CN218566212U - Water condensation recovery system - Google Patents

Abstract

The utility model discloses a water condensation recovery system, include: retrieve the storehouse, it includes the storehouse body down to retrieve the storehouse, the storehouse body is gone up at body top through bolt fixed mounting down, retrieve storehouse inner wall fixed mounting steam pipe, steam pipe includes the intake pipe, intake pipe left end fixed connection straight tube, straight tube left end fixed mounting end cap, the delivery port is seted up to straight tube left side bottom inner wall, delivery port bottom fixed mounting condenser pipe, steam pipe inner wall fixed mounting is arranged in the waste heat recovery subassembly of retrieving waste heat in the vapor, the utility model discloses a set up two sets of water knockout drum cooperations and uses to the convenient cold water that will channel into in the cold water inlet tube falls into the multiunit, assembles a set of once more with the hot water after the heating afterwards, thereby conveniently exports equipment to hot water for the flow of advancing, going out water is the same, improves drainage efficiency, reduces heat loss speed simultaneously, has improved heat recovery efficiency.

Description

Water condensation recovery system

Technical Field

The utility model relates to a water condensation retrieves technical field, especially relates to a water condensation recovery system.

Background

The esterification reaction of polyester is an organic chemical reaction, which is a reaction of alcohol and carboxylic acid or inorganic acid containing oxygen to generate ester and water, and is divided into three types of reactions of carboxylic acid and alcohol, inorganic acid containing oxygen and alcohol and inorganic acid containing oxygen and alcohol, the esterification reaction of carboxylic acid and alcohol is reversible and the reaction is generally very slow, so that concentrated sulfuric acid is commonly used as a catalyst, and polycarboxylic acid reacts with alcohol to generate a plurality of esters.

Therefore, in view of the above technical problems, it is necessary for those skilled in the art to develop a water condensation recovery system.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a water condensation recovery system.

In order to achieve the above object, the present invention provides the following technical solutions:

the utility model discloses a water condensation recovery system, include: the recycling bin comprises a lower bin body, the top of the lower bin body is fixedly provided with an upper bin body through bolts, the inner wall of the recycling bin is fixedly provided with a steam pipe, the steam pipe comprises an air inlet pipe, the left end of the air inlet pipe is fixedly connected with a straight pipe, the left end of the straight pipe is fixedly provided with a plug, the inner wall of the bottom of the left side of the straight pipe is provided with a water outlet, the bottom of the water outlet is fixedly provided with a condensation pipe, the inner wall of the steam pipe is fixedly provided with a waste heat recycling assembly for recycling waste heat in water vapor, and the outer wall of the condensation pipe is fixedly provided with a radiator.

Furthermore, the radiator is a manifold, the included angle between the manifold and the outer wall of the condensation pipe is set to be 45 degrees, a cavity is formed in the inner wall of the manifold, and the bottom end of the cavity and the inner wall of the condensation pipe are of a communicated structure.

Furthermore, the radiator is a radiating ring which is arranged into a circular sheet shape, the radiating ring is uniformly and fixedly arranged on the outer wall of the condensing tube, and the radiating ring is used for increasing the outer surface area of the steam tube.

Furthermore, the condenser pipe is S-shaped, the whole basic shape of the condenser pipe is triangular, a water permeable hole is formed in the center of the bottom of a trap at the bottom of the condenser pipe, and the bottom of the water permeable hole is fixedly connected with the flow guide pipe.

Further, the honeycomb duct extends to the condensate pipe right side and deposits the elbow, the honeycomb duct is used for depositing the elbow comdenstion water and discharging the right side deposit the elbow, condensate pipe right-hand member bottom fixed connection comdenstion water outlet pipe, the comdenstion water outlet pipe extends to and retrieves the storehouse right side outside.

Further, the waste heat recovery assembly comprises a cold water inlet pipe, the cold water inlet pipe is fixedly installed on the inner wall of the air inlet pipe, the left end of the cold water inlet pipe is fixedly connected with the water separator, a water distribution pipe is fixedly installed on the outer wall of the left side of the water separator, the water distribution pipe is uniformly distributed on the outer wall of the left side of the water separator, and the left end of the water distribution pipe is fixedly connected with a copper pipe.

Furthermore, the left end of the copper pipe is fixedly provided with water distributors, the two groups of water distributors are distributed in a bilateral symmetry mode, the water distributors on the left side are fixedly arranged on the inner wall of the straight pipe, the output end of the water distributor on the left side is fixedly connected with a hot water outlet pipe, and the hot water outlet pipe extends to the outside of the upper bin body.

In the technical scheme, the utility model provides a pair of water condensation recovery system has following beneficial effect:

1. the water permeable holes are formed in the trap, so that condensed water in the condensation pipe can be conveniently led into the flow guide pipe through the water permeable holes in time, and accumulated water in each trap can be conveniently drained out in time under the action of gravity;

2. through setting up two sets of water knockout drums cooperation and using to the convenience falls into the multiunit with leading-in cold water into the cold water inlet tube, assembles into a set of once more with the hot water after the heating afterwards, thereby convenient to hot water derivation equipment, makes into, the flow of going out water the same, improves drainage efficiency, reduces heat loss speed simultaneously, has improved heat recovery efficiency.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings needed to be used in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments described in the present invention, and other drawings can be obtained by those skilled in the art according to these drawings.

Fig. 1 is a schematic cross-sectional structural diagram of a water condensation recovery system provided in an embodiment of the present invention;

fig. 2 is a schematic view of an exploded structure of a waste heat recovery assembly of a water condensation recovery system according to an embodiment of the present invention;

fig. 3 is an enlarged view of a portion a in fig. 2 of a water condensation and recovery system according to an embodiment of the present invention;

fig. 4 is a schematic structural view of a water separator of a water condensation recovery system according to an embodiment of the present invention;

fig. 5 is a schematic view of a mounting structure of a manifold in embodiment 1 of a water condensation recovery system according to an embodiment of the present invention;

fig. 6 is a schematic view of a mounting structure of a heat dissipation ring in embodiment 2 of a water condensation recovery system provided by the embodiment of the present invention.

Description of reference numerals: the recycling bin comprises a recycling bin 100, a lower bin body 110, an upper bin body 120, a steam pipe 200, an air inlet pipe 210, a straight pipe 220, a plug 230, a water outlet 240, a condensing pipe 250, a water permeable hole 251, a flow guide pipe 252, a radiator manifold 260, a cavity 261, a heat dissipation ring 270, a condensed water outlet pipe 280, a waste heat recycling assembly 300, a cold water inlet pipe 310, a water separator 320, a water distribution pipe 330, a copper pipe 340 and a hot water outlet pipe 350.

Detailed Description

In order to make the technical solution of the present invention better understood by those skilled in the art, the present invention will be further described in detail with reference to the accompanying drawings.

As shown in fig. 1-5;

the utility model discloses a water condensation recovery system, include: retrieve storehouse 100, retrieve storehouse 100 and include storehouse body 110 down, storehouse body 120 in the bolt fixed mounting is passed through at storehouse body 110 top down, retrieve 100 inner wall fixed mounting steam pipe 200 in the storehouse, steam pipe 200 includes intake pipe 210, intake pipe 210 left end fixed connection straight tube 220, straight tube 220 left end fixed mounting end cap 230, water outlet 240 has been seted up to straight tube 220 left side bottom inner wall, water outlet 240 bottom fixed mounting condenser pipe 250, steam pipe 200 inner wall fixed mounting is arranged in retrieving waste heat recovery subassembly 300 of waste heat in the vapor, condenser pipe 250 outer wall fixed mounting radiator.

Specifically, go up storehouse body 120 and lower storehouse body 110 cooperation and use, have the effect of steam pipe 200 of easy to assemble, condenser pipe 250, steam pipe 200 has the effect of conveniently letting in the vapor of treating the cooling, have the effect of easy to assemble waste heat recovery subassembly 300 through setting up steam pipe 200, thereby conveniently through leading-in steam pipe 200 inside back, make steam and copper pipe 340 inside cold water carry out the heat transfer, thereby conveniently with the waste water that produces among steam and the industrial production process behind leading-in intake pipe 210, fully contact with copper pipe 340 outer wall, thereby conveniently heat the inside cold water of copper pipe 340 through steam and the waste water that contains heat, thereby conveniently pass through the heat transfer form, heat cold water, thereby conveniently retrieve the heat in the steam, the utilization ratio of energy is improved, intake pipe 210 has the effect that the waste water that conveniently leads in steam and the esterification reaction carries out the heat transfer, end cap 230 has the confined effect to steam pipe 200 left end.

The condensation pipe 250 is S-shaped, the condensation pipe 250 is basically triangular in shape, a water permeable hole 251 is formed in the center of the bottom of a trap at the bottom of the condensation pipe 250, a guide pipe 252 is fixedly connected to the bottom of the water permeable hole 251, the guide pipe 252 extends to the right trap of the condensation pipe 250, the guide pipe 252 is used for discharging condensate water at the trap to the right trap, a condensate water outlet pipe 280 is fixedly connected to the bottom of the right end of the condensation pipe 250, the condensate water outlet pipe 280 extends to the outside of the right side of the recycling bin 100, specifically, the condensation pipe 250 has the function of conveniently cooling and radiating the condensate water after heat exchange through the straight pipe 220 and the residual water vapor, the condensation pipe 250 is basically triangular in shape, so that the condensate water liquefied in the condensation pipe 250 can be sequentially discharged to the right side through a plurality of guide pipes 252 under the action of gravity, thereby facilitating the condensate water to be finally guided out to the condensate water outlet pipe 280 to be discharged, avoiding the condensate water and the vapor from being accumulated in the condenser pipe 250 for a long time, improving the condensation efficiency, simultaneously improving the practicability and the convenience of the use of the equipment, reducing the maintenance cost of the equipment in the later period, the water outlet 240 has the function of facilitating the condensate water in the straight pipe 220 to be guided out to the condenser pipe 250, thereby facilitating the smoothness of the use of the equipment, the trap is the bottom end of the condenser pipe 250, the condensate water condensed in the condenser pipe 250 can be conveniently led into the guide pipe 252 through the water permeable hole 251, thereby facilitating the condensate water accumulated in each trap to be discharged in time under the action of gravity, avoiding the accumulated water from being remained in the condenser pipe 250 for a long time, and further influencing the service life of the condenser pipe 250, and meanwhile, the condensation efficiency is improved.

The waste heat recovery assembly 300 comprises a cold water inlet pipe 310, wherein the cold water inlet pipe 310 is fixedly arranged on the inner wall of an air inlet pipe 210, the left end of the cold water inlet pipe 310 is fixedly connected with a water separator 320, a water distribution pipe 330 is fixedly arranged on the outer wall of the left side of the water separator 320, the water distribution pipe 330 is uniformly distributed on the outer wall of the left side of the water separator 320, the left end of the water distribution pipe 330 is fixedly connected with a copper pipe 340, the left end of the copper pipe 340 is fixedly connected with the water separator 320, the two water separators 320 are bilaterally and symmetrically distributed, the left water separator 320 is fixedly arranged on the inner wall of a straight pipe 220, the output end of the left water separator 320 is fixedly connected with a hot water outlet pipe 350, the hot water outlet pipe 350 extends to the outside of the upper bin body 120, specifically, the cold water inlet pipe 310 has the function of conveniently guiding cold water, the water separator 320 can conveniently and uniformly distribute the water guided into the copper pipe 340, so that the cold water can be conveniently divided into multiple parts, make copper pipe 340 evenly distributed inside steam pipe 200, make copper pipe 340 outer wall and vapor carry out abundant even contact, thereby improve the efficiency of vapor to copper pipe 340 outer wall heating, the heat transfer speed has been improved, conveniently absorb the heat in waste water and the vapor fast, improve heat recovery's speed, conveniently heat a plurality of copper pipes 340 fast simultaneously, improve the rate of heating to cold water, improve heat recovery efficiency and vapor condensation efficiency in step, use through setting up two sets of hydrophone 320 cooperations, thereby conveniently will channel into the cold water of cold water inlet tube 310 and fall into the multiunit, assemble into a set of once more with the hot water after the heating afterwards, thereby conveniently derive equipment to hot water, make into, the flow of play water is the same, improve drainage efficiency, reduce heat loss speed simultaneously, heat recovery efficiency has been improved.

The first embodiment is as follows:

as shown in fig. 5;

the utility model discloses a water condensation recovery system, include: manifold 260, the radiator is manifold 260, manifold 260 sets up to 45 with condenser pipe 250 outer wall contained angle, cavity 261 has been seted up to manifold 260 inner wall, cavity 261 bottom and condenser pipe 250 inner wall are the open structure, it is concrete, through setting up manifold 260, it conveniently increases condenser pipe 250 internal surface area to have, thereby conveniently make in condenser pipe 250 the not arrived cavity 261 of liquefied vapor leading-in to manifold 260 inner wall, flow into condenser pipe 250 inside again under the action of gravity after the condensation subsequently, conveniently carry out recycle with the comdenstion water.

The utility model discloses the use: the technical personnel in the field lead in the waste water and the vapor produced in the polyester esterification reaction into the straight pipe 220 through the air inlet pipe 210, and simultaneously lead in the cold water into the cold water inlet pipe 310, then the cold water passes through the right side water separator 320, respectively enter into the plurality of copper pipes 340 through the water separation pipe 330, then heat the outer wall of the copper pipe 340 through the waste water and the vapor, so that the cold water in the copper pipe 340 absorbs the vapor and the heat in the waste water, thereby heating the cold water in the copper pipe 340, then the water heated through the inside of the copper pipe 340 moves to the left side of the copper pipe 340, then the water is collected through the left side water separator 320 and is discharged through the hot water outlet pipe 350, the waste water and the liquefied vapor in the future enter into the condensation pipe 250 through the water outlet 240, then the vapor and the waste water are in contact with the inner wall of the condensation pipe 250, thereby facilitating the heat dissipation through the inner wall of the condensation pipe 250, the vapor enters into the inner wall of the manifold 260 to carry out heat release, then the condensation pipe 250 is condensed, so that the vapor is liquefied and then discharged through the condensed water outlet pipe 280, thereby facilitating the treatment and the vapor recovery.

Example two:

as shown in fig. 6;

the utility model discloses a water condensation recovery system, include: the heat dissipation ring 270, the radiator is the heat dissipation ring 270, and the heat dissipation ring 270 sets up to the disc, and the even fixed mounting of heat dissipation ring 270 is on condenser pipe 250 outer wall, and the heat dissipation ring 270 is used for increasing vapour pipe 200 external surface area, and is specific, through setting up heat dissipation ring 270, increases vapour pipe 200 external surface area to increased radiating efficiency, the convenience is derived condenser pipe 250 inside heat, increase condensing efficiency.

The utility model discloses the use: the technical personnel in the field introduce the waste water and vapor generated in the polyester esterification reaction into the straight pipe 220 through the air inlet pipe 210, and simultaneously introduce the cold water into the cold water inlet pipe 310, then the cold water passes through the right side water separator 320, and respectively enters into the plurality of copper pipes 340 through the water separation pipe 330, and then the outer wall of the copper pipe 340 is heated through the waste water and the vapor, so that the cold water in the copper pipe 340 absorbs the vapor and the heat in the waste water, thereby heating the cold water in the copper pipe 340, then the water heated through the inside of the copper pipe 340 moves to the left side of the copper pipe 340, and then the water is collected through the left side water separator 320 and is discharged through the hot water outlet pipe 350, the waste water and the liquefied vapor in the future enter into the condensation pipe 250 through the water outlet 240, and then the vapor and the waste water are in contact with the inner wall of the condensation pipe 250, so that the heat can be conveniently dissipated through the inner wall of the condensation pipe 250, the vapor is dissipated through the heat dissipation ring 270, so that the vapor is dissipated into the guide pipe 252 through the water outlet pipe 251 after the vapor is liquefied, and finally the condensed water outlet pipe 280 is discharged, thereby conveniently recycling the vapor after being treated.

Certain exemplary embodiments of the present invention have been described above by way of illustration only, and it will be apparent to those of ordinary skill in the art that the described embodiments may be modified in various different ways without departing from the spirit and scope of the present invention. Accordingly, the drawings and description are to be regarded as illustrative in nature and not as restrictive on the scope of the appended claims.

Claims (7)

1. A water condensate recovery system comprising: retrieve storehouse (100), retrieve storehouse (100) including storehouse body (110) down, storehouse body (120) is gone up through bolt fixed mounting in storehouse body (110) top down, retrieve storehouse (100) inner wall fixed mounting steam pipe (200), its characterized in that, steam pipe (200) include intake pipe (210), intake pipe (210) left end fixed connection straight tube (220), straight tube (220) left end fixed mounting end cap (230), water outlet (240) have been seted up to straight tube (220) left side bottom inner wall, water outlet (240) bottom fixed mounting condenser pipe (250), waste heat recovery subassembly (300) that steam pipe (200) inner wall fixed mounting is arranged in retrieving waste heat in the vapor, condenser pipe (250) outer wall fixed mounting radiator.

2. The water condensation and recovery system according to claim 1, wherein the radiator is a manifold (260), an included angle between the manifold (260) and the outer wall of the condensation pipe (250) is set to be 45 degrees, a cavity (261) is formed in the inner wall of the manifold (260), and the bottom end of the cavity (261) is communicated with the inner wall of the condensation pipe (250).

3. The system of claim 1, wherein the heat sink is a heat dissipating ring (270), the heat dissipating ring (270) is configured as a circular plate, the heat dissipating ring (270) is uniformly and fixedly mounted on the outer wall of the condenser tube (250), and the heat dissipating ring (270) is used to increase the outer surface area of the vapor tube (200).

4. The water condensation and recovery system according to claim 1, wherein the condensation tube (250) is provided with an S-shape, the condensation tube (250) is substantially triangular in shape, a water permeable hole (251) is formed in a central position of a bottom trap at the bottom of the condensation tube (250), and a guide tube (252) is fixedly connected to the bottom of the water permeable hole (251).

5. The water condensation recovery system according to claim 4, wherein the flow guide pipe (252) extends to the right trap of the condensation pipe (250), the flow guide pipe (252) is used for discharging the condensed water at the trap to the right, the bottom of the right end of the condensation pipe (250) is fixedly connected with a condensed water outlet pipe (280), and the condensed water outlet pipe (280) extends to the outside of the right side of the recovery bin (100).

6. The water condensation recovery system according to claim 1, wherein the waste heat recovery assembly (300) comprises a cold water inlet pipe (310), the cold water inlet pipe (310) is fixedly installed on the inner wall of the air inlet pipe (210), the left end of the cold water inlet pipe (310) is fixedly connected with the water separator (320), the left outer wall of the water separator (320) is fixedly installed with the water distribution pipe (330), the water distribution pipes (330) are uniformly distributed on the left outer wall of the water separator (320), and the left end of the water distribution pipe (330) is fixedly connected with the copper pipe (340).

7. The water condensation and recovery system according to claim 6, wherein the water separators (320) are fixedly installed at the left end of the copper pipe (340), two groups of the water separators (320) are symmetrically distributed left and right, the water separators (320) at the left end are fixedly installed on the inner wall of the straight pipe (220), the output end of the water separator (320) at the left end is fixedly connected with the hot water outlet pipe (350), and the hot water outlet pipe (350) extends to the outside of the upper silo body (120).

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