the sugar dissolving hot water tank 3.

The working principle is as follows: the utility model provides a recycle system during operation of empty jar of easy open can wash jar water and heat energy thereof, wash a jar sterile water in the sterile water recovery tank is taken out by first centrifugal pump and is sent into plate heat exchanger, normal atmospheric temperature RO water in the RO water storage tank is taken out by the second centrifugal pump and is sent into plate heat exchanger, wash a jar sterile water with heat conduction for normal atmospheric temperature RO water after, the RO water after being heated is sent into and is stored in dissolving sugar hot-water tank, transfer dissolving sugar system to this heat energy and dissolve sugar, wash a jar sterile water after giving normal atmospheric temperature RO water with heat conduction and be sent into and spray the quick-witted storage tank and be used for spraying the quick-witted product spray cooling that accomplishes the filling. The top of the sterile water recovery tank is provided with a first exhaust port for exhausting air and carbon dioxide in the sterile water recovery tank to prevent overhigh pressure in the sterile water recovery tank; the top of the sugar-dissolving hot water tank is provided with a second exhaust port for exhausting air and carbon dioxide in the sugar-dissolving hot water tank to prevent the pressure in the sugar-dissolving hot water tank from being too high; the thermometer in the sugar dissolving hot water tank is used for sensing water temperature, and the water level pressure sensing device in the sugar dissolving hot water tank is used for sensing water pressure.

According to the above, the utility model provides a recycle system of easy open can empty can washing water and heat energy thereof, through set up the aseptic water recovery jar of mutually supporting in the recycle system of easy open can empty can washing water and heat energy thereof, plate heat exchanger and centrifugal pump, can send into the plate heat exchanger with the aseptic water of washing jar of retrieving and be used for dissolving sugar behind the heat conduction of the aseptic water of washing jar for normal atmospheric temperature RO water, then send into the aseptic water of washing jar after the cooling into and spray the cooling for the sealed product of completion filling in the spray thrower, degree of automation is high, can be enough quick, in time, fully retrieve the aseptic water of washing jar, again make the water resource obtain more abundant utilization, water resource use cost in the beverage production process has been reduced, and the recovery of heat energy has reduced the consumption of the energy, good energy-saving effect and objective economic benefits have been brought, it is extravagant just directly to discharge the sewer after the aseptic water of washing bottle only once in the production process to have solved current trade, the heat pollution environment, the problem of water use cost has been increased.

The above-mentioned embodiments are the preferred embodiments of the present invention, and the scope of the present invention is not limited to the above-mentioned embodiments, and the scope of the present invention includes and is not limited to the above-mentioned embodiments, and all equivalent changes made according to the present invention are within the protection scope of the present invention.

Claims (8)

1. The utility model provides a recovery system of easy open can empty can washing water and heat energy thereof which characterized in that: comprises a plate heat exchanger, a sterile water recovery tank, a sugar dissolving hot water tank, an RO water storage tank and a spraying machine water storage tank, wherein the plate heat exchanger is provided with a recovery tank sterile water inlet, an RO water inlet, a cooling sterile water outlet and an RO water outlet, a first centrifugal pump is arranged between the sterile water recovery tank and the recovery tank sterile water inlet, the sterile water recovery tank is communicated with the recovery tank sterile water inlet through the first centrifugal pump, the cooling sterile water outlet is communicated with the spraying machine water storage tank, a second centrifugal pump is arranged between the RO water storage tank and the RO water inlet, the RO water storage tank is communicated with the RO water inlet through the second centrifugal pump, the RO water outlet is communicated with the sugar-dissolving hot water tank, the first centrifugal pump can send the aseptic water of washing jar in the aseptic water recovery jar into the plate heat exchanger in with heat conduction give by the second centrifugal pump is used for dissolving sugar behind the normal atmospheric temperature RO water that the plate heat exchanger was sent into, and the aseptic water of washing jar after the cooling can be sent into in the water storage tank of spraying machine be used for the sealed product of completion filling to spray the cooling for the spraying machine.

2. The system for recycling water and heat energy of empty cans of pop cans according to claim 1, wherein the system comprises: and a first pipeline valve is arranged between the sterile water recovery tank and the first centrifugal pump.

3. A system for recycling water and heat energy of empty cans of pop cans according to claim 2, wherein the system comprises: and a second pipeline valve is arranged between the RO water storage tank and the second centrifugal pump.

4. A system for recycling water and heat energy of empty cans of pop cans according to claim 3, wherein the system comprises: and a third pipeline valve is arranged between the RO water outlet and the sugar-dissolving hot water tank.

5. A system for recycling water and heat energy of empty cans of pop cans according to claim 4, wherein the system comprises: the top of the sterile water recovery tank is provided with a first exhaust port communicated with the external atmospheric environment.

6. A system for recycling water and heat energy of empty cans of pop cans according to claim 5, wherein the system comprises: and a second exhaust port communicated with the external atmospheric environment is formed in the top of the sugar dissolving hot water tank.

7. A system for recycling water and heat energy of empty cans of pop cans according to claim 6, wherein the system comprises: and a water level pressure sensing device for sensing the water level in the sugar dissolving hot water tank is also arranged in the sugar dissolving hot water tank.

8. A system for recycling water and heat energy of empty cans of pop cans according to claim 7, wherein the system comprises: and a thermometer used for sensing the water temperature in the sugar dissolving hot water tank is also arranged in the sugar dissolving hot water tank.

Images