CN219279550U - Novel artificial hot spring machine structure and heating system - Google Patents
Novel artificial hot spring machine structure and heating system Download PDFInfo
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- CN219279550U CN219279550U CN202222099369.5U CN202222099369U CN219279550U CN 219279550 U CN219279550 U CN 219279550U CN 202222099369 U CN202222099369 U CN 202222099369U CN 219279550 U CN219279550 U CN 219279550U
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02E—REDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
- Y02E60/00—Enabling technologies; Technologies with a potential or indirect contribution to GHG emissions mitigation
- Y02E60/30—Hydrogen technology
- Y02E60/36—Hydrogen production from non-carbon containing sources, e.g. by water electrolysis
Abstract
The utility model provides a novel artificial hot spring machine structure and a heating system, comprising an outer shell, a water tank, a water inlet and a water outlet, an inner container bracket and a heating device, wherein the water tank is arranged in the outer shell; the infrared heating plate is plate-shaped and is arranged on the liner support, and at least one infrared heating plate is arranged; according to the artificial hot spring machine structure, the outer shell body is arranged, the inner container support is arranged in the outer shell body, the infrared heating plate is conveniently arranged on the inner container support, and when water flows through the infrared heating plate, hydrogen bonds in the water are broken to form hydrogen ions, so that the hydrogen ions in the water are gradually increased, the artificial hot spring machine structure can have the characteristic of hot spring water, people can manufacture similar hot spring water in home by adopting the artificial hot spring machine structure, and the artificial hot spring machine structure is directly used for soaking soup and is very convenient.
Description
Technical Field
The utility model relates to the technical field of artificial hot spring machines, in particular to a novel artificial hot spring machine structure and a heating system.
Background
Natural hot spring water has a wide variety of chemical components dissolved therein, which exist in the form of cations, anions, complex ions, molecules, etc. in an aqueous solution. Common cations are sodium, potassium, calcium, iron, manganese, aluminum, and in addition, hydrogen ions. Although the concentration of hydrogen ions is not large, the hydrogen ions have the capability of corroding surrounding mineral rocks (also called surrounding rocks), so that the change is generated under the long-term contact of the hot spring water and the surrounding rocks, and most of the original minerals in the rocks can be completely decomposed and disappeared, so that the new minerals are changed.
At present, when the hot spring water needs to be soaked, the special place is needed, and most of the places are remote, so that the hot spring water is relatively inconvenient to soak.
In view of this, the present inventors have specifically devised a new artificial hot spring machine structure and heating system, and the present case is thereby created.
Disclosure of Invention
In order to solve the problems, the technical scheme of the utility model is as follows:
a novel artificial hot spring machine structure comprises
A water tank is arranged in the outer shell, a water inlet and a water outlet which are communicated with the water tank are arranged on the side wall of the outer shell,
an inner container bracket which is arranged in the water tank of the outer shell,
the infrared heating plate is plate-shaped and is arranged on the liner support, and at least one infrared heating plate is arranged.
Further, the infrared heating plate comprises a substrate, an infrared heating layer arranged on any side of the substrate, and a protective layer arranged on the substrate and used for protecting the infrared heating layer, wherein the substrate, the infrared heating layer and the protective layer are sequentially arranged.
Furthermore, the substrate and the protective layer are both made of high-temperature-resistant glass.
Furthermore, the protective layer is adhered to the substrate by adopting high-temperature-resistant glass cement.
Further, the shell comprises a lower shell body with an opening arranged above and an upper shell body arranged at the opening of the lower shell body, the lower shell body and the upper shell body form the water tank, the water inlet is arranged on one side of the lower shell body, and the water outlet is arranged on one side of the lower shell body opposite to the water inlet.
Further, a first sealing ring is arranged between the lower shell and the upper shell, the upper part of the infrared heating plate penetrates through the upper shell, a second sealing ring is arranged on the upper shell, and the second sealing ring is sleeved on the infrared heating plate.
Further, the liner support comprises a plurality of support bodies used for embedding the infrared heating plates, and the support bodies are arranged side by side.
Further, the liner support further comprises bolts and nuts used for locking the plurality of support bodies, and the bolts sequentially penetrate through the plurality of support bodies and the nuts to be locked.
Further, the support body includes first support and the second support of mutually supporting, first support and second support mutually support and form the U type recess that is used for infrared heating board embedding and upper end to have the opening.
Further, the wavelength generated after the infrared heating plate is heated is 2-20 mu m.
Further, the infrared heating plate is directly connected with the mains supply, if two or more heating plates are adopted, the heating plates are connected in series or in parallel and then are directly connected with the mains supply
The utility model also provides a heating system of the novel artificial hot spring machine, which adopts the structure of the artificial hot spring machine and also comprises a water storage tank and a water suction pump, wherein the water suction pump is arranged in the water storage tank or directly installs the water storage tank on the structure of the artificial hot spring machine to realize integration, and water in the water storage tank enters a water tank through the water suction pump and flows back into the water storage tank after being heated by an infrared heating plate.
Further, the reservoir is connected with the water inlet pipe through the water suction pump, the water outlet is connected with the reservoir through the water outlet pipe, and the water inlet pipe extends to the bottom of the reservoir.
Further, the reservoir is one of a bathtub or a wooden barrel.
Further, still include temperature control system, bicarbonate ion detecting system and intelligent circuit board, temperature control system is connected with the intelligent circuit board electricity, temperature control system is including setting up in the first temperature sensor of water inlet, sets up in the second sensor of delivery port and sets up the third sensor in the cistern, through touch-control screen or APP control intelligent circuit board to the water heating in the cistern to through temperature control system control temperature, stop heating and suggestion when reaching the required temperature.
According to the artificial hot spring machine structure, the outer shell body is arranged, the inner container support is arranged in the outer shell body, the infrared heating plate is conveniently arranged on the inner container support, and when water flows through the infrared heating plate, hydrogen bonds in the water are broken to form hydrogen ions, so that the hydrogen ions in the water are gradually increased, the artificial hot spring machine structure can have the characteristic of hot spring water, people can manufacture similar hot spring water in home by adopting the artificial hot spring machine structure, and the artificial hot spring machine structure is directly used for soaking soup and is very convenient.
Drawings
The accompanying drawings, which are included to provide a further understanding of the utility model and are incorporated in and constitute a part of this specification, illustrate embodiments of the utility model and together with the description serve to explain the utility model and do not constitute a limitation on the utility model.
Wherein:
FIG. 1 is a schematic view of the structure of the artificial hot spring machine of the present utility model;
FIG. 2 is an exploded view of the structure of the artificial hot spring machine of the present utility model;
FIG. 3 is a cross-sectional view of the structure of the artificial hot spring machine of the present utility model;
FIG. 4 is an enlarged view of a portion of FIG. 3 in accordance with the present utility model;
FIG. 5 is a partial exploded view of the structure of the artificial hot spring machine of the present utility model;
FIG. 6 is a schematic structural view of the bladder support of the artificial hot spring machine of the present utility model;
FIG. 7 is a cross-sectional view of an infrared ray heating plate of the artificial hot spring machine of the present utility model;
fig. 8 is a schematic view of the structure of the heating system of the present utility model.
Description of the reference numerals:
10. an outer housing; 101. a water tank; 102. a water inlet; 103. a water outlet; 11. a lower housing; 12. an upper housing; 13. a first seal ring; 14. a second seal ring; 20. a liner support; 201. a U-shaped groove; 21. a bracket body; 211. a first bracket; 212. a second bracket; 22. a bolt; 23. a nut; 30. an infrared heating plate; 31. a substrate; 32. an infrared heating layer; 33. a protective layer; 34. a glue layer; 40. a reservoir; 50. and a water pump.
Detailed Description
In order to make the technical problems, technical schemes and beneficial effects to be solved more clear and obvious, the utility model is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the utility model.
Example 1
Referring to FIGS. 1 to 7, a novel artificial hot spring machine structure according to embodiment 1 of the present utility model comprises
An outer case 10 having a water tank 101 provided therein, and having a water inlet 102 and a water outlet 103 provided on the side walls thereof, the water inlet 102 and the water outlet 103 being communicated with the water tank 101;
a liner holder 20 provided in the water tank 101 of the outer case 10;
the infrared heating plate 30 is plate-shaped and is arranged on the liner support 20, and the infrared heating plate 30 is at least provided with one piece, so that the area of water flowing through the infrared heating plate 30 is large enough to be convenient to improve, the trend of water flowing is parallel to that of the infrared heating plate 30, and the heating efficiency and the hydrogen bond breaking efficiency are improved.
The infrared heating plate 30 comprises a substrate 31, an infrared heating layer 32 arranged on any side of the substrate 31, and a protective layer 33 arranged on the substrate 31 and used for protecting the infrared heating layer 32, wherein the substrate 31, the infrared heating layer 32 and the protection are sequentially arranged, and the protective layer 33 only needs to cover the infrared heating layer 32, and the substrate 31 is further coated with an electrode layer connected with the infrared heating layer 32, so that the height of the substrate 31 is greater than that of the protective layer 33, the excessive part directly extends out of the outer shell 10 and is used for being electrically connected with a mains supply, and the electrode layer is arranged in the electrical connection and is a conventional mechanical means and is not described in detail. The substrate 31 and the protective layer 33 are made of high temperature resistant glass, and the glass layers on two sides of the infrared heating layer 32 can play a good role in protecting the infrared heating layer 32, so that the influence of water on the infrared heating layer 32 is prevented. And the protective layer 33 is adhered to the substrate 31 by adopting high-temperature-resistant glass cement, so that a glue layer 34 is formed around the protective layer 33, thereby not only having an adhesive effect, but also having a sealing effect.
The outer shell 10 comprises a lower shell 11 with an opening arranged above and an upper shell 12 arranged at the opening of the lower shell 11, wherein the lower shell 11 and the upper shell 12 form a water tank 101, a water inlet 102 is arranged at one side of the lower shell 11, and a water outlet 103 is arranged at the opposite side of the lower shell 11 to the water inlet 102; and the water inlet 102 is located below one side and the water outlet 103 is located above one side, preferably the height of the water outlet 103 should be lower than the height of the protective layer 33.
A first sealing ring 13 is arranged between the lower shell 11 and the upper shell 12, the upper part of the infrared heating plate 30 passes through the upper shell 12, a second sealing ring 14 is arranged on the upper shell 12, and the second sealing ring 14 is sleeved on the infrared heating plate. So that a relatively airtight environment is formed inside the tub 101, and heat dissipation can be prevented.
The liner support 20 comprises a plurality of support bodies 21 for embedding the infrared heating plates 30, the plurality of support bodies 21 are arranged side by side, the number of the support bodies 21 is consistent with that of the infrared heating plates 30, a plurality of infrared heating plates 30 are specifically required to be set according to the needs, the preferred number is 3-4, specifically, the power of each block is one kilowatt, under the condition of 3-4 blocks, the total power is 3000-4000 watts, and the existing home circuit can be mostly adapted without line modification.
The liner support 20 further comprises bolts 22 and nuts 23 for locking the plurality of support bodies 21, and the bolts 22 sequentially penetrate through the plurality of support bodies 21 and are locked with the nuts 23; specifically, the bracket body 21 includes a first bracket 211 and a second bracket 212 that are matched with each other, and the first bracket 211 and the second bracket 212 are matched with each other to form a U-shaped groove 201 with an opening at the upper end for embedding the infrared heating plate 30.
The wavelength generated after the infrared heating plate 30 is heated is 2-20 mu m; and the infrared heating plate 30 is directly connected with the mains supply, if two or more heating plates are adopted, the heating plates are connected in series or in parallel and then are directly connected with the mains supply.
According to the artificial hot spring machine, after the liner support 20 is installed according to the requirement, the infrared heating plates 30 are directly embedded into the U-shaped grooves 201, then the liner with the installed infrared heating plates 30 is directly placed in the lower shell 11, the bottom of the lower shell 11 is preferably provided with the positioning step which is matched with the positioning step, the liner support 20 is provided with the positioning groove which is matched with the positioning step, so that the positioning is facilitated, then the first sealing ring 13 and the upper shell 12 are sequentially installed (the second sealing ring 14 is installed), and then the upper shell 12 and the lower shell 11 are locked by small screws. The whole structure tends to be modularized, and is convenient to install and maintain.
Example 2
Referring to fig. 8, as a heating system of the artificial hot spring machine according to embodiment 1 of the present utility model, circulating cold water is adopted to heat the cold water into hot spring water, and the system includes a water reservoir 40, a water pump 50, and the artificial hot spring machine structure according to embodiment 1, wherein the water pump 50 is disposed in the water reservoir 40 or directly installs the water reservoir 40 on the artificial hot spring machine structure to realize integration, and water in the water reservoir 40 enters a water tank 101 through the water pump 50, is heated by an infrared heating plate 30, and flows back into the water reservoir 40. Specifically, the reservoir 40 is connected to the water inlet 102 via the water pump 50 and the water inlet pipe, and the water outlet 103 is connected to the reservoir 40 via the water outlet pipe, wherein the water inlet pipe extends to the bottom of the reservoir. Reservoir 40 is one of a bathtub or a wooden cask.
The heating system of the embodiment further comprises a temperature control system, a bicarbonate ion detection system and an intelligent circuit board, wherein the temperature control system is electrically connected with the intelligent circuit board, the temperature control system comprises a first temperature sensor arranged at a water inlet, a second sensor arranged at a water outlet and a third sensor arranged in a reservoir, the intelligent circuit board is controlled to heat water in the reservoir through a touch screen or an APP, the temperature control system is used for monitoring the temperature, and when the required temperature is reached, heating is stopped and prompt is given; the bicarbonate ion detection system adopts a detection device to be electrically connected with the intelligent circuit board, and the concentration of bicarbonate ions in the reservoir is limited through a display or an APP test. The temperature control system and the intelligent circuit board are all of the prior art, and specifically how to monitor the temperature, how to detect bicarbonate ions and how to prompt are common means, and detailed description is omitted.
In summary, according to the artificial hot spring machine structure provided by the utility model, the outer shell body is arranged, the inner container support is arranged in the outer shell body, the infrared heating plate is conveniently arranged on the inner container support, after water flows through the infrared heating plate, hydrogen bonds in the water are broken to form hydrogen ions, so that the hydrogen ions in the water are gradually increased, meanwhile, mineral substances or rose dew and the like can be added according to requirements, the artificial hot spring machine structure can be provided with the characteristic of hot spring water, people can manufacture similar hot spring water in home by adopting the artificial hot spring machine structure, and the artificial hot spring machine structure is directly used for soaking soup and is very convenient.
While the utility model has been described above with reference to the accompanying drawings, it will be apparent that the utility model is not limited to the above embodiments, but is capable of being modified or applied directly to other applications without modification, as long as various insubstantial modifications of the method concept and technical solution of the utility model are adopted, all within the scope of the utility model.
Claims (10)
1. A novel artificial hot spring machine structure is characterized by comprising
An outer casing (10) in which a water tank (101) is provided, and a water inlet (102) and a water outlet (103) which are communicated with the water tank (101) are provided on the side wall;
a liner support (20) which is provided in a water tank (101) of the outer case (10);
an infrared heating plate (30) which is plate-shaped and is provided on the liner support (20), wherein at least one infrared heating plate (30) is provided; after the water flow passes through the infrared heating plate (30), hydrogen bonds in the water are broken to form hydrogen ions.
2. The novel artificial hot spring machine structure according to claim 1, wherein the infrared heating plate (30) comprises a substrate (31), an infrared heating layer (32) arranged on any side of the substrate (31), and a protective layer (33) arranged on the substrate (31) and used for protecting the infrared heating layer (32), wherein the substrate (31), the infrared heating layer (32) and the protection are sequentially arranged.
3. The novel artificial hot spring machine structure according to claim 2, wherein the substrate (31) and the protective layer (33) are made of high-temperature-resistant glass.
4. The novel artificial hot spring machine structure according to claim 2, wherein the protective layer (33) is adhered to the substrate (31) by high-temperature-resistant glass cement.
5. The novel artificial hot spring machine structure according to claim 1, wherein the outer casing (10) comprises a lower casing (11) with an opening arranged above, and an upper casing (12) arranged at the opening of the lower casing (11), the lower casing (11) and the upper casing (12) form the water tank (101), the water inlet (102) is arranged at one side of the lower casing (11), and the water outlet (103) is arranged at one side of the lower casing (11) opposite to the water inlet (102).
6. The novel artificial hot spring machine structure according to claim 5, wherein a first sealing ring (13) is arranged between the lower shell (11) and the upper shell (12), the upper part of the infrared heating plate (30) passes through the upper shell (12), a second sealing ring (14) is arranged on the upper shell (12), and the second sealing ring (14) is sleeved on the infrared heating plate.
7. The novel artificial hot spring machine structure according to claim 1, wherein the liner support (20) comprises a plurality of support bodies (21) for embedding the infrared heating plate (30), and the plurality of support bodies (21) are arranged side by side.
8. The novel artificial hot spring machine structure according to claim 7, wherein the liner support (20) further comprises bolts (22) and nuts (23) for locking the plurality of support bodies (21), and the bolts (22) sequentially penetrate through the plurality of support bodies (21) and are locked with the nuts (23);
the bracket body (21) comprises a first bracket (211) and a second bracket (212) which are matched with each other, and the first bracket (211) and the second bracket (212) are matched with each other to form a U-shaped groove which is used for embedding the infrared heating plate (30) and is provided with an opening at the upper end.
9. A novel heating system of the artificial hot spring machine, which adopts the structure of the artificial hot spring machine as claimed in any one of claims 1 to 8, and is characterized by further comprising a water storage tank (40) and a water suction pump (50), wherein water in the water storage tank (40) enters a water tank (101) through the water suction pump (50), and flows back into the water storage tank (40) after being heated by an infrared heating plate (30).
10. The heating system of a new type of artificial hot spring machine according to claim 9, further comprising a temperature control system, a bicarbonate ion detection system and an intelligent circuit board, wherein the temperature control system is electrically connected with the intelligent circuit board; the intelligent circuit board is controlled to heat water in the reservoir (40) through the touch screen or the APP, and the temperature is monitored through the temperature control system.
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CN202222099369.5U CN219279550U (en) | 2022-08-10 | 2022-08-10 | Novel artificial hot spring machine structure and heating system |
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CN202222099369.5U CN219279550U (en) | 2022-08-10 | 2022-08-10 | Novel artificial hot spring machine structure and heating system |
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CN202222099369.5U Active CN219279550U (en) | 2022-08-10 | 2022-08-10 | Novel artificial hot spring machine structure and heating system |
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