CN114877706A - Steam condensate water recovery mechanism for rice flour drying equipment - Google Patents

Abstract

The invention relates to the technical field of rice noodle processing, in particular to a steam condensate water recovery mechanism for rice noodle drying equipment. Steam passes through the inside that steam air inlet and shunt got into the condenser pipe, behind cold water got into the cold water storage cistern through the cold water inlet tube, slowly get into condensation heat conduction case, thereby cool off the inside steam of condenser pipe through the condenser pipe, can reduce the speed of steam emission through the flow valve, make steam and comdenstion water heat conduction time increase, improve condensation efficiency, through heat radiation fins, servo motor and flabellum can cool down the cooling water, thereby further improve the condensation effect, hot water after the condensation passes through the inside that hot water outlet pipe got into hot water heat preservation holding vessel and stores, so that the user uses, this device can improve condensation efficiency, reduce steam temperature, can store hot water after the condensation, the rate of utilization is improved, very environmental protection.

Description

Steam condensate water recovery mechanism for rice flour drying equipment

Technical Field

The invention relates to the technical field of rice noodle processing, in particular to a steam condensate water recovery mechanism for rice noodle drying equipment.

Background

Among the foods processed by using rice as a raw material, rice flour is one of the main products and is a traditional food which is not faded for a long time, and continuously develops and updates, the traditional local flavor food is developed into an industrialized product at present, the straight rice noodles are processed by taking pure rice as a raw material through the procedures of gelatinization, forming, drying and the like, the wet rice noodles are also a bulk product in the traditional rice noodles, the quick-frozen fried rice noodles are a new product developed by combining with the fried rice noodles with the characteristics in the south on the basis of the production, the production before freezing is the same as the process of the straight rice noodles during production, and then the fried rice noodles are fried, the instant rice noodles are prepared by quick freezing when the taste is optimal, the convenience rice noodles are originated in 80 years, because the mechanical continuous production of the rice noodles can be realized, the finished product rate of products is high, the rice flour is convenient to carry and fast to eat, and the rice flour needs to be dried during preparation, and a large amount of hot steam is released through equipment during drying;

present partial steam condensation recovery unit on the market is when condensing, thereby condensation efficiency is lower still has a large amount of heats in the steam, and then lead to extravagantly to hot water after the condensation directly discharges, thereby causes the waste once more, comparatively not environmental protection.

Disclosure of Invention

The invention aims to solve the defects in the prior art, and provides a steam condensate water recovery mechanism for rice noodle drying equipment.

In order to achieve the purpose, the invention provides the following technical scheme: a steam condensate recovery mechanism for rice flour drying equipment comprises a condensation heat conduction box, wherein a flow divider is fixedly connected to the inner wall of one end of the condensation heat conduction box, a flow collector is fixedly connected to the inner wall of the other end of the condensation heat conduction box, a condensation pipe is uniformly arranged in the condensation heat conduction box, two ends of the condensation pipe are respectively connected with one side of the flow collector and one side of the flow divider, which is far away from the flow collector, is connected with a steam inlet, one end of the steam inlet penetrates through the condensation heat conduction box and extends to the outside of the condensation heat conduction box, the top end of the flow collector is connected with a steam discharge port, one end of the steam discharge port penetrates through the condensation heat conduction box and extends to the outside of the condensation heat conduction box, a flow valve is arranged in the middle of the steam discharge port, and a condensate water inlet hole is uniformly formed in the bottom end of the condensation heat conduction box, and the comdenstion water inlet opening all is located between shunt and the current collector, the one end of condensation heat conduction case is provided with hot water heat preservation holding vessel, the top of hot water heat preservation holding vessel is connected with the hot water outlet pipe, and the one end of hot water outlet pipe is connected with the top of condensation heat conduction case, the one end of hot water heat preservation holding vessel is connected with the drain pipe, the middle part of drain pipe is provided with the drain valve, the bottom of shunt is connected with first waste water discharge pipe, the middle part of first waste water discharge pipe is provided with first blow-off valve, the bottom of current collector is connected with second waste water discharge pipe, the middle part of second waste water discharge pipe is connected with the second blow-off valve, the bottom fixedly connected with cold water storage cistern of condensation heat conduction case, the one end of cold water storage cistern is connected with the cold water inlet tube, the one end of cold water storage cistern is provided with cooling mechanism.

Preferably, the surface of hot water heat preservation holding vessel is provided with the insulation cover, and the thickness of insulation cover is five millimeters, can improve the heat insulating ability of hot water heat preservation holding vessel through the insulation cover, increases the heat preservation time.

Preferably, cooling mechanism includes heat radiation fins, fixed mounting board, dryer, servo motor and flabellum, the cold water inlet tube was kept away from to the cold water tank one end is hung and is connected with fixed mounting board, the inside of fixed mounting board evenly is provided with the dryer, the inside of dryer all is provided with servo motor, servo motor's the all fixedly connected with flabellum of output can cool down the processing, further improvement condensation effect to the inside comdenstion water of cold water tank through servo motor and flabellum.

Preferably, the bottom end of the cold water tank is uniformly and fixedly connected with radiating fins, one ends of the radiating fins are close to one side of the fixed mounting plate, the cooling efficiency can be improved through the radiating fins at the bottom end of the cold water tank, and the temperature of condensed water in the cold water tank is reduced.

Preferably, the surface of dryer all with the inner wall fixed connection of fixed mounting panel, the control end of flabellum all is through external switch and external power electric connection, and the user can control the flabellum through the switch to convenience of customers controls this device and carries out work.

Preferably, there are fifteen sets of condenser pipes, the condenser pipe all is made for metallic copper, and the condenser pipe of multiunit copper can accelerate the condensation, raises the efficiency.

Preferably, the size of the flow divider is the same as that of the collector, and the condenser tubes are located between the collector and the flow divider, so that the use is convenient for users.

Preferably, one end of the second wastewater discharge pipe extends to the outside of the condensation heat transfer tank through the condensation heat transfer tank, and one end of the first wastewater discharge pipe extends to the outside of the condensation heat transfer tank through the condensation heat transfer tank, so that the user can use the wastewater discharge pipe conveniently.

Compared with the prior art, the invention has the beneficial effects that:

steam enters the inside of the flow divider through the steam inlet, is divided to the inside of the condensing pipe through the flow divider, is concentrated through the flow collector, simultaneously, cold water enters the inside of the cold water tank through the cold water inlet pipe, slowly enters the inside of the condensed heat conduction tank through the condensed water inlet hole, is condensed through the condensing pipe, thereby cooling the steam inside the condensing pipe, can reduce the speed of steam discharge through the flow valve in the middle of the steam discharge port, further prolong the heat conduction time of the steam and the condensed water, improve the condensing efficiency, simultaneously, the cooling water can be cooled by the heat dissipation fins at the bottom end of the cold water tank and the servo motor and the fan blades at one side of the cold water tank, thereby further improving the condensing effect, condensed hot water enters the inside of the hot water heat preservation storage tank through the hot water outlet pipe for storage, so as to be used by users, the device can improve the condensing efficiency, the steam temperature is reduced, the condensed hot water can be stored, the utilization rate is improved, and the steam-water separator is very environment-friendly.

Drawings

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

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

FIG. 3 is a schematic sectional perspective view of a condensing heat transfer tank, a cold water tank and a condenser pipe according to the present invention;

FIG. 4 is a schematic sectional perspective view of a fixing mounting plate and an air duct according to the present invention;

FIG. 5 is a schematic sectional perspective view of a hot water thermal insulation storage tank, a thermal insulation jacket and a drain pipe according to the present invention;

FIG. 6 is an exploded perspective view of the condensing heat transfer tank, the cold water tank and the hot water holding storage tank of the present invention;

FIG. 7 is an exploded perspective view of the condensing heat transfer box, the splitter and the condenser tube of the present invention.

In the figure: 1. a condensing heat transfer tank; 2. a flow divider; 3. a current collector; 4. a condenser tube; 5. a steam inlet; 6. a steam discharge port; 7. a condensed water inlet hole; 8. a hot water outlet pipe; 9. a hot water heat preservation storage tank; 10. a drain pipe; 11. a drain valve; 12. a thermal insulation sleeve; 13. a first wastewater discharge pipe; 14. a first discharge valve; 15. a second wastewater discharge pipe; 16. a second discharge valve; 17. a cold water tank; 18. a cold water inlet pipe; 19. heat dissipation fins; 20. fixing the mounting plate; 21. an air duct; 22. a servo motor; 23. a fan blade; 24. a flow valve.

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.

Referring to fig. 1-7, an embodiment of the present invention is shown:

a steam condensate recovery mechanism for rice flour drying equipment comprises a condensation heat conduction box 1, wherein a flow divider 2 is fixedly connected to the inner wall of one end of the condensation heat conduction box 1, a flow collector 3 is fixedly connected to the inner wall of the other end of the condensation heat conduction box 1, condenser pipes 4 are uniformly arranged in the condensation heat conduction box 1, two ends of each condenser pipe 4 are respectively connected with one side of the flow collector 3 and one side of the flow divider 2, which is far away from the flow collector 3, is connected with a steam inlet 5, one end of the steam inlet 5 penetrates through the condensation heat conduction box 1 and extends to the outside of the condensation heat conduction box 1, the top end of the flow collector 3 is connected with a steam discharge port 6, one end of the steam discharge port 6 penetrates through the condensation heat conduction box 1 and extends to the outside of the condensation heat conduction box 1, a flow valve 24 is arranged in the middle of the steam discharge port 6, and condensate water inlet holes 7 are uniformly formed in the bottom end of the condensation heat conduction box 1, and the condensed water inlet holes 7 are all positioned between the flow divider 2 and the flow collector 3, one end of the condensed heat conduction box 1 is provided with a hot water heat preservation storage tank 9, the top end of the hot water heat preservation storage tank 9 is connected with a hot water outlet pipe 8, one end of a hot water outlet pipe 8 is connected with the top end of the condensation heat conduction box 1, one end of a hot water heat preservation storage tank 9 is connected with a drain pipe 10, the middle part of the drain pipe 10 is provided with a drain valve 11, the bottom end of the flow divider 2 is connected with a first wastewater discharge pipe 13, the middle part of the first wastewater discharge pipe 13 is provided with a first discharge valve 14, the bottom end of the flow collector 3 is connected with a second wastewater discharge pipe 15, the middle part of the second wastewater discharge pipe 15 is connected with a second discharge valve 16, the bottom end of the condensation heat conduction box 1 is fixedly connected with a cold water box 17, one end of the cold water box 17 is connected with a cold water inlet pipe 18, and one end of the cold water box 17 is provided with a cooling mechanism;

furthermore, the bottom end of the cold water tank 17 is uniformly and fixedly connected with radiating fins 19, one end of each radiating fin 19 is close to one side of the fixed mounting plate 20, after condensed water enters the inside of the cold water tank 17 through the cold water inlet pipe 18, the radiating fins 19 at the bottom end of the cold water tank 17 can be in heat transfer with the condensed water inside the cold water tank 17, the heat can be radiated through the radiating fins 19 at the bottom end of the cold water tank 17, so that the cooling efficiency can be improved, the temperature of the condensed water inside the cold water tank 17 can be reduced, fifteen groups of condensing pipes 4 are provided, the condensing pipes 4 are all made of metal copper, the heat transfer efficiency of metal passing is very good, the contact area between steam and the condensed water can be improved through the condensing pipes 4 made of multiple groups of copper, so that the condensation can be accelerated, the condensation time is shortened, the efficiency of the device is improved, the size of the flow divider 2 is the same as that of the flow collector 3, and the condensing pipes 4 are all positioned between the flow divider 2, the cooling mechanism comprises heat dissipation fins 19, a fixed mounting plate 20, an air duct 21, a servo motor 22 and fan blades 23, the fixed mounting plate 20 is hung and connected at one end of the cold water tank 17 far away from the cold water inlet pipe 18, the air duct 21 is uniformly arranged inside the fixed mounting plate 20, the servo motor 22 is arranged inside the air duct 21, the fan blades 23 are fixedly connected at the output ends of the servo motors 22, meanwhile, the servo motor 22 is started by a user through a switch, the servo motor 22 works, the output end of the servo motor 22 drives the fan blades 23 to rotate, one end of the fan blades 23 generates wind power, the condensed water inside the cold water inlet pipe 18 enters the inside of the cold water tank 17, at the moment, the heat dissipation fins 19 at the bottom end of the cold water tank 17 can dissipate the condensed water inside the cold water tank 17, the wind power generated at one side of the fan blades 23 can take away the heat on the surfaces of the heat dissipation fins 19, so as to cool the heat dissipation fins 19, the condensed water in the cold water tank 17 can be cooled through heat transfer, the condensed water in the cold water tank 17 can be cooled through the servo motor 22 and the fan blades 23, so that the condensed water can absorb more heat, further the condensation effect is further improved, one end of the second waste water discharge pipe 15 penetrates through the condensation heat conduction box 1 and extends to the outer side of the condensation heat conduction box 1, one end of the first waste water discharge pipe 13 penetrates through the condensation heat conduction box 1 and extends to the outer side of the condensation heat conduction box 1, the use by a user is convenient, the outer surface of the hot water heat preservation storage tank 9 is provided with the heat preservation sleeve 12, the thickness of the heat preservation sleeve 12 is five millimeters, when the condensed water is heated, hot water can enter the hot water heat preservation storage tank 9 through the hot water outlet pipe 8, the hot water can be preserved and stored through the hot water heat preservation storage tank 9, the heat preservation effect of the hot water heat preservation storage tank 9 can be improved through the heat preservation sleeve 12 on the outer surface of the hot water heat preservation storage tank 9, can improve hot water heat preservation holding vessel 9's heat insulating ability through insulation cover 12, increase the heat preservation time, the surface of dryer 21 all with the inner wall fixed connection of fixed mounting panel 20, the control end of flabellum 23 all through external switch and external power electric connection, the user can control flabellum 23 through the switch to convenience of customers controls this device and carries out work.

The working principle is as follows: when a user uses the device, the user connects the device with drying equipment through the steam inlet 5, so that steam enters the steam inlet 5, the steam inside the steam inlet 5 enters the inside of the flow divider 2 and is divided through the flow divider 2 to be divided into a plurality of groups of condenser pipes 4, meanwhile, the user starts the servo motor 22 through a switch, the servo motor 22 works, the output end of the servo motor 22 drives the fan blade 23 to rotate, one end of the fan blade 23 generates wind power, one end of the cold water inlet pipe 18 is connected with an external water pipe, the condensed water enters the inside of the cold water inlet pipe 18, the condensed water inside the cold water inlet pipe 18 enters the inside of the cold water tank 17, at the moment, the heat dissipation fins 19 at the bottom end of the cold water tank 17 can dissipate the condensed water inside the cold water tank 17, and the wind power generated at one side of the fan blade 23 can take away the heat on the surfaces of the heat dissipation fins 19, thereby cooling the heat dissipation fins 19, cooling the condensed water in the cold water tank 17 by heat transfer, slowly injecting the condensed water into the cold water tank 17 by a user, slowly introducing the condensed water into the condensed heat transfer tank 1 through the condensed water inlet hole 7 at the bottom of the condensed heat transfer tank 1, transferring the heat between the condensed water at a lower temperature and the high-temperature flow divider 2, the flow collector 3 and the condenser pipe 4, cooling the high-temperature steam by the condensed water, heating the condensed water by the high-temperature steam, flowing into the hot water outlet pipe 8 after the condensed water is heated, introducing the hot water in the hot water outlet pipe 8 into the hot water heat preservation storage tank 9, preserving and storing the hot water by the hot water heat preservation storage tank 9, and improving the heat preservation effect of the hot water heat preservation storage tank 9 by the heat preservation sleeve 12 on the outer surface of the hot water heat preservation storage tank 9, when a user needs to use hot water, the user opens the drain valve 11, the hot water in the hot water heat-preservation storage tank 9 can be discharged through the drain pipe 10 for use, meanwhile, the user can control the discharge speed of the steam discharge port 6 through the flow valve 24, the heat transfer time between steam and condensed water can be prolonged after the user reduces the discharge speed of the steam discharge port 6, so that the condensation efficiency is improved, the heat discharge is reduced, steam in the flow divider 2, the flow collector 3 and the condensation pipe 4 is condensed into water drops in the condensation process, the water drops flow to the flow divider 2 and the flow collector 3, the user opens the first drain valve 14 at intervals, water in the flow divider 2 can be discharged through the first waste water discharge pipe 13, and after the discharge is finished, the user opens the second drain valve 16 and discharges the water in the flow collector 3 through the second waste water discharge pipe 15, avoid shunt 2, current collector 3 and the inside ponding of condenser pipe 4 to influence the normal use of this device, this device can improve condensation efficiency, reduces steam temperature, can store the hot water after the condensation, improves the rate of utilization, ten minutes environmental protection.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (8)

1. The utility model provides a rice flour is steam condensate recovery mechanism for drying equipment, includes condensation heat conduction case (1), its characterized in that: the condenser is characterized in that a flow divider (2) is fixedly connected to the inner wall of one end of the condensation heat conduction box (1), a current collector (3) is fixedly connected to the inner wall of the other end of the condensation heat conduction box (1), a condensation pipe (4) is uniformly arranged in the condensation heat conduction box (1), two ends of the condensation pipe (4) are respectively connected with one side of the current collector (3) and one side of the flow divider (2), the side, far away from the current collector (3), of the flow divider (2) is connected with a steam inlet (5), one end of the steam inlet (5) penetrates through the condensation heat conduction box (1) and extends to the outside of the condensation heat conduction box (1), a steam discharge port (6) is connected to the top end of the current collector (3), one end of the steam discharge port (6) penetrates through the condensation heat conduction box (1) and extends to the outside of the condensation heat conduction box (1), and a flow valve (24) is arranged in the middle of the steam discharge port (6), the bottom of the condensation heat conduction box (1) is uniformly provided with condensate water inlet holes (7), the condensate water inlet holes (7) are all located between the flow divider (2) and the flow collector (3), one end of the condensation heat conduction box (1) is provided with a hot water heat preservation storage tank (9), the top end of the hot water heat preservation storage tank (9) is connected with a hot water outlet pipe (8), one end of the hot water outlet pipe (8) is connected with the top end of the condensation heat conduction box (1), one end of the hot water heat preservation storage tank (9) is connected with a drain pipe (10), the middle part of the drain pipe (10) is provided with a drain valve (11), the bottom end of the flow divider (2) is connected with a first wastewater discharge pipe (13), the middle part of the first wastewater discharge pipe (13) is provided with a first discharge valve (14), the bottom end of the flow collector (3) is connected with a second wastewater discharge pipe (15), the middle part of the second waste water discharge pipe (15) is connected with a second discharge valve (16), the bottom end of the condensation heat conduction box (1) is fixedly connected with a cold water tank (17), one end of the cold water tank (17) is connected with a cold water inlet pipe (18), and one end of the cold water tank (17) is provided with a cooling mechanism.

2. The steam condensate recovery mechanism for rice noodle drying equipment according to claim 1, characterized in that: the outer surface of the hot water heat-preservation storage tank (9) is provided with a heat-preservation sleeve (12), and the thickness of the heat-preservation sleeve (12) is five millimeters.

3. The steam condensate recovery mechanism for rice noodle drying equipment according to claim 1, characterized in that: cooling mechanism includes cooling fin (19), fixed mounting panel (20), dryer (21), servo motor (22) and flabellum (23), the one end that cold water inlet tube (18) were kept away from in cold water tank (17) is hung and is connected with fixed mounting panel (20), the inside of fixed mounting panel (20) evenly is provided with dryer (21), the inside of dryer (21) all is provided with servo motor (22), the output of servo motor (22) all fixedly connected with flabellum (23).

4. The steam condensate recovery mechanism for rice noodle drying equipment according to claim 3, characterized in that: the bottom end of the cold water tank (17) is uniformly and fixedly connected with radiating fins (19), and one end of each radiating fin (19) is close to one side of the fixed mounting plate (20).

5. The steam condensate recovery mechanism for rice noodle drying equipment according to claim 3, characterized in that: the outer surface of the air duct (21) is fixedly connected with the inner wall of the fixed mounting plate (20), and the control ends of the fan blades (23) are electrically connected with an external power supply through an external switch.

6. The steam condensate recovery mechanism for rice noodle drying equipment according to claim 1, characterized in that: fifteen groups of the condensation pipes (4) are provided, and the condensation pipes (4) are all made of metal copper.

7. The steam condensate recovery mechanism for rice noodle drying equipment according to claim 1, characterized in that: the size of the flow divider (2) is the same as that of the collector (3), and the condenser tubes (4) are positioned between the collector (3) and the flow divider (2).

8. The steam condensate recovery mechanism for rice noodle drying equipment according to claim 1, characterized in that: one end of the second waste water discharge pipe (15) extends to the outside of the condensation heat transfer tank (1) through the condensation heat transfer tank (1), and one end of the first waste water discharge pipe (13) extends to the outside of the condensation heat transfer tank (1) through the condensation heat transfer tank (1).

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