CN214516615U - Industrial waste heat pump circulation bottle washing machine system - Google Patents

Abstract

The utility model discloses an industry waste heat pump circulation bottle cleaning machine system, include from right side to left order first alkali groove and a plurality of second alkali groove that set up, the top in first alkali groove is provided with first heat exchanger, be provided with first steam medium entry and first steam medium export on the first heat exchanger, be provided with the second heat exchanger directly over every second alkali groove, be provided with second steam medium entry and second steam medium export on every second heat exchanger, still include water source heat pump set, water source heat pump set can provide the hot water medium for first heat exchanger, water source heat pump set can provide cold water medium for the second heat exchanger. The utility model discloses technical scheme can realize providing the hot water medium for first heat exchanger for prior art, provides cold water medium for the second heat exchanger to reach the purpose that reduces the play bottle temperature of bottle cleaning machine, make each groove temperature maintain in the temperature range of regulation simultaneously, reduce the steam consumption of packaging workshop, practice thrift the energy consumption.

Description

Industrial waste heat pump circulation bottle washing machine system

Technical Field

The utility model relates to a bottle cleaning machine system field, concretely relates to industry waste heat pump circulation bottle cleaning machine system.

Background

In the prior art of bottle washing machine, when the bottle washing machine of the packaging workshop washes bottles, because the heat insulation treatment is not done among the first alkali tank of bottle washing machine, a plurality of second alkali tanks, warm water tank and the hot-water tank inside, during actual operation, receive the influence of first alkali tank temperature, the temperature in a plurality of second alkali tanks all is higher than the temperature of regulation. In addition, the heat brought by the bottle from the upper-stage high-temperature tank is also larger than the heat loss caused by convection and radiation of the water tank and the environment. The actual bottle outlet temperature of the bottle washing machine is higher due to the above 2 reasons, and can reach more than 35 ℃ in summer (the reasonable bottle outlet temperature is preferably less than or equal to 30 ℃). In order to reduce the temperature of the bottle, the water pressure of the clear water needs to be increased, and the water spraying amount of the last group of clear water spraying is increased, so that the water consumption of the bottle washing machine is increased (softened water). Therefore, the temperature of the discharged bottle is not reduced by increasing the amount of the sprayed water in actual operation. Steam heater that a plurality of second alkali tanks were joined in marriage, only in fact when the basin trades water (1/4 d), just use for rapid heating up, continuous production not only need not heat at ordinary times, and a plurality of second alkali tanks need cooling down on the contrary, reduce out the bottle temperature.

Therefore, how to reduce the bottle outlet temperature of the bottle washing machine becomes a technical problem to be solved by the technical personnel in the field.

Disclosure of Invention

To the problem that exists among the prior art, the utility model aims to provide an industry waste heat pump circulation bottle cleaning machine system. Through the water source heat pump unit, hot water media can be provided for the first heat exchanger, cold water media can be provided for the second heat exchanger, and therefore the purpose of reducing the bottle outlet temperature of the bottle washing machine is achieved, meanwhile, the temperature of each groove is maintained within a specified temperature range, the steam consumption of a packaging workshop is reduced, and energy consumption is saved.

In order to achieve the above purpose, the present invention adopts the following technical solution.

A circulating bottle washing machine system of an industrial waste heat pump comprises a first alkali tank and a plurality of second alkali tanks which are sequentially arranged from right to left, wherein a first heat exchanger is arranged above the first alkali tank, a first steam medium inlet and a first steam medium outlet are formed in the first heat exchanger, a first water outlet is also formed in the first heat exchanger, and a first spray header arranged above the first alkali tank is connected to the first water outlet; a first water pump is arranged in the first alkali tank, a water outlet of the first water pump is communicated with the first heat exchanger through a first water feeding pipe, a first branch pipe is arranged on the first water feeding pipe, and a first inner spray header and a first outer spray header which are arranged above the first alkali tank are connected to the first branch pipe;

a second heat exchanger is arranged above each second alkali tank, a second steam medium inlet and a second steam medium outlet are arranged on each second heat exchanger, a second water outlet is also arranged on each second heat exchanger, and a second spray header arranged above each second alkali tank is connected to each second water outlet; a second water pump is arranged in each second alkali tank, the water outlet of each second water pump is communicated with each second heat exchanger through each second water feeding pipe, each second water feeding pipe is provided with a second branch pipe, and each second branch pipe is connected with a second inner spray header and a second outer spray header which are arranged above the second alkali tanks;

the heat pump system further comprises a water source heat pump unit, the water source heat pump unit can provide hot water media for the first heat exchanger, and the water source heat pump unit can provide cold water media for the second heat exchanger.

Preferably, a first aqueous medium inlet is arranged on the first steam medium inlet, and a first aqueous medium outlet is arranged on the first steam medium outlet; each second steam medium inlet is provided with a second aqueous medium inlet, and each second steam medium outlet is provided with a second aqueous medium outlet; the water source heat pump unit comprises a water inlet to be heated, a water outlet after heating, a water inlet to be cooled and a water outlet after cooling, wherein the water inlet to be heated is communicated with the first aqueous medium outlet, and the water outlet after heating is communicated with the first aqueous medium inlet;

the water inlet to be cooled is communicated with each second aqueous medium outlet, and the water outlet after cooling is respectively communicated with each second aqueous medium inlet.

Preferably, a hot water tank is arranged at the left end of the second alkali tank at the leftmost end, a third water pump is arranged inside the hot water tank, and a third spray header is arranged above the hot water tank; the left end of hot-water tank is provided with warm water groove, and the inside of warm water groove is provided with the fourth water pump, and the top of warm water groove is provided with the fourth shower head, and the left end of warm water groove is provided with first overflow pipe, and the left end of warm water groove still is provided with the district that sprays, and the top of spraying the district is provided with the fifth shower head.

Preferably, the device also comprises a pre-soaking groove, and a second overflow pipe is arranged at the left end of the pre-soaking groove; the first overflow pipe is positioned above the presoaking groove.

Preferably, a third overflow pipe is provided at the right end of the first alkali tank.

Preferably, a first valve is arranged on the first steam medium inlet, a second valve is arranged on the first steam medium outlet, a third valve is arranged on the first aqueous medium inlet, and a fourth valve is further arranged on the first aqueous medium outlet; and a fifth valve is arranged on the second steam medium inlet, a sixth valve is arranged on the second steam medium outlet, a seventh valve is arranged on the second aqueous medium inlet, and an eighth valve is also arranged on the second aqueous medium outlet.

The utility model discloses technical scheme through the water source heat pump set who sets up, can realize providing the hot water medium for first heat exchanger for prior art, provides the cold water medium for the second heat exchanger to reach the purpose that reduces the play bottle temperature of bottle cleaning machine, make each groove temperature maintain in the temperature range of regulation simultaneously, reduce the steam consumption of packaging workshop, practice thrift the energy consumption.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the structures shown in the drawings without creative efforts.

FIG. 1 is the operation flow chart of the present invention

In the figure: 1. a first alkali tank; 2. a second alkali tank; 3. a first heat exchanger; 4. a first aqueous medium inlet; 5. a first aqueous medium outlet; 6. a first water outlet; 7. a first shower head; 8. a first water pump; 9. a first water supply pipe; 10. a first branch pipe; 11. a first inner and outer spray header; 12. a second heat exchanger; 13. a second aqueous medium inlet; 14. a second aqueous medium outlet; 15. a second water outlet; 16. a second shower head; 17. A second water pump; 18. a second water supply pipe; 19. a second branch pipe; 20. a second inner and outer spray header; 21. a water source heat pump unit; 22. a water inlet for temperature rise; 23. a water outlet after the temperature is raised; 24. a water inlet to be cooled; 25. Cooling and then discharging water; 26. a hot water tank; 27. a third shower head; 28. a warm water tank; 29. a fourth shower head; 30. a first overflow pipe; 31. a spraying area; 32. a fifth spray header; 33. a pre-soaking tank; 34. A second overflow tube; 35. a third overflow pipe; 36. a first vapor medium inlet; 37. a first vapor medium outlet; 38. a second vapor medium inlet; 39. a second vapor medium outlet; 40. a first valve; 41. A second valve; 42. a third valve; 43. a fourth valve; 44. a fifth valve; 45. a sixth valve; 46. a seventh valve; 47. and an eighth valve.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

An industrial waste heat pump circulating bottle washer system comprises a first alkali tank 1 and a plurality of second alkali tanks 2 which are sequentially arranged from right to left, wherein a first heat exchanger 3 is arranged above the first alkali tank 1, a first steam medium inlet 36 and a first steam medium outlet 37 are arranged on the first heat exchanger 3, a first water outlet 6 is also arranged on the first heat exchanger 3, and a first spray header 7 arranged above the first alkali tank 1 is connected to the first water outlet 6; a first water pump 8 is arranged inside the first alkali tank 1, a water outlet of the first water pump 8 is communicated with the first heat exchanger 3 through a first upper water pipe 9, a first branch pipe 10 is arranged on the first upper water pipe 9, and a first inner and outer spray header 11 arranged above the first alkali tank 1 is connected to the first branch pipe 10;

a second heat exchanger 12 is arranged above each second alkali tank 2, a second steam medium inlet 38 and a second steam medium outlet 39 are arranged on each second heat exchanger 12, a second water outlet 15 is further arranged on each second heat exchanger 12, and a second spray header 16 arranged above each second alkali tank 2 is connected to each second water outlet 15; a second water pump 17 is arranged in each second alkali tank 2, a water outlet of each second water pump 17 is communicated with each second heat exchanger 12 through a second water supply pipe 18, each second water supply pipe 18 is provided with a second branch pipe 19, and each second branch pipe 19 is connected with a second inner and outer spray header 20 arranged above the second alkali tank 2;

the heat pump system further comprises a water source heat pump unit 21, wherein the water source heat pump unit 21 can provide hot water media for the first heat exchanger 3, and the water source heat pump unit 21 can provide cold water media for the second heat exchanger 12.

Through the first heat exchanger 3 or the second heat exchanger 12 that set up for realize heat exchange, reach the effect that heats the alkali lye of first alkali groove 1, carry out the effect of cooling to the alkali lye of second alkali groove 2. The first spray head 7 and the second spray head 16 are arranged, so that the bottle cleaning machine can be used for spray cleaning of bottles to be cleaned. Through the arrangement of the first water pump 8 and the second water pump 17, alkali liquor in the first alkali tank 1 and the second alkali tank 2 is conveyed to the first heat exchanger 3, the second heat exchanger 12 or the first inner and outer spray header 11 and the second inner and outer spray header 20 through the first water feeding pipe 9 or the second water feeding pipe 18, so that heat exchange is realized or inner and outer spray cleaning is carried out on a bottle to be washed. Through the arranged water source heat pump unit 21, hot water media can be supplied to the first heat exchanger 3, cold water media can be supplied to the second heat exchanger 12, the purpose of reducing the bottle outlet temperature of the bottle washer is achieved, meanwhile, the temperature of each groove is maintained within a specified temperature range, the steam consumption of a packaging workshop is reduced, and energy consumption is saved.

Preferably, the first steam medium inlet 36 is provided with a first aqueous medium inlet 4, and the first steam medium outlet 37 is provided with a first aqueous medium outlet 5; a second aqueous medium inlet 13 is arranged on each second steam medium inlet 38, and a second aqueous medium outlet 14 is arranged on each second steam medium outlet 39; the water source heat pump unit 21 comprises a water inlet 22 to be heated, a water outlet 23 after heating, a water inlet 24 to be cooled and a water outlet 25 after cooling, wherein the water inlet 22 to be heated is communicated with the first aqueous medium outlet 5, and the water outlet 23 after heating is communicated with the first aqueous medium inlet 4;

the water inlet 24 to be cooled is communicated with each second aqueous medium outlet 14, and the water outlet 25 after cooling is respectively communicated with each second aqueous medium inlet 13.

The water source heat pump unit 21 is communicated with the first heat exchanger 3 through the arranged first aqueous medium inlet 4, the arranged first aqueous medium outlet 5, the arranged water inlet 22 to be heated and the arranged water outlet 23 after heating, and the water source heat pump unit 21 is communicated with the second heat exchanger 12 through the arranged second aqueous medium inlet 13, the arranged second aqueous medium outlet 14, the arranged water inlet 24 to be cooled and the arranged water outlet 25 after cooling.

Preferably, a hot water tank 26 is arranged at the left end of the leftmost second alkali tank 2, a third water pump 48 is arranged inside the hot water tank 26, and a third spray header 27 is arranged above the hot water tank 26; the left end of the hot water tank 26 is provided with a warm water tank 28, a fourth water pump 49 is arranged inside the warm water tank 28, a fourth spray header 29 is arranged above the warm water tank 28, the left end of the warm water tank 28 is provided with a first overflow pipe 30, the left end of the warm water tank 28 is further provided with a spray area 31, and a fifth spray header 32 is arranged above the spray area 31.

The hot water tank 26, the warm water tank 28, the third spray head 27 and the fourth spray head 28 are arranged for further washing and cooling the alkali liquor carried by the bottle. The arrangement of the spray zone 31 and the fifth spray header 32 is used for cleaning the bottles, and the arrangement of the first overflow pipe 30 is used for maintaining the liquid level in the warm water tank 28.

Preferably, the device further comprises a pre-soaking groove 33, wherein a second overflow pipe 34 is arranged at the left end of the pre-soaking groove 33; the first overflow pipe 30 is located above the pre-soak tank 33. Through the presoaking tank 33 that sets up, the dirt and the dust that the bottle got into first alkali groove 1 that have significantly reduced have prolonged the time that alkali lye used in first alkali groove 1, and the bottle also gets preheated simultaneously, can avoid the broken bottle that arouses because of the temperature variation. The first overflow pipe 30 is located above the pre-soaking tank 33, and the excess liquid is discharged from the warm water tank 28 and flows into the pre-soaking tank 33, and the first overflow pipe 30 is provided to maintain the liquid level in the pre-soaking tank 33.

Preferably, a third overflow pipe 35 is provided at the right end of the first alkali tank 1. The third overflow pipe 35 is provided to maintain the liquid level in the first alkali tank 1.

Preferably, a first valve 40 is arranged on the first steam medium inlet 36, a second valve 41 is arranged on the first steam medium outlet 37, a third valve 42 is arranged on the first aqueous medium inlet 4, and a fourth valve 43 is further arranged on the first aqueous medium outlet 5; the second steam medium inlet 38 is provided with a fifth valve 44, the second steam medium outlet 39 is provided with a sixth valve 45, the second aqueous medium inlet 13 is provided with a seventh valve 46, and the second aqueous medium outlet 14 is further provided with an eighth valve 47.

The working process is as follows:

firstly, introducing 35 ℃ alkali liquor into a pre-soaking tank 33, filling dirty bottles to be washed into bottle boxes, introducing the bottles to the pre-soaking tank 33 along with the operation of the bottle boxes, simultaneously introducing normal-temperature alkali liquor into a first alkali tank 1 and each second alkali tank 2, introducing 40 ℃ warm water into a hot water tank 26, introducing 35 ℃ warm water into a warm water tank 28, turning the bottles into an inverted shape after leaving the pre-soaking tank 33, enabling bottle mouths to face downwards, and pouring the dirty water filled in the bottles back into the pre-soaking tank 33;

secondly, opening a first valve 40, a second valve 41, a fifth valve 44 and a sixth valve 45, opening a first water pump 8 and a second water pump 17, introducing steam through a first steam medium inlet 36 and a second steam medium inlet 38, respectively heating the alkali liquor in the first alkali tank 1 and each second alkali tank 2 by using a first heat exchanger 3 and a second heat exchanger 12, so that the temperature of the alkali liquor in the first alkali tank 1 reaches 80 ℃, the temperature of the alkali liquor in the second alkali tank 2 from right to left reaches 70 ℃, 60 ℃ and 50 ℃, respectively, and after the temperature of the alkali liquor in the first alkali tank 1 and each second alkali tank 2 reaches the required temperature, closing the first valve 40 and the second valve 41;

and thirdly, turning the dirty bottle to be vertical again, conveying the dirty bottle to the first alkali tank 1, starting the water source heat pump unit 21, simultaneously opening the third valve 42 and the fourth valve 43, reducing the temperature of the alkali liquor in the first alkali tank 1 by a few degrees due to the entrance of the dirty bottle, and heating the alkali liquor in the first alkali tank 1 again through the water source heat pump unit 21 and the first heat exchanger 3 to keep the temperature of the alkali liquor at 80 ℃ all the time. Specifically, 85 ℃ hot water flows out of the water source heat pump unit 21, passes through the first aqueous medium inlet 4 and the alkali liquor lower than 80 ℃ in the first alkali tank 1, is subjected to heat exchange through the first heat exchanger 3, the alkali liquor in the first alkali tank 1 reaches the required temperature, simultaneously, 82 ℃ water flows out of the first aqueous medium outlet 5, flows into the water source heat pump unit 21 through the water inlet 22 to be heated for cyclic heating, 85 ℃ hot water flows out of the water outlet 23 after being heated, and flows into the first aqueous medium outlet 5 to provide hot water for the first heat exchanger 3. Meanwhile, the alkali liquor in the first alkali tank 1 is transmitted to a first spray header 7 and a first inner and outer spray header 11 through a first water pump 8, so that the first spray header 7 and the first inner and outer spray header 11 spray and clean the dirty bottles;

and fourthly, conveying the dirty bottle to the second alkali tank 2 at the rightmost end after the first alkali tank 1 is sprayed and cleaned, wherein the temperature of alkali liquor in the second alkali tank 2 is increased due to the fact that the bottle comes out of the first alkali tank 1 and has a certain temperature and is conveyed into the second alkali tank 2, so that the temperature of the alkali liquor in the second alkali tank 2 needs to be reduced, the seventh valve 46 and the eighth valve 47 are opened, the alkali liquor in the second alkali tank 2 is reduced through the water source heat pump unit 21 and the second heat exchanger 12, cold water at 30 ℃ flows out of the water source heat pump unit 21, the cold water and the alkali liquor at the temperature higher than 70 ℃ in the second alkali tank 2 at the rightmost end are subjected to heat exchange through the second heat exchanger 12, and the temperature of the alkali liquor in the second alkali tank 2 at the rightmost end is kept at 70 ℃. Specifically, the cold water of 30 ℃ flowing out from the water source heat pump unit 21 flows through the second aqueous medium inlet 13 and the alkali liquor higher than 70 ℃ in the second alkali tank 2 to exchange heat through the second heat exchanger 12, so that the alkali liquor in the second alkali tank 2 reaches the required temperature, meanwhile, the hot water of 35 ℃ flows out through the second aqueous medium outlet 14, flows into the water source heat pump unit 21 through the water inlet 24 to be cooled to be circularly cooled, and the cold water of 30 ℃ flows out from the water outlet 25 after being cooled to the second aqueous medium outlet 14 to provide the cold water for the second heat exchanger 12. Meanwhile, the alkali liquor in the second alkali tank 2 is transmitted to a second spray header 16 and a second inner and outer spray header 20 through a second water pump 17, so that the second spray header 16 and the second inner and outer spray header 20 spray and clean the dirty bottles; the second alkali tank 2 behind the second alkali tank 2 at the rightmost end is similar to the working process of the second alkali tank 2 at the rightmost end, and details are not repeated here;

fifthly, after the second alkali tank 2 is sprayed and cleaned, the bottle is conveyed to a hot water tank 26, a third water pump 48 is started, warm water in the hot water tank 26 is sprayed and cleaned through a third spray head 27, alkali liquor carried by the bottle is washed clean, and meanwhile the bottle is stably and gradually lowered to the room temperature;

sixthly, after the hot water tank 26 is cleaned by spraying, the bottles are conveyed to a warm water tank 28, a fourth water pump 49 is started, warm water in the warm water tank 28 is sprayed and cleaned through a fourth spray head 29, alkali liquor carried by the bottles is further washed, and meanwhile the bottles are steadily and gradually lowered to the room temperature;

and seventhly, after the bottles are sprayed and cleaned by the warm water tank 28, the bottles are conveyed to a spraying area 31, and the bottles are finally cleaned by clear water at the temperature of 20 ℃ through a fifth spraying head 32, so that the temperature of the discharged bottles gradually reaches 30 ℃. In addition, in the working process of the bottle washing machine, the first overflow pipe 30, the second overflow pipe 34 and the third overflow pipe 35 are used for keeping the liquid level of the alkali liquor in each alkali tank unchanged, if the liquid level is low, the alkali liquor is introduced into the corresponding alkali tank, and if the liquid level is high, the alkali liquor is discharged in time. And the bottle washing machine does not consume steam when running normally, and only after the water tank changes water (1 time/4 d), the bottle washing machine needs to be heated by steam.

Although the invention has been described in detail in this specification with reference to specific embodiments and illustrative embodiments, it will be apparent to those skilled in the art that certain changes and modifications can be made therein without departing from the scope of the invention. Accordingly, such modifications and improvements are intended to be within the scope of the invention as claimed.

Claims (6)

1. The utility model provides an industry waste heat pump circulation bottle cleaning machine system which characterized in that: the device comprises a first alkali tank (1) and a plurality of second alkali tanks (2) which are sequentially arranged from right to left, wherein a first heat exchanger (3) is arranged above the first alkali tank (1), a first steam medium inlet (36) and a first steam medium outlet (37) are arranged on the first heat exchanger (3), a first water outlet (6) is also arranged on the first heat exchanger (3), and a first spray header (7) arranged above the first alkali tank (1) is connected to the first water outlet (6); a first water pump (8) is arranged inside the first alkali tank (1), a water outlet of the first water pump (8) is communicated with the first heat exchanger (3) through a first upper water pipe (9), a first branch pipe (10) is arranged on the first upper water pipe (9), and a first inner and outer spray header (11) arranged above the first alkali tank (1) is connected to the first branch pipe (10);

a second heat exchanger (12) is arranged above each second alkali tank (2), a second steam medium inlet (38) and a second steam medium outlet (39) are arranged on each second heat exchanger (12), a second water outlet (15) is also arranged on each second heat exchanger (12), and a second spray header (16) arranged above each second alkali tank (2) is connected to each second water outlet (15); a second water pump (17) is arranged in each second alkali tank (2), a water outlet of each second water pump (17) is communicated with each second heat exchanger (12) through a second water feeding pipe (18), a second branch pipe (19) is arranged on each second water feeding pipe (18), and a second inner and outer spray header (20) arranged above the second alkali tank (2) is connected to each second branch pipe (19);

the heat pump system is characterized by further comprising a water source heat pump unit (21), wherein the water source heat pump unit (21) can provide hot water media for the first heat exchanger (3), and the water source heat pump unit (21) can provide cold water media for the second heat exchanger (12).

2. The industrial waste heat pump cycle bottle washer system of claim 1, characterized in that: a first aqueous medium inlet (4) is formed in the first steam medium inlet (36), and a first aqueous medium outlet (5) is formed in the first steam medium outlet (37); a second aqueous medium inlet (13) is arranged on each second steam medium inlet (38), and a second aqueous medium outlet (14) is arranged on each second steam medium outlet (39); the water source heat pump unit (21) comprises a water inlet (22) to be heated, a water outlet (23) after heating, a water inlet (24) to be cooled and a water outlet (25) after cooling, wherein the water inlet (22) to be heated is communicated with the first aqueous medium outlet (5), and the water outlet (23) after heating is communicated with the first aqueous medium inlet (4);

the water inlet (24) to be cooled is communicated with each second aqueous medium outlet (14), and the cooled water outlet (25) is communicated with each second aqueous medium inlet (13).

3. The industrial waste heat pump cycle bottle washer system of claim 1, characterized in that: a hot water tank (26) is arranged at the left end of the second alkali tank (2) at the leftmost end, a third water pump (48) is arranged inside the hot water tank (26), and a third spray header (27) is arranged above the hot water tank (26); the left end of hot-water tank (26) is provided with warm water groove (28), the inside of warm water groove (28) is provided with fourth water pump (49), the top of warm water groove (28) is provided with fourth shower head (29), the left end of warm water groove (28) is provided with first overflow pipe (30), the left end of warm water groove (28) still is provided with spray zone (31), the top of spray zone (31) is provided with fifth shower head (32).

4. The industrial waste heat pump cycle bottle washer system of claim 3, characterized in that: the device also comprises a presoaking groove (33), wherein a second overflow pipe (34) is arranged at the left end of the presoaking groove (33); the first overflow pipe (30) is located above the pre-soaking tank (33).

5. The industrial waste heat pump cycle bottle washer system of claim 1, characterized in that: and a third overflow pipe (35) is arranged at the right end of the first alkali tank (1).

6. The industrial waste heat pump circulating bottle washer system of claim 2, characterized in that: a first valve (40) is arranged on the first steam medium inlet (36), a second valve (41) is arranged on the first steam medium outlet (37), a third valve (42) is arranged on the first aqueous medium inlet (4), and a fourth valve (43) is arranged on the first aqueous medium outlet (5); a fifth valve (44) is arranged on the second steam medium inlet (38), a sixth valve (45) is arranged on the second steam medium outlet (39), a seventh valve (46) is arranged on the second aqueous medium inlet (13), and an eighth valve (47) is further arranged on the second aqueous medium outlet (14).

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