CN214949311U - Indoor condensed water warm air circulating device - Google Patents

Abstract

The utility model relates to an indoor cold water warm braw circulating device that condenses. The steam heat exchanger solves the problems that in the prior art, the steam heat exchanger is large in energy consumption, easy to cause waste and poor in using effect. It includes the condensate tank, be equipped with the comdenstion water monitoring subassembly that external control module connects in the condensate tank, and condensate tank one side upper end is equipped with the water supply inlet, the opposite side lower extreme is equipped with the delivery port, the delivery port is connected with the catch water subassembly through the hydraulic pipeline, and the catch water subassembly is connected with a plurality of post heating components through warm braw conveying mechanism, warm braw conveying mechanism keeps away from the one end of catch water subassembly and passes through the wet return and link to each other with the return water mouth of setting on the condensate tank. The utility model has the advantages that: the water resource is saved, the steam consumption is reduced, the roof cross beam is prevented from being corroded, and the using effect is good.

Description

Indoor condensed water warm air circulating device

Technical Field

The utility model relates to the technical field of mechanical equipment, concretely relates to indoor condensation warm braw circulating device.

Background

Energy conservation and environmental protection are important issues of global attention in the present generation, and energy conservation and improvement of energy utilization rate are listed in the national 'fifteen-over-ten' planning outline for basic national policy. The most direct income of energy conservation for enterprises is cost saving, economic benefit improvement and market competitiveness enhancement. At present, the environmental aspect of paper mill generally is warm in winter and hot in summer, open the post fan winter, need open the steam heat transfer simultaneously when reducing the workshop condition of dripping, this kind of condition duration is long, increased with vapour volume and manufacturing cost, the energy consumption is big, in the daily use, the workshop top drips seriously moreover, leads to the crossbeam to corrode easily, and can't realize the recycling of water resource, cause the waste easily, the warm braw air supply in winter is limited simultaneously, the result of use is not good.

Disclosure of Invention

The utility model aims at the above-mentioned problem, provide a reasonable in design, excellent in use effect's interior condensate water warm braw circulating device.

In order to achieve the above purpose, the utility model adopts the following technical proposal: this indoor comdenstion water warm braw circulating device, including the condensate tank, be equipped with the comdenstion water monitoring subassembly that external control module connects in the condensate tank, and condensate tank one side upper end is equipped with the water supply inlet, the opposite side lower extreme is equipped with the delivery port, the delivery port is connected with the steam-water separation subassembly through the hydraulic pipeline, and the steam-water separation subassembly is connected with a plurality of posts heating components through warm braw conveying mechanism, the one end that steam-water separation subassembly was kept away from to warm braw conveying mechanism passes through the wet return and links to each other with the return water mouth of setting on the condensate tank. Through insert the catch water subassembly on the condensate tank to make the warm braw can circulate the supply through post heating assembly through catch water subassembly and warm braw conveying mechanism, and the comdenstion water after using passes through the wet return and flows back to the condensate tank in, practiced thrift the water resource, not only reduced the steam quantity, reached the result of use of ideal, the workshop drips the condition and thoroughly solves moreover, has prevented that the roof crossbeam from producing anticorrosive, excellent in use effect.

In the indoor condensed water warm air circulating device, the water supply port is connected with a water supply pipe, a water supply valve is arranged on the water supply pipe, and the water supply valve is electrically connected with the external control module. Through set up the water supply valve who links to each other with external control module on the delivery pipe, can in time carry out the switching to water supply valve when the comdenstion water monitoring subassembly monitors that the water level is too high or low excessively.

In the indoor condensed water warm air circulating device, a water return valve is arranged on the water return pipe and is electrically connected with the external control module.

In foretell indoor comdenstion water warm braw circulating device, warm braw conveying mechanism includes hot water conveying pipe, and hot water conveying pipe circumference outside cover is equipped with the warm braw pipe, and forms warm braw transfer passage between warm braw pipe and the hot water conveying pipe, is equipped with heat conduction structure between warm braw transfer passage and the hot water conveying pipe outer wall. The heat conduction structure can enable the heat of the hot water conveying pipe to be conducted into the warm air conveying channel, and heating is achieved.

In foretell indoor comdenstion water warm braw circulating device, heat conduction structure includes that circumference sets up the heat conduction seat at hot water conveyer pipe outer wall, and the one end that hot water conveyer pipe was kept away from to the heat conduction seat is equipped with the cooling tube that the tip set up in warm braw transfer passage, and the one end diameter that the heat conduction seat links to each other with hot water conveyer pipe is greater than the diameter of cooling tube. The arrangement makes the heat conduction effect better.

In the indoor condensed water warm air circulating device, the end of the hot water conveying pipe is provided with a steam leading-in part, and the steam leading-in part is circumferentially connected with the warm air conveying channel through a steam leading-in pipe.

In the indoor condensed water warm air circulating device, the steam-water separation assembly comprises a steam-water separator, and the steam-water separator is connected with the warm air conveying mechanism through a steam-water separation pump.

In foretell indoor comdenstion water warm braw circulating device, post heating element is including being the heating pipe way of arc setting, and heating pipe way circumference outer wall passes through the heating connector and links to each other with crossing warm braw conveying mechanism, and heating pipe way circumference inner wall is equipped with the heating installation gas outlet. The heating effect is better, and the arc-shaped surrounding heating is realized.

In the indoor condensed water warm air circulating device, the condensed water monitoring assembly comprises a water level meter arranged on the inner wall of the condensed water tank, a temperature sensor is arranged at the bottom of the condensed water tank, and the water level meter and the temperature sensor are connected with an external control module. The water level condition of the condensate water tank can be observed in time through the water level meter, and timely supplement is facilitated.

In the indoor condensed water warm air circulating device, the water outlet and the water supply port are positioned at different end parts of the side surface of the condensed water tank.

Compared with the prior art, the utility model has the advantages of: reasonable in design, moreover, the steam-water separation subassembly is inserted through on the condensate tank, and heat on can conducting the post heating subassembly through steam-water separation subassembly and warm braw conveying mechanism messenger's warm braw, and the water after using flows back to the condensate tank through the wet return, cyclic utilization has been realized, the water resource has been practiced thrift, the steam quantity has not only been reduced, the result of use of ideal has been reached, the workshop drip condition thoroughly solves moreover, it is anticorrosive to have prevented that the roof crossbeam from producing, excellent in use effect.

Drawings

FIG. 1 is a schematic view of the reflux of the present invention;

FIG. 2 is a schematic view of a condensate tank of the present invention;

FIG. 3 is a sectional view of the warm air delivery mechanism of the present invention;

fig. 4 is a sectional view of the warm air conveying mechanism of the present invention;

FIG. 5 is a schematic structural view of a post heating assembly according to the present invention;

fig. 6 is a connection block diagram of a partial structure in the present invention.

In the figure, a condensate water tank 1, a water supply port 11, a water outlet 12, a water delivery pipeline 13, a water return port 14, a condensate water monitoring unit 2, a water level gauge 21, a temperature sensor 22, an external control module 3, a steam-water separation unit 4, a steam-water separator 41, a steam-water separation pump 42, a hot air delivery mechanism 5, a hot water delivery pipe 51, a hot air pipe 52, a hot air delivery passage 53, a steam introduction part 54, a steam introduction pipe 55, a water return pipe 6, a water return valve 61, a water supply pipe 7, a water supply valve 71, a heat conduction structure 8, a heat conduction seat 81, a heat radiation pipe 82, a post heating unit 9, a heating pipe 91, a heating connector 92, and a hot air outlet 93.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

As shown in fig. 1-6, this indoor condensed water warm air circulating device includes a condensed water tank 1, a condensed water monitoring assembly 2 connected with an external control module 3 is arranged in the condensed water tank 1, a water supply inlet 11 is arranged at the upper end of one side of the condensed water tank 1, a water outlet 12 is arranged at the lower end of the other side of the condensed water tank, the water outlet 12 is connected with a steam-water separation assembly 4 through a water pipeline 13, the steam-water separation assembly 4 is connected with a plurality of post heating assemblies 9 through a warm air conveying mechanism 5, and one end of the warm air conveying mechanism 5, which is far away from the steam-water separation assembly 4, is connected with a water return inlet 14 arranged on the condensed water tank 1 through a water return pipe 6. Set up conduit 13 on condensate tank 1 and connect catch water subassembly 4, make steam and hot water get into warm braw conveying mechanism 5 respectively through catch water subassembly 4, utilize warm braw conveying mechanism 5 to post heating subassembly 9 circulation heat supply, and the water after the use passes through wet return 6 and flows back to in condensate tank 1, the cyclic utilization of water resource has been realized, and seal the processing to steam, effectively avoided steam to corrode the roof crossbeam, and reduced the steam quantity, excellent in use effect.

The water supply port 11 is connected to a water supply pipe 7, a water supply valve 71 is disposed on the water supply pipe 7, and the water supply valve 71 is electrically connected to the external control module 3.

Visibly, a water return valve 61 is arranged on the water return pipe 6, and the water return valve 61 is electrically connected with the external control module 3.

Obviously, the warm air delivery mechanism 5 includes a hot water delivery pipe 51, a warm air pipe 52 is sleeved on the outer circumferential side of the hot water delivery pipe 51, a warm air delivery channel 53 is formed between the warm air pipe 52 and the hot water delivery pipe 51, and a heat conduction structure 8 is arranged between the warm air delivery channel 53 and the outer wall of the hot water delivery pipe 51.

Further, the heat conducting structure 8 includes a heat conducting base 81 circumferentially disposed on the outer wall of the hot water delivery pipe 51, one end of the heat conducting base 81 far away from the hot water delivery pipe 51 is provided with a heat dissipation pipe 82 with an end portion disposed in the hot air delivery passage 53, and the diameter of the end of the heat conducting base 81 connected to the hot water delivery pipe 51 is larger than that of the heat dissipation pipe 82.

Specifically, the hot water feed pipe 51 is provided at an end thereof with a steam introduction portion 54, and the steam introduction portion 54 is circumferentially connected to the warm air feed passage 53 through a steam introduction pipe 55.

Further, the steam-water separation assembly 4 comprises a steam-water separator 41, and the steam-water separator 41 is connected with the warm air delivery mechanism 5 through a steam-water separation pump 42.

More specifically, the post heating assembly 9 includes a heating pipe 91 arranged in an arc shape, a circumferential outer wall of the heating pipe 91 is connected to the over-heated air conveying mechanism 5 through a heating connector 92, and a circumferential inner wall of the heating pipe 91 is provided with a heated air outlet 93.

In detail, the condensed water monitoring assembly 2 includes a water level gauge 21 disposed on an inner wall of the condensed water tank 1, a temperature sensor 22 is disposed at a bottom of the condensed water tank 1, and the water level gauge 21 and the temperature sensor 22 are connected to the external control module 3.

Preferably, the water outlet 12 and the water supply port 11 are located at different ends of the side of the condensate tank 1.

In summary, the principle of the present embodiment is: through set up conduit 13 on condensate tank 1, utilize conduit 13 to connect water separation subassembly 4 with the comdenstion water direction, water separation subassembly 4 separates the comdenstion water into steam and hot water, wherein, hot water gets into in the hot water conveyer pipe 51, steam gets into warm braw transfer passage 53 through steam inlet pipe 55, and heat conduction structure 8 conducts the heat of hot water conveyer pipe 51 to warm braw transfer passage 53, utilize warm braw transfer passage 53 to carry the warm braw to post heating subassembly 9, can freely open the warm braw according to actual conditions, not limited by the time, and rivers after the use flow back to condensate tank 1, the waste and the steam use amount of water resource have been reduced, prevented that steam from corroding the roof crossbeam, excellent in use effect.

The specific embodiments described herein are merely illustrative of the spirit of the invention. Various modifications, additions and substitutions for the specific embodiments described herein may be made by those skilled in the art without departing from the spirit of the invention or exceeding the scope of the invention as defined in the accompanying claims.

Although terms such as the condensate water tank 1, the water supply port 11, the water outlet 12, the water delivery pipeline 13, the water return port 14, the condensate water monitoring assembly 2, the water level gauge 21, the temperature sensor 22, the external control module 3, the steam-water separation assembly 4, the steam-water separator 41, the steam-water separation pump 42, the warm air delivery mechanism 5, the hot water delivery pipe 51, the warm air pipe 52, the warm air delivery passage 53, the steam introduction portion 54, the steam introduction pipe 55, the water return pipe 6, the water return valve 61, the water supply pipe 7, the water supply valve 71, the heat conduction structure 8, the heat conduction seat 81, the heat radiation pipe 82, the station heating assembly 9, the heating pipe 91, the heating connector 92, and the heating air outlet 93 are used more often herein, the possibility of using other terms is not excluded. These terms are used merely to more conveniently describe and explain the nature of the present invention; they are to be construed in a manner that is inconsistent with the spirit of the invention.

Claims (10)

1. The utility model provides an indoor condensation water warm braw circulating device, includes condensate tank (1), condensate tank (1) in be equipped with comdenstion water monitoring subassembly (2) that external control module (3) are connected, and condensate tank (1) one side upper end is equipped with supply water inlet (11), the opposite side lower extreme is equipped with delivery port (12), its characterized in that, delivery port (12) be connected with catch water subassembly (4) through hydraulic pipe (13), and catch water subassembly (4) are connected with a plurality of post heating components (9) through warm braw conveying mechanism (5), warm braw conveying mechanism (5) keep away from the one end of catch water subassembly (4) and pass through wet return (6) and link to each other with return water inlet (14) of setting on condensate tank (1).

2. The indoor condensed water warm air circulating device according to claim 1, wherein a water supply pipe (7) is connected to the water supply port (11), a water supply valve (71) is provided on the water supply pipe (7), and the water supply valve (71) is electrically connected to the external control module (3).

3. The indoor condensed water warm air circulating device according to claim 2, wherein a return valve (61) is provided on the return pipe (6), and the return valve (61) is electrically connected to the external control module (3).

4. The indoor condensed water warm air circulating device according to claim 1, wherein the warm air delivery mechanism (5) comprises a hot water delivery pipe (51), a warm air pipe (52) is sleeved on the circumferential outer side of the hot water delivery pipe (51), a warm air delivery channel (53) is formed between the warm air pipe (52) and the hot water delivery pipe (51), and a heat conduction structure (8) is arranged between the warm air delivery channel (53) and the outer wall of the hot water delivery pipe (51).

5. The indoor condensed water warm air circulating device according to claim 4, wherein the heat conducting structure (8) comprises a heat conducting base (81) circumferentially disposed on the outer wall of the hot water delivery pipe (51), an end of the heat conducting base (81) away from the hot water delivery pipe (51) is provided with a heat dissipating pipe (82) having an end portion disposed in the warm air delivery passage (53), and a diameter of an end of the heat conducting base (81) connected to the hot water delivery pipe (51) is larger than that of the heat dissipating pipe (82).

6. The indoor condensed water warm air circulating device according to claim 5, wherein a steam introducing part (54) is provided at an end of the hot water supply pipe (51), and the steam introducing part (54) is connected with the warm air supply passage (53) through a steam introducing pipe (55) in a circumferential direction.

7. The indoor condensed water warm air circulating device according to claim 1, characterized in that the steam-water separation assembly (4) comprises a steam-water separator (41), and the steam-water separator (41) is connected with the warm air conveying mechanism (5) through a steam-water separation pump (42).

8. The indoor condensed water warm air circulating device according to claim 1, characterized in that the post heating assembly (9) comprises a heating pipeline (91) arranged in an arc shape, the circumferential outer wall of the heating pipeline (91) is connected with the over-warm air conveying mechanism (5) through a heating connector (92), and the circumferential inner wall of the heating pipeline (91) is provided with a heating air outlet (93).

9. The indoor condensed water warm air circulating device according to claim 8, wherein the condensed water monitoring assembly (2) comprises a water level gauge (21) disposed on an inner wall of the condensed water tank (1), and a temperature sensor (22) is disposed at a bottom of the condensed water tank (1), the water level gauge (21) and the temperature sensor (22) are connected to the external control module (3).

10. The indoor condensed water warm air circulating device according to claim 2, wherein the water outlet (12) and the water supply port (11) are located at different ends of the side of the condensed water tank (1).

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