CN214891853U - Automatic heating device for water pool - Google Patents

Abstract

The application relates to the technical field of concrete processing, in particular to an automatic water tank heating device which comprises a steam generating mechanism, a steam pipeline and a heat insulation assembly, wherein the steam generating mechanism is arranged on the side part of the wall of a water tank, the steam generating mechanism comprises a heating assembly, and the heating assembly is communicated with the water tank; the steam pipeline part is arranged in the water pool and is higher than the upper surface of the pool water, and the steam pipeline is communicated with the heating assembly; the heat preservation assembly is fixedly arranged above the water pool and used for preserving heat of the whole water pool. This application has the effect that promotes pond heating efficiency.

Description

Automatic heating device for water pool

Technical Field

The application relates to the technical field of concrete processing, in particular to an automatic water tank heating device.

Background

When large-scale concrete plants are used for processing concrete, a water storage tank is built near a concrete mixing plant in order to facilitate the addition of water during the mixing of the concrete. In northern areas, the temperature is too low in winter, so that the water in the pool is easy to freeze, and a heating device is needed to heat the pool to prevent freezing.

In the related art, chinese application No. 2018106370161 discloses a steam heating device for a cooling water tank for producing a storage battery and a control system thereof, which includes a cooling tank and a heating device body, wherein the cooling tank is filled with a cooling liquid; one side of the cooling pool is provided with a fixed seat; the heating device body is arranged on the fixed seat; the heating device body inputs steam into the cooling pool for heating; the heating device body comprises a main pipeline and a branch pipeline; the main pipeline is fixedly arranged in the middle of one side of the branch pipeline; the branch pipeline is C-shaped; a plurality of air outlets are arranged on one side surface of the branch pipeline side by side; a circular tube is arranged on the air diffusing port; a sealing gasket is arranged at the joint of the main pipeline and the branch pipeline; the branch pipeline is close to the peripheral side surface of the cooling pool; an electromagnetic valve is arranged on the main pipeline; a shunt pipe is arranged on one side of the main pipeline where the electromagnetic valve is arranged; and a manual valve is arranged on the shunt pipe.

The principle of the scheme is as follows: during the use, the heating device body is installed on the fixing base of cooling bath one side, and the heating device body passes through trunk line and branch pipeline and to the cooling bath in input steam heat the cooling bath, through solenoid valve and manual valve control steam flow simultaneously, is convenient for control the pond temperature, has avoided the energy extravagant simultaneously.

However, in the above scheme, when in use, the steam is directly introduced into the cooling liquid to heat the cooling liquid as a whole, which is inefficient, and at the same time, a large amount of energy is consumed. And the water is generally most prone to icing when the temperature of the surface layer is the lowest.

In view of the above-mentioned related art, the inventors consider that there is a drawback that the heating efficiency is low.

SUMMERY OF THE UTILITY MODEL

In order to overcome the defect of low heating efficiency of the water pool, the application provides an automatic water pool heating device.

The application provides a pond self-heating device adopts following technical scheme:

a pool automatic heating device comprises a steam generating mechanism, a steam pipeline and a heat insulation assembly, wherein the steam generating mechanism is arranged on the side part of the pool wall of a pool, the steam generating mechanism comprises a heating assembly, and the heating assembly is communicated with the pool; the steam pipeline part is arranged in the water pool and is higher than the upper surface of the pool water, and the steam pipeline is communicated with the heating assembly; the heat preservation assembly is fixedly arranged above the water pool and used for preserving heat of the whole water pool.

Through adopting above-mentioned technical scheme, when using, heating element heats the production steam from the pond water intaking, and steam carries to pond water top blowout through the steam conduit and heats top layer pond water through the heat transfer, and the subassembly setting that keeps warm simultaneously prevents that steam from overflowing and scattering above the pond to improve heating efficiency and reduced energy resource consumption simultaneously.

Optionally, the heating assembly comprises a heating cylinder, an electric heating tube and a water injection tube, the electric heating tube is fixedly arranged in the heating cylinder, and one end of the water injection tube is communicated with the heating cylinder and the other end of the water injection tube is communicated with the water pool.

By adopting the technical scheme, the water injection pipe takes water from the water pool and injects the water into the heating cylinder, and then the electric heating pipe heats the water in the heating cylinder to generate steam, so that the water in the pool is heated by the steam.

Optionally, the pipeline of the water injection pipe is connected with an electromagnetic valve, a temperature controller is arranged in the pool wall, the temperature controller is electrically connected with the electromagnetic valve, and the temperature controller is electrically connected with the electric heating pipe.

Through adopting above-mentioned technical scheme, temperature controller measures pond water temperature, controls the solenoid valve when detecting pond water temperature and opens when crossing lowly and pours into the heating jar with pond water into, starts the electrothermal tube simultaneously and heats water to heat pond water when the temperature crosses lowly, reduced energy resource consumption to a certain extent.

Optionally, the steam pipeline is including being responsible for and branch pipe, be responsible for one end with heating jar intercommunication and the other end with the branch pipe intercommunication, the branch pipe sets up in the pond and with the fixed intercommunication of pool wall, be provided with decurrent gas vent on the branch pipe.

Through adopting above-mentioned technical scheme, the steam that produces in the heating jar is carried to the branch pipe through being responsible for, flows to the pond directly over through the branch pipe afterwards and heats superficial layer pond water.

Optionally, an exhaust fan is connected into the main pipe, and the exhaust fan is fixedly arranged in the main pipe.

Through adopting above-mentioned technical scheme, the circulation speed of steam in the steam pipe can be accelerated to the air discharge fan to heating efficiency is improved to a certain extent.

Optionally, the heat insulation assembly comprises a heat insulation plate, the outer edge of the heat insulation plate is larger than the water pool, and the heat insulation plate is buckled above the water pool and is fixedly connected with the upper end face of the water pool; the heat insulation plate is provided with a sealing strip for sealing at the abutting position with the water pool.

Through adopting above-mentioned technical scheme, through setting up the heated board and reduce pond water and with steam and external heat-conduction, prevent that steam from outwards overflowing and scattering to reduce the heat and scatter and disappear, reduce energy resource consumption.

Optionally, the bottom surface of the heat-insulation plate is an arc surface, and one surface of the heat-insulation plate, which is deviated from the center of the arc, points to the bottom wall of the pool; the heat preservation board is provided with the water conservancy diversion pole apart from the fixed this nearest of surface of water distance, the water conservancy diversion pole is fixed to be set up bottom surface and vertical setting under the heat preservation board.

Through adopting above-mentioned technical scheme, be located the heated board inner wall during steam condensation, the heated board sets up to recessed structure and sets up the honeycomb duct simultaneously and can accelerate comdenstion water downflow, avoids the comdenstion water to influence the heat preservation effect at the aggregation of heated board inner wall.

Optionally, a water intake pipe is fixedly arranged on the heat insulation plate, the water intake pipe penetrates through the heat insulation plate, the lower end of the water intake pipe is inserted into the pool water, and a water suction pump is fixedly arranged at the upper end of the water intake pipe; the insulation board is provided with a water injection port, and the insulation board is provided with a water injection plug at the water injection port in a rotating mode.

Through adopting above-mentioned technical scheme, with pipeline and suction pump switch-on when needs stirring water to accessible intake pipe is from getting water in the pond. When water needs to be added, the water injection plug is opened to inject water.

Optionally, a sealing ring is arranged at the joint of the water taking pipe and the heat insulation plate.

Through adopting above-mentioned technical scheme, the sealing ring seals the delivery pipe and heated board junction to reduce the heat and scatter and disappear.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the steam generating mechanism heats water to generate steam, the steam is conveyed to the upper part of the pool water through the steam pipeline to heat the surface layer pool water, and meanwhile, the heat insulation assembly is arranged above the pool to prevent the steam from overflowing, so that the defect of low heating efficiency of the pool is overcome;

2. the water injection pipe and the electric heating pipe are controlled through the electromagnetic valve, so that the control device is started to heat the pool water when the temperature is low, the pool water is not heated when the temperature is suitable, and the energy consumption is reduced to a certain degree.

Drawings

FIG. 1 is a schematic structural diagram of an automatic heating device for a pool according to an embodiment of the present application;

FIG. 2 is a perspective sectional view of an automatic heating device for a water pool according to an embodiment of the present invention;

FIG. 3 is a schematic view of the steam pipeline structure of the automatic heating device for a water pool in the embodiment of the present application.

Description of reference numerals: 1. a steam generating mechanism; 11. a heating assembly; 111. a heating cylinder; 112. an electric heating tube; 113. a water injection pipe; 12. an electromagnetic valve; 13. a temperature controller; 2. a steam line; 21. a main pipe; 22. a branch pipe; 23. an exhaust port; 24. an exhaust fan; 3. a heat preservation assembly; 31. a thermal insulation board; 32. a sealing strip; 33. a guide rod; 34. a water intake pipe; 35. a water pump; 36. a water injection port; 37. a water injection plug; 38. and (4) a sealing ring.

Detailed Description

The present application is described in further detail below with reference to figures 1-3.

The embodiment of the application discloses pond self-heating device. Referring to fig. 1, the automatic water pool heating device comprises a steam generating mechanism 1, a steam pipeline 2 and a heat insulation component 3, wherein the steam generating mechanism 1 comprises a heating component 11, and the heating component 11 is embedded in one side of the wall of the water pool and is communicated with the water pool. The steam pipeline 2 is partially arranged in the water tank and is higher than the upper surface of the water tank, and the steam pipeline 2 is communicated with the heating assembly 11. The heat preservation component 3 is fixedly arranged on the water pool and used for preserving heat of the water pool.

When using, heating element 11 heats after getting water from the pond, and the steam that the heating produced transports and spout to pond water top through steam pipe 2 to heat pond water upper surface, heat preservation component 3 sets up in the outside conduction of reducible pond water of pond top and top steam heat, can prevent simultaneously that steam from overflowing and scattering, thereby improves the defect that pond water heating efficiency hangs down.

Specifically, the heating assembly 11 includes a heating cylinder 111, an electric heating tube 112 and a water injection tube 113, referring to fig. 2, the heating cylinder 111 is a tank body, a sealing cover is integrally arranged above the heating cylinder 111, the electric heating tube 112 is located in the heating cylinder 111 and is circumferentially arranged on the lower bottom surface of the heating cylinder 111, one end of the water injection tube 113 is welded and fixed on the outer wall of the heating cylinder 111 and is communicated with the heating cylinder 111, and the other end of the water injection tube passes through the wall of the water pool and is communicated to the water pool.

In use, pool water enters the heating cylinder 111 through the water injection pipe 113, and then the electric heating pipe 112 heats the water in the heating cylinder 111 to boiling so as to generate steam.

The electromagnetic valve 12 and the temperature controller 13 are arranged for realizing temperature control, the middle of the water injection pipe 113 is cut off, the water inlet of the electromagnetic valve 12 is communicated with the water injection pipe 113, the water outlet of the electromagnetic valve is communicated with the water injection pipe 113, so that the electromagnetic valve 12 is connected into the pipeline of the water injection pipe 113, the temperature controller 13 is embedded in the wall of the pool and is communicated with the electromagnetic valve 12 through a lead, and meanwhile, the temperature controller 13 is communicated with the electric heating pipe 112 through a lead. The temperature controller 13 triggers the temperature setting to five degrees celsius.

When the temperature is lower than five degrees centigrade, the temperature controller 13 controls the electromagnetic valve 12 to be opened to introduce water into the heating cylinder 111 from the water pool, meanwhile, the temperature controller 13 controls the electric heating pipe 112 to be started to heat the water in the heating cylinder 111, when the temperature is higher than five degrees centigrade, the temperature controller 13 controls the electromagnetic valve 12 to be closed, meanwhile, the electric heating pipe 112 is closed, and therefore energy consumption is reduced while the temperature of the water in the water pool is appropriate.

Steam that steam generation mechanism 1 produced needs to be carried to pond water top through steam conduit 2, refer to fig. 2 and fig. 3, and steam conduit 2 is including being responsible for 21 and branch pipe 22, and be responsible for 21 welded fastening and on heating jar 111 outer wall and with heating jar 111 intercommunication, and branch pipe 22 and be responsible for 21 integration setting and be located pond water upper surface top, and welded fastening has the angle iron piece on branch pipe 22, and the angle iron piece passes through expansion bolts to be fixed on the pond wall. The branch pipe 22 is provided with a downward-facing exhaust port 23. An exhaust fan 24 is welded and fixed in the main pipe 21.

Steam that produces in the heating cylinder 111 transports branch pipe 22 through being responsible for 21, spouts to pond water top from gas vent 23 afterwards to advance the upper surface to the pond water through heat-conduction and heat, set up exhaust fan 24 in being responsible for 21 and can accelerate the steam circulation speed in being responsible for 21, thereby transport new steam to pond water top after steam and the contact condensation of pond water rapidly, thereby improve heating efficiency.

Reduce steam and external heat-conduction simultaneously for preventing that steam from overflowing to scatter and be provided with insulation assembly 3, refer to fig. 2, insulation assembly 3 sets up to heated board 31, and heated board 31 detains and establishes along the laminating on bottom surface and the pond under and above the pond, and it is fixed with the cell body through expansion bolts with heated board 31 afterwards, and heated board 31 pastes with cell body butt department and is fixed with sealing strip 32. Bottom surface is arc and convex surface towards the cell body bottom surface under the heated board 31, and heated board 31 is provided with water conservancy diversion pole 33 apart from the nearest department of pond water upper surface, and water conservancy diversion pole 33 sets up to the steel material, and the vertical setting of water conservancy diversion pole 33 just pastes through fast dry glue and fixes under heated board 31 on the bottom surface.

When the heat-insulation plate is used, the heat-insulation plate 31 is buckled above the water pool and sealed through the sealing strip 32, so that steam is prevented from overflowing outwards and being scattered, and meanwhile, the heat of the steam is reduced and is dissipated outwards through heat conduction. Steam condenses when contacting with heated board 31, and bottom surface sets up to the cambered surface under the heated board 31 and makes the comdenstion water collect to heated board 31 lower, flows back to the pond in through water conservancy diversion pole 33 afterwards to reduce pond water evaporation, avoid the water waste.

Referring to fig. 2, fixed intake pipe 34 that is provided with on the heated board 31, intake pipe 34 pass heated board 31 and paste fixedly with heated board 31, and intake pipe 34 lower extreme inserts pond aquatic and the fixed suction pump 35 that is provided with in upper end, and suction pump 35 water inlet passes through tight fit and intake pipe 34 fixed connection. A sealing ring 38 is fixedly adhered at the joint of the water intake pipe 34 and the heat insulation plate 31. The heat insulation plate 31 is provided with a water injection port 36, and a water injection plug 37 is rotatably arranged at the water injection port 36 on the heat insulation plate 31.

When the stirrer works with water, the water outlet of the water suction pump 35 is communicated through a pipeline to pump water from the water tank, when water needs to be added into the water tank, the water injection plug 37 is opened to inject water, and after the water injection is completed, the water injection plug 37 is closed to seal.

The implementation principle of the automatic heating device for the water pool in the embodiment of the application is as follows: during the use, when temperature controller 13 detects that pool water temperature is crossed lowly open solenoid valve 12 and introduce the pool water in heating cylinder 111, control electrothermal tube 112 simultaneously and open the water heating to boiling production steam in heating cylinder 111, steam is produced the back and is responsible for 21 and branch pipe 22 blowout to pool water top and heat the pool water upper strata, heated board 31 detains and establishes in the pool top simultaneously and prevents that the steam heat from outwards losing through heat-conduction, steam condenses when contacting with heated board 31, the comdenstion water collects and locates to flow back to the pool to water conservancy diversion pole 33.

When water is needed, the water pump 35 is communicated through a pipeline to pump water from the water pool, and when water is needed, the water injection plug 37 is opened to inject water into the water pool.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (9)

1. The utility model provides a pond self-heating device which characterized in that: the steam generating device comprises a steam generating mechanism (1), a steam pipeline (2) and a heat insulation assembly (3), wherein the steam generating mechanism (1) is arranged on the side part of the wall of a water pool, the steam generating mechanism (1) comprises a heating assembly (11), and the heating assembly (11) is communicated with the water pool; the steam pipeline (2) is partially arranged in the water pool and is higher than the upper surface of the water in the water pool, and the steam pipeline (2) is communicated with the heating assembly (11); the heat preservation assembly (3) is fixedly arranged above the water pool and used for preserving heat of the whole water pool.

2. The automatic heating device for water pool of claim 1, wherein: heating element (11) are including heating jar (111), electrothermal tube (112) and water injection pipe (113), electrothermal tube (112) are fixed to be set up in heating jar (111), water injection pipe (113) one end with heating jar (111) intercommunication and the other end and pond intercommunication.

3. The automatic heating device for water pool of claim 2, wherein: the pipeline of the water injection pipe (113) is connected with an electromagnetic valve (12), the pool wall is provided with a temperature controller (13), the temperature controller (13) is electrically connected with the electromagnetic valve (12), and the temperature controller (13) is electrically connected with the electric heating pipe (112).

4. The automatic heating device for water pool of claim 2, wherein: steam line (2) are including being responsible for (21) and branch pipe (22), be responsible for (21) one end with heating jar (111) intercommunication and the other end with branch pipe (22) intercommunication, branch pipe (22) set up in the pond and with the fixed intercommunication of pool wall, be provided with decurrent gas vent (23) on branch pipe (22).

5. The automatic heating device for water pool of claim 4, wherein: an exhaust fan (24) is connected into the pipeline of the main pipe (21).

6. The automatic heating device for water pool of claim 1, wherein: the heat insulation component (3) comprises a heat insulation plate (31), the outer edge of the heat insulation plate (31) is larger than the pool, and the heat insulation plate (31) is buckled above the pool and is fixedly connected with the upper end face of the pool; the heat insulation plate (31) is provided with a sealing strip (32) for sealing at the abutting position with the water pool.

7. The automatic heating device for water pool of claim 6, wherein: the bottom surface of the heat insulation plate (31) is an arc surface, and one surface deviating from the center of the arc is directed to the bottom wall of the pool; heated board (31) are provided with water conservancy diversion pole (33) apart from the fixed being provided with of surface of water distance nearest, water conservancy diversion pole (33) are fixed to be set up bottom surface and vertical setting under heated board (31).

8. The automatic heating device for water pool of claim 6, wherein: a water intake pipe (34) is fixedly arranged on the heat insulation plate (31), the water intake pipe (34) penetrates through the heat insulation plate (31), the lower end of the water intake pipe is inserted into pond water, and a water suction pump (35) is fixedly arranged at the upper end of the water intake pipe (34); the insulation board (31) is provided with a water injection port (36), and the insulation board (31) is provided with a water injection plug (37) in a rotating mode at the water injection port (36).

9. The automatic heating device for water pool of claim 8, wherein: and a sealing ring (38) is arranged at the joint of the water taking pipe (34) and the heat insulation plate (31).

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