CN215929538U - Steam condensate water waste heat recycling device - Google Patents

Abstract

The utility model discloses a steam condensate waste heat recovery device in the technical field of steam condensate waste heat recovery, which comprises a base assembly, wherein the base assembly comprises a base, and a cylindrical water tank is fixed at the top of the base; the waste heat recovery assembly comprises a spiral air duct arranged in the water tank, an air inlet pipe communicated with the bottom of the spiral air duct is arranged at the bottom of the spiral air duct, and an air outlet pipe communicated with the other end of the spiral air duct is arranged at the other end of the spiral air duct. The utility model is provided with a waste heat recovery assembly, the waste heat recovery assembly can exchange heat with water in the water tank through the flow of steam in the spiral air duct, so that the water in the water tank has certain temperature to meet the water replenishing requirement of a boiler, meanwhile, the steam enters the guide shell through the spiral air duct and the air outlet duct, so that the fan blade group rotates to further generate electricity by the generator, and the disturbance blade can be driven by the driving device to disturb the water in the water tank during heat exchange, so that the water in the water tank and the steam in the spiral air duct can efficiently contact and exchange heat.

Description

Steam condensate water waste heat recycling device

Technical Field

The utility model relates to the technical field of waste heat recovery of steam condensate water, in particular to a waste heat recovery and utilization device of the steam condensate water.

Background

The supply water is normal temperature in the existing boiler water supply process, and in winter, the supply water with too low temperature brings great burden to the steam boiler, and the energy consumption is increased. The boiler on the existing market directly discharges the steam after using in the atmosphere, not only makes the energy run off in a large number, contains water in the steam moreover, has wasted a large amount of comdenstion water, causes use cost height, uses drawbacks such as inconvenient, for this reason, we propose steam comdenstion water waste heat recovery and utilization device.

Disclosure of Invention

The utility model aims to provide a steam condensate waste heat recycling device to solve the problems in the background technology.

In order to achieve the purpose, the utility model provides the following technical scheme: the steam condensate water waste heat recycling device comprises,

the base assembly comprises a base, a cylindrical water tank is fixed at the top of the base, communicated water outlet connecting pipes are fixedly inserted into the side wall of the bottom of the water tank, and communicated water inlet connecting pipes are arranged on the front side of the top of the water tank;

the waste heat recovery subassembly, the waste heat recovery subassembly is including setting up the spiral air duct in the water tank, and the bottom of spiral air duct is provided with the intake pipe that is linked together, and the intake pipe other end is fixed to run through water tank lateral part outer wall bottom and is connected with the air guide pump output, and the input of air guide pump is provided with the connecting pipe, the air guide pump is fixed at the base top, the spiral air duct other end is provided with the outlet duct that is linked together.

Furthermore, the front side and the rear side of the center of the top of the water tank are both fixed with support frames, two groups of support frames are fixed with a disc-shaped guide shell between the support frames, the other end of the air outlet pipe is communicated with the left side of the guide shell, the top of the guide shell is provided with corresponding air pipes which are communicated with each other, the front side of the guide shell is fixed with a generator, the output end of the generator is provided with a fan blade group, the fan blade group is located in the guide shell, the generator is electrically connected with a storage battery, and the storage battery is fixed at the top of the water tank.

Further, it is provided with the arc metal covering to correspond the trachea top, the arc metal covering passes through the link and is fixed with direction shell outer wall, the frame is collected to the annular that direction shell outer wall top activity cover was equipped with and corresponds with the arc metal covering, annular notch has been seted up at frame top is collected to the annular, and the top is fixed with annular filter screen in the annular notch.

Furthermore, the annular array at the bottom of the annular collecting frame is provided with water guide pipes communicated with the annular notches, control valves are arranged in the water guide pipes, and the water guide pipes are communicated with the water tank.

Further, water tank top inner wall centre of a circle department is fixed with drive arrangement, and the drive arrangement output is provided with the dwang, and the dwang outer wall is provided with the multiunit disturbance blade from last equidistance extremely down, and the disturbance blade is in the spiral air duct inboard.

Furthermore, the outer wall of the disturbance blade is uniformly provided with seepage holes, and a temperature sensor is arranged in the water tank.

Compared with the prior art, the utility model has the beneficial effects that: the waste heat recovery device is provided with a waste heat recovery assembly, steam can exchange heat with water in the water tank through flowing in the spiral air duct, so that the water in the water tank has a certain temperature to meet the water replenishing requirement of a boiler, meanwhile, the steam enters the guide shell through the spiral air duct and the air outlet duct, so that the fan blade group rotates and the generator generates electricity, the rotating rod can be driven by the driving device to disturb the water in the water tank through the disturbing blades during heat exchange, the water in the water tank and the steam in the spiral air duct are in contact heat exchange with each other at high efficiency, meanwhile, after the steam is discharged from the corresponding air duct, the steam can be liquefied into water drops, the water drops can further enter the annular groove in the annular collecting frame, and then the water drops can be discharged into the water tank through the water duct, so that the waste heat recovery assembly is recycled, and the energy consumption in use is reduced.

Drawings

FIG. 1 is a perspective view of the structure of the present invention;

FIG. 2 is a cross-sectional perspective view of the present invention;

fig. 3 is a perspective view of another perspective structure of fig. 1 according to the present invention.

In the figure: 1. a base component; 11. a base; 12. a water tank; 13. a water outlet connecting pipe; 2. a waste heat recovery assembly; 21. a helical air duct; 22. an air outlet pipe; 23. an air guide pump; 24. a drive device; 25. rotating the rod; 26. disturbing the blades; 27. a guide housing; 28. a support frame; 29. a generator; 210. corresponding to the air pipe; 211. an arc-shaped metal cover; 212. a connecting frame; 213. an annular collection frame; 214. a water conduit.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Example 1

Referring to fig. 1-3, the present invention provides a technical solution: the steam condensate water waste heat recycling device comprises a base assembly 1, wherein the base assembly 1 comprises a base 11, a cylindrical water tank 12 is fixed at the top of the base 11 and is convenient for adding water into the interior, a communicated water outlet connecting pipe 13 is fixedly inserted in the side wall of the bottom of the water tank 12 and is convenient for being connected with an external steam boiler, so that the water heated by heat exchange enters the steam boiler for use, a communicated water inlet connecting pipe is arranged at the front side of the top of the water tank 12, and the other end of the water inlet connecting pipe is connected with external water adding equipment so as to conveniently add water into the water tank 12; waste heat recovery subassembly 2, waste heat recovery subassembly 2 is including setting up the spiral air duct 21 in water tank 12, spiral air duct 21 makes things convenient for the better water with in the water tank 12 of steam to carry out the heat transfer, and the bottom of spiral air duct 21 is provided with the intake pipe that is linked together, and the intake pipe other end is fixed to run through water tank 12 lateral part outer wall bottom and is connected with air guide pump 23 output, air guide pump 23 makes steam escape, and air guide pump 23's input is provided with the connecting pipe, air guide pump 23 fixes at base 11 top, connecting pipe is convenient for make external steam get into, the spiral air duct 21 other end is provided with the outlet duct 22 that is linked together, outlet duct 22 makes the steam after the heat transfer get into annular collection frame 213.

As shown in fig. 2-3: the front side and the rear side of the center of the top of the water tank 12 are both fixed with a support frame 28 which plays a role of a support and installation structure, a disc-shaped guide shell 27 is fixed between the two groups of support frames 28, the guide shell 27 plays a role of guiding the steam inside so as to enable the fan blade group inside to rotate, the other end of the air outlet pipe 22 is communicated with the left side of the guide shell 27, the top of the guide shell 27 is provided with a corresponding air pipe 210 communicated with each other, the steam is discharged towards the arc-shaped metal cover 211 by the corresponding air pipe 210, the front side of the guide shell 27 is fixed with a generator 29, the generator 29 belongs to the prior art, details are not described, the output end of the generator 29 is provided with a fan blade group (not shown in the figures), the fan blade group rotates to enable the generator 29 to generate electricity so as to provide power for the storage battery, the fan blade group is positioned in the guide shell 27, the generator 29 is electrically connected with the storage battery, and the storage battery provides power for the electrical elements in the utility model, and the battery is fixed to the top of the water tank 12.

Example 2

As shown in fig. 2-3: an arc-shaped metal cover 211 is arranged above the corresponding air pipe 210, steam enters the arc-shaped metal cover 211, so that the steam can be liquefied into water drops and can slide down into the annular groove, the arc-shaped metal cover 211 is fixed with the outer wall of the guide shell 27 through a connecting frame to play a role in supporting and installing a structure, an annular collecting frame 213 corresponding to the arc-shaped metal cover 211 is movably sleeved at the top of the outer wall of the guide shell 27, the annular collecting frame 213 plays a role in collecting the water drops, an annular groove opening is formed in the top of the annular collecting frame 213, and an annular filter screen is fixed at the top of the annular groove opening;

as shown in fig. 2-3: the bottom of the annular collecting frame 213 is provided with water conduits 214 communicated with the annular notches in an annular array manner, control valves are arranged in the water conduits 214, the water conduits 214 are communicated with the water tank 12, and water in the annular notches can be circulated into the water tank 12 through the water conduits 214 by opening the control valves;

as shown in fig. 2-3: a driving device 24 is fixed at the circle center of the inner wall of the top of the water tank 12, the driving device 24 is composed of a motor and a speed reducer, so that the disturbance blades 26 slowly stir the water in the water tank 12, the driving device 24 is electrically connected with a storage battery, the output end of the driving device 24 is provided with a rotating rod 25, the outer wall of the rotating rod 25 is provided with a plurality of groups of disturbance blades 26 at equal intervals from top to bottom, the disturbance blades 26 are positioned at the inner side of the spiral air duct 21, the rotating rod 25 is rotated through the driving device 24, and then the disturbance blades 26 are rotated, so that the disturbance effect on the water in the water tank 12 is achieved, and the water can perform high-efficiency heat exchange on the spiral air duct 21;

as shown in fig. 2-3: the 26 outer walls of disturbance blade evenly are provided with the infiltration hole, make things convenient for inside water to flow, are provided with temperature sensor (not shown in the figure) in the water tank 12, and temperature sensor is prior art, does not do the detail herein in addition, and temperature sensor is connected with external display screen, conveniently shows the temperature behind the water of inside water tank 12 and the heat transfer of spiral air duct 21.

The rest of the structure is the same as in example 1.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. Steam condensate water waste heat recovery utilizes device, its characterized in that: comprises the steps of (a) preparing a mixture of a plurality of raw materials,

the base assembly (1) comprises a base (11), a cylindrical water tank (12) is fixed to the top of the base (11), a communicated water outlet connecting pipe (13) is fixedly inserted into the side wall of the bottom of the water tank (12), and a communicated water inlet connecting pipe is arranged on the front side of the top of the water tank (12);

waste heat recovery subassembly (2), waste heat recovery subassembly (2) is including setting up spiral air duct (21) in water tank (12), and the bottom of spiral air duct (21) is provided with the intake pipe that is linked together, and the intake pipe other end is fixed to run through water tank (12) lateral part outer wall bottom and is connected with air guide pump (23) output, and the input of air guide pump (23) is provided with the connecting tube, air guide pump (23) are fixed at base (11) top, spiral air duct (21) other end is provided with outlet duct (22) that are linked together.

2. The steam condensate waste heat recovery device of claim 1, wherein: all be fixed with support frame (28), two sets of side around water tank (12) top central authorities all be fixed with between support frame (28) and be disc direction shell (27), the other end and the direction shell (27) left side intercommunication of outlet duct (22), direction shell (27) top is provided with corresponding trachea (210) that are linked together, the front side of direction shell (27) is fixed with generator (29), and the output of generator (29) is provided with the fan blade group, and the fan blade group is in direction shell (27), generator (29) electric connection battery, and the battery is fixed at water tank (12) top.

3. The steam condensate waste heat recovery device of claim 2, wherein: correspond trachea (210) top and be provided with arc metal covering (211), arc metal covering (211) are fixed with direction shell (27) outer wall through the link, the movable cover in direction shell (27) outer wall top is equipped with the annular collection frame (213) that correspond with arc metal covering (211), annular groove has been seted up at annular collection frame (213) top, and the annular groove top is fixed with annular filter screen.

4. The steam condensate waste heat recovery device of claim 3, wherein: the annular collecting frame (213) is provided with water guide pipes (214) communicated with the annular notches in an annular array mode at the bottom, control valves are arranged in the water guide pipes (214), and the water guide pipes (214) are communicated with the water tank (12).

5. The steam condensate waste heat recovery device of claim 4, wherein: water tank (12) top inner wall centre of a circle department is fixed with drive arrangement (24), and drive arrangement (24) output is provided with dwang (25), and dwang (25) outer wall is provided with multiunit disturbance blade (26) from last equidistance down, and disturbance blade (26) are in spiral air duct (21) inboard.

6. The steam condensate waste heat recovery device of claim 5, wherein: the outer wall of the disturbance blade (26) is uniformly provided with seepage holes, and a temperature sensor is arranged in the water tank (12).

Images