CN220541364U - Thermodynamic cycle energy-saving device - Google Patents

Thermodynamic cycle energy-saving device Download PDF

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Publication number
CN220541364U
CN220541364U CN202322153996.7U CN202322153996U CN220541364U CN 220541364 U CN220541364 U CN 220541364U CN 202322153996 U CN202322153996 U CN 202322153996U CN 220541364 U CN220541364 U CN 220541364U
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pipe
heating tank
heating
tank
fixedly arranged
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CN202322153996.7U
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范崇欢
文庆祥
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Junan Yuyuan Thermal Power Co ltd
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Junan Yuyuan Thermal Power Co ltd
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Abstract

The utility model discloses a thermodynamic cycle energy-saving device, which relates to the technical field of energy, and comprises a heating tank, wherein a first circular through hole is formed in the top end of the heating tank, a first connecting pipe is fixedly arranged in the first circular through hole, one end of the first connecting pipe is connected with a sealing cover in a penetrating manner, a second circular through hole is formed in the top end of the heating tank and located in the sealing cover in a penetrating manner, and the other end of the first connecting pipe is fixedly connected with a circulating pipe. According to the utility model, the motor drives the rotating shaft to rotate, the fan rapidly pumps vapor generated in the heating tank into the sealing cover and enters the circulating pipe through the first connecting pipe, so that the circulating pipe internally provided with flowing vapor is used for carrying out secondary heating on water in the heating tank, the circulating pipe is in a thread shape, the residence time of the vapor in the heating tank is longer, the heating range is wider, and the utilization rate of the heat energy of the vapor is further improved.

Description

Thermodynamic cycle energy-saving device
Technical Field
The utility model relates to the technical field of energy, in particular to a thermodynamic cycle energy-saving device.
Background
The thermodynamic cycle is a whole process that working medium is changed from a certain initial state through a series of intermediate states and is restored to the original state, the general thermodynamic cycle device is widely applied to industries such as manufacturing industry, agriculture and the like, and when the traditional heating boiler is used for thermodynamic cycle, steam in the heating boiler can often directly enter a condensing device for condensation to complete water circulation.
In the prior art, as disclosed in chinese patent CN217357579U, a "thermodynamic cycle economizer" is disclosed, including heating jar and circulation unit, the heating jar, its outer cambered surface lower extreme is equipped with the preheating tank through the mounting bracket, the diapire face of heating jar is equipped with evenly distributed's heating rod, the outer cambered surface lower extreme of heating jar is equipped with the water pump through the mount pad, the outlet pipe of water pump is linked together with the water inlet that the heating jar outer cambered surface set up, the inlet tube of water pump is linked together with the delivery port that the preheating tank outer cambered surface set up, circulation unit sets up in the heating jar upper end, wherein, still include the PLC controller, the PLC controller sets up in the outer cambered surface of heating jar, the external power source is connected to the input electricity of PLC controller, the output of PLC controller is all connected to the input electricity of heating rod and water pump.
However, in the prior art, the steam generated by heating is transmitted from the conical cover to the circulating pipe rack, the circulating pipe rack carries the steam to reheat the water in a heat exchange mode, so that the effect of thermodynamic cycle is greatly improved, but the defects still exist, the path of the circulating pipe rack in the heating tank is linear, the residence time of the steam in the heating tank is shorter, and the heating rate of the steam is lower.
Disclosure of Invention
The utility model aims to solve the problems that in the prior art, steam generated by heating is transmitted from a conical cover to a circulating pipe frame, the circulating pipe frame carries heat to reheat water in a heat exchange mode, so that the effect of thermodynamic cycle is greatly improved, but the path of the circulating pipe frame in a heating tank is linear, so that the residence time of the steam in the heating tank is short, and the heating rate of the steam is low.
In order to achieve the above purpose, the present utility model adopts the following technical scheme: the utility model provides a thermodynamic cycle economizer, includes the heating jar, circular through-hole has been seted up to heating jar top, circular through-hole inside fixed mounting has a connecting pipe, connecting pipe one end through-connection has the sealed cowling, heating jar top just is located the inside position department of sealed cowling runs through and has seted up No. two circular through-holes, connecting pipe other end fixedly connected with circulating pipe, circulating pipe other end fixed mounting has No. two connecting pipes, no. two connecting pipe other ends run through the inside bottom surface of heating jar, the inside bottom surface of heating jar just is located central point department fixed mounting has the heating rod.
Preferably, the cold water tank is fixedly arranged at the bottom end of the heating tank, the cold water tank comprises a cooling chamber and a storage chamber, the storage chamber is positioned below the cooling chamber, a conical pipe is fixedly arranged at one end of the second connecting pipe, the other end of the conical pipe penetrates through the cooling chamber and is communicated with the storage chamber, a condensing pipe is fixedly arranged at the inner surface of the cooling chamber, a refrigerating tank is fixedly arranged at two ends of the condensing pipe and penetrates through the inner surface of the cooling chamber, and one side of the refrigerating tank is fixedly arranged on the outer surface of the cold water tank.
Preferably, a supporting block is fixedly arranged on the bottom surface of the heating tank, and the top end of the supporting block is contacted with the outer surface of the circulating pipe.
Preferably, a motor is fixedly arranged at the top end of the sealing cover, the output end of the motor is rotationally connected with a rotating shaft, a fan is fixedly arranged at the other end of the rotating shaft, and one end of the rotating shaft penetrates through the top end of the sealing cover and is fixedly arranged at the top end of the fan.
Preferably, the heating tank outer surface and be close to bottom position department and run through the intercommunication have No. one adjustable sealed tube, cold water case outer surface just is located the cooling chamber with the adjustable sealed tube of No. two of storage room position department all run through the intercommunication.
Preferably, the cold water tank surface just is located storage room position department all runs through the intercommunication and has a switching pipe, a switching pipe other end fixed mounting has the water pump, the heating jar surface runs through the intercommunication and has No. two switching pipes, a switching pipe with pass through between No. two switching pipes and be connected with the conveyer pipe.
Compared with the prior art, the utility model has the advantages and positive effects that:
1. according to the utility model, the motor drives the rotating shaft to rotate, the fan rapidly pumps vapor generated in the heating tank into the sealing cover and enters the circulating pipe through the first connecting pipe, so that the circulating pipe internally provided with flowing vapor is used for carrying out secondary heating on water in the heating tank, the circulating pipe is in a thread shape, the residence time of the vapor in the heating tank is longer, the heating range is wider, and the utilization rate of vapor heat energy is further improved.
2. According to the utility model, the cold water in the cooling chamber is cooled in the process of flowing the vapor in the conical tube, so that the vapor is liquefied into water and flows into the storage chamber for recycling, the rapid liquefaction of the vapor is realized, and the liquefaction efficiency is improved.
Drawings
Fig. 1 is a schematic diagram of a three-dimensional structure of a thermodynamic cycle energy-saving device according to the present utility model;
FIG. 2 is a schematic diagram of the overall internal structure of a thermodynamic cycle energy saving device according to the present utility model;
FIG. 3 is a schematic diagram showing the internal structure of a heating tank of a thermodynamic cycle energy-saving device according to the present utility model;
fig. 4 is a schematic diagram of the internal structure of a cold water tank of a thermodynamic cycle energy-saving device according to the present utility model.
Legend description: 1. a heating tank; 2. a cold water tank; 3. a heating rod; 4. a circulation pipe; 5. a first round through hole; 6. a first connecting pipe; 7. a sealing cover; 8. a fan; 9. a rotating shaft; 10. a motor; 11. a support block; 12. an adjustable sealing tube I; 13. a conical tube; 14. a temperature reducing chamber; 15. a condensing tube; 16. a refrigeration box; 17. a storage chamber; 18. a water pump; 19. a first switching tube; 20. a conveying pipe.
Description of the embodiments
In order that the above objects, features and advantages of the utility model will be more clearly understood, a further description of the utility model will be rendered by reference to the appended drawings and examples. It should be noted that, in the case of no conflict, the embodiments of the present application and the features in the embodiments may be combined with each other.
In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present utility model, however, the present utility model may be practiced otherwise than as described herein, and therefore the present utility model is not limited to the specific embodiments of the disclosure that follow.
Examples
As shown in fig. 1-3, the utility model provides a thermodynamic cycle energy-saving device, which comprises a heating tank 1, wherein a first circular through hole 5 is formed in the top end of the heating tank 1, a first connecting pipe 6 is fixedly installed in the first circular through hole 5, one end of the first connecting pipe 6 is connected with a sealing cover 7 in a penetrating manner, a second circular through hole is formed in the top end of the heating tank 1 and positioned in the inner position of the sealing cover 7 in a penetrating manner, the other end of the first connecting pipe 6 is fixedly connected with a circulating pipe 4, a second connecting pipe is fixedly installed at the other end of the circulating pipe 4, the other end of the second connecting pipe penetrates through the inner bottom surface of the heating tank 1, a heating rod 3 is fixedly installed on the inner bottom surface of the heating tank 1 and positioned in the central position, a supporting block 11 is fixedly installed on the inner bottom surface of the heating tank 1, the top end of the supporting block 11 is contacted with the outer surface of the circulating pipe 4, a motor 10 is fixedly installed on the top end of the sealing cover 7, the output end of the motor 10 is rotatably connected with a rotating shaft 9, the other end of the rotating shaft 9 is fixedly installed with a fan 8, and one end of the rotating shaft 9 penetrates through the top of the sealing cover 7 and the top end of the fan 8.
In the following, the specific setting and action of this embodiment will be described specifically, when the heating tank 1 is in the heating process, the motor 10 drives the rotation shaft 9 to rotate, thereby realizing the rotation of the fan 8, the fan 8 rapidly pumps the vapor generated inside the heating tank 1 into the sealing cover 7 and enters into the circulating pipe 4 through the first connecting pipe 6, so that the flowing vapor inside the circulating pipe 4 heats the water inside the heating tank 1 for the second time, through the setting of the motor 10, the rotation of the fan 8 can be realized, thereby realizing the accelerated flow of the vapor, through the setting of the circulating pipe 4, the vapor can enter into the water again and perform the secondary heating, meanwhile, the circulating pipe 4 is in the screw thread shape, the residence time of the vapor inside the heating tank 1 can be longer, and the heating range is wider, through the setting of the supporting block 11, the stability of the circulating pipe 4 can be kept, and the water inside the heating tank 1 can be heated through the setting of the heating rod 3.
Examples
As shown in fig. 2 and 4, the bottom end of the heating tank 1 is fixedly provided with the cold water tank 2, the cold water tank 2 comprises a cooling chamber 14 and a storage chamber 17, the storage chamber 17 is located below the cooling chamber 14, one end of the second connecting pipe is fixedly provided with a conical pipe 13, the other end of the conical pipe 13 penetrates through the cooling chamber 14 and is communicated with the storage chamber 17, the inner surface of the cooling chamber 14 is fixedly provided with a condensing pipe 15, two ends of the condensing pipe 15 penetrate through the inner surface of the cooling chamber 14 and are fixedly provided with a refrigerating tank 16, one side of the refrigerating tank 16 is fixedly arranged on the outer surface of the cold water tank 2, the position close to the bottom end of the outer surface of the heating tank 1 is penetrated and communicated with a first adjustable sealing pipe 12, the outer surface of the cold water tank 2 is penetrated and communicated with a second adjustable sealing pipe at the positions of the cooling chamber 14 and the storage chamber 17, the outer surface of the cold water tank 2 is penetrated and communicated with a first switching pipe 19 at the positions of the storage chamber 17, the other end of the first switching pipe 19 is fixedly provided with a water pump 18, the outer surface of the heating tank 1 is penetrated and communicated with a second switching pipe, and a conveying pipe 20 is penetrated and connected between the first switching pipe and the second switching pipe.
The effect that its whole embodiment reaches is, in the steam gets into conical tube 13 through circulating pipe 4, in the in-process that flows in conical tube 13 is cooled down by the cold water in the cooling chamber 14, make steam liquefy into water, and flow to the storage chamber 17 and carry out cyclic utilization, through setting up water pump 18 and conveyer pipe 20, can transport the inside water of storage chamber 17 to the heating jar 1 inside, through setting up condenser pipe 15, can make the water in the cooling chamber 14 keep invariable temperature, through setting up refrigeration case 16, can guarantee the operation of condenser pipe 15, through setting up adjustable sealed tube 12 and No. two adjustable sealed tubes, can carry out drainage and water adding to heating jar 1, cooling chamber 14 and storage chamber 17.
The application method and the working principle of the device are as follows: the staff adds proper amount of water into the heating tank 1, the cooling chamber 14 and the storage chamber 17 through the first adjustable sealing pipe 12 and the second adjustable sealing pipe, then starts the heating rod 3 to heat the water in the heating tank 1, starts the cooling tank 16 to keep the water in the cooling chamber 14 at a certain low temperature, the heating tank 1 drives the rotating shaft 9 to rotate in the heating process, so that the rotation of the fan 8 is realized, the fan 8 rapidly pumps vapor generated in the heating tank 1 into the sealing cover 7 and enters the circulating pipe 4 through the first connecting pipe 6, so that the flowing vapor in the circulating pipe 4 secondarily heats the water in the heating tank 1, enters the conical pipe 13 through the circulating pipe 4, is cooled by cold water in the cooling chamber 14 in the flowing process in the conical pipe 13, is liquefied into water, flows into the storage chamber 17 to be recycled, and when the water in the heating tank 1 is reduced, the water pump 18 is started and the water in the storage chamber 17 is transported to the inside the heating tank 1 through the conveying pipe 20 to supplement the water.
The present utility model is not limited to the above-mentioned embodiments, and any equivalent embodiments which can be changed or modified by the technical content disclosed above can be applied to other fields, but any simple modification, equivalent changes and modification made to the above-mentioned embodiments according to the technical substance of the present utility model without departing from the technical content of the present utility model still belong to the protection scope of the technical solution of the present utility model.

Claims (6)

1. A thermodynamic cycle energy saving device, comprising a heating tank (1), characterized in that: the heating tank is characterized in that a circular through hole (5) is formed in the top end of the heating tank (1), a connecting pipe (6) is fixedly installed inside the circular through hole (5), a sealing cover (7) is connected to one end of the connecting pipe (6) in a penetrating mode, a second circular through hole is formed in the top end of the heating tank (1) and located at the inner position of the sealing cover (7) in a penetrating mode, a circulating pipe (4) is fixedly connected to the other end of the connecting pipe (6), a second connecting pipe is fixedly installed at the other end of the circulating pipe (4), the other end of the second connecting pipe penetrates through the inner bottom surface of the heating tank (1), and a heating rod (3) is fixedly installed at the inner bottom surface of the heating tank (1) and located at the central position.
2. A thermodynamic cycle energy conservation device as claimed in claim 1, wherein: the cooling device is characterized in that a cooling water tank (2) is fixedly arranged at the bottom end of the heating tank (1), the cooling water tank (2) comprises a cooling chamber (14) and a storage chamber (17), the storage chamber (17) is located below the cooling chamber (14), a conical pipe (13) is fixedly arranged at one end of the second connecting pipe, the other end of the conical pipe (13) penetrates through the cooling chamber (14) and is communicated with the storage chamber (17), a condensing pipe (15) is fixedly arranged on the inner surface of the cooling chamber (14), a refrigerating tank (16) is fixedly arranged at two ends of the condensing pipe (15) and penetrates through the inner surface of the cooling chamber (14), and one side of the refrigerating tank (16) is fixedly arranged on the outer surface of the cooling water tank (2).
3. A thermodynamic cycle energy conservation device as claimed in claim 1, wherein: the bottom surface in the heating tank (1) is fixedly provided with a supporting block (11), and the top end of the supporting block (11) is contacted with the outer surface of the circulating pipe (4).
4. A thermodynamic cycle energy conservation device as claimed in claim 1, wherein: the novel fan is characterized in that a motor (10) is fixedly arranged at the top end of the sealing cover (7), a rotating shaft (9) is rotatably connected to the output end of the motor (10), a fan (8) is fixedly arranged at the other end of the rotating shaft (9), and one end of the rotating shaft (9) penetrates through the top end of the sealing cover (7) and the top end of the fan (8) to be fixedly arranged.
5. A thermodynamic cycle energy conservation device as claimed in claim 2, wherein: the heating tank is characterized in that a first adjustable sealing pipe (12) is communicated with the outer surface of the heating tank (1) and near the bottom end, and a second adjustable sealing pipe is communicated with the outer surface of the cold water tank (2) and located at the positions of the cooling chamber (14) and the storage chamber (17).
6. A thermodynamic cycle energy conservation device as claimed in claim 2, wherein: the cold water tank (2) surface just is located storage room (17) position department all runs through the intercommunication and has transfer pipe (19) No. one, transfer pipe (19) other end fixed mounting has water pump (18), heating jar (1) surface runs through the intercommunication and has No. two transfer pipes, transfer pipe (19) with link up between No. two transfer pipes and be connected with conveyer pipe (20).
CN202322153996.7U 2023-08-11 2023-08-11 Thermodynamic cycle energy-saving device Active CN220541364U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN202322153996.7U CN220541364U (en) 2023-08-11 2023-08-11 Thermodynamic cycle energy-saving device

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN202322153996.7U CN220541364U (en) 2023-08-11 2023-08-11 Thermodynamic cycle energy-saving device

Publications (1)

Publication Number Publication Date
CN220541364U true CN220541364U (en) 2024-02-27

Family

ID=89961707

Family Applications (1)

Application Number Title Priority Date Filing Date
CN202322153996.7U Active CN220541364U (en) 2023-08-11 2023-08-11 Thermodynamic cycle energy-saving device

Country Status (1)

Country Link
CN (1) CN220541364U (en)

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