Radiant heating shower unit
By introducing a radiant heating design with an insulation section and hot water flow channel into the shower device, combined with a closed shower chamber and a fine water jet spray shower head, the problems of localized overheating and high energy consumption of existing devices are solved, achieving a comfortable and energy-saving shower effect.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- GUANGZHOU INTEGRATED ENERGY CO LTD
- Filing Date
- 2025-07-15
- Publication Date
- 2026-07-14
Smart Images

Figure CN224483818U_ABST
Abstract
Description
Technical Field
[0001] This utility model belongs to the technical field of shower devices, and specifically relates to a radiant heating shower device. Background Technology
[0002] In winter, bathroom heaters and fan heaters are commonly used for heating during showers. However, in practice, these methods only heat a localized area of the shower, easily leading to overheating and a poor user experience. Furthermore, due to limitations in building insulation and airtightness, relying solely on high-powered fan heaters or bathroom heaters not only consumes a lot of energy but also fails to achieve the comfortable indoor temperature of around 28°C, resulting in poor comfort. Utility Model Content
[0003] The purpose of this utility model is to provide a radiant heating shower device component that can provide a warm shower environment with high comfort.
[0004] The technical solution adopted to solve the above-mentioned technical problems is as follows:
[0005] This utility model provides a radiant heating shower device, comprising:
[0006] A shower room includes an insulated section, within which a hot water flow channel is provided; the hot water flow channel is used to circulate hot water; the shower room has a shower cavity, and the insulated section is at least one inner wall of the shower cavity;
[0007] A shower head is located inside the shower chamber and is used to spray water.
[0008] According to an embodiment of the present invention, a radiant heating shower device includes a first outer wall and a first inner wall in the heat insulation section, wherein the hot water flow channel is formed between the first inner wall and the first outer wall; the thickness of the first outer wall is greater than the thickness of the first inner wall.
[0009] According to an embodiment of the present utility model, a radiant heating shower device further includes a hot water pipe; the shower room further includes a water outlet, which is connected to the upper end of the insulation part, and the insulation part surrounds the periphery of the water outlet to form the shower cavity; a water outlet channel is formed inside the water outlet, and the water outlet channel connects the hot water pipe and the hot water channel.
[0010] According to an embodiment of the present invention, a radiant heating shower device further includes a second outer wall and a second inner wall, and the water outlet is formed between the second inner wall and the second outer wall; the thickness of the second outer wall is greater than the thickness of the second inner wall.
[0011] According to an embodiment of the present invention, a radiant heating shower device further includes a water distributor located between the second outer wall and the second inner wall; the water distributor includes a plurality of water distribution pipes, one end of which is connected to the hot water pipe and the other end of which is connected to the hot water flow channel, and the extension directions of each water distribution pipe are different.
[0012] According to an embodiment of the present utility model, a radiant heating shower device is provided on the water distribution pipe, and the water outlet holes are spaced apart along the extension direction of the water distribution pipe.
[0013] According to an embodiment of the present utility model, a radiant heating shower device is characterized in that a plurality of heat-insulating parts are provided, and the plurality of heat-insulating parts surround the periphery of the shower cavity.
[0014] According to an embodiment of the present utility model, a radiant heating shower device is characterized in that the radiant heating shower device assembly further includes a drain pipe; the drain pipe is disposed at the bottom of the shower room and is connected to the hot water flow channel and / or the shower cavity.
[0015] According to an embodiment of the present invention, a radiant heating shower device includes a shower chamber comprising an insulating shell and a heat-conducting shell. The insulating shell is fitted over the heat-conducting shell, and the thickness of the insulating shell is greater than the thickness of the heat-conducting shell. The shower chamber is formed inside the heat-conducting shell, and a hot water flow channel is formed between the heat-conducting shell and the insulating shell.
[0016] According to an embodiment of the present utility model, a radiant heating shower device further includes a first valve, a hot water pipe, a first branch pipe, and a second branch pipe. The first branch pipe connects the hot water flow channel and the hot water pipe, and the second branch pipe connects the shower head and the hot water pipe. The first valve is disposed on the first branch pipe.
[0017] The present invention has at least the following beneficial effects: hot water enters and flows through the hot water channel of the insulation section, radiating heat to the environment inside the shower chamber, thus raising the temperature inside the shower chamber and providing a warm shower environment for the user, reducing discomfort during winter showers. The insulation section is at least one inner wall of the shower chamber, providing large-area radiant heating to the shower chamber, reducing heat loss and thus achieving a warming effect. The insulation section can be at least one inner wall of the shower chamber; it can be the entire inner wall of the shower chamber, thus improving the warming effect, or it can be one inner wall of the shower chamber, with hot water flowing through a hot water channel passing through one of the inner walls to radiate heat to the shower chamber. Having at least one inner wall of the shower chamber increases the effective area of the insulation section within the shower chamber, which is beneficial for improving the efficiency of radiant heating of the shower chamber by the insulation section. The insulation section can be flat for easy processing; it can also be curved to concentrate heat and improve insulation performance. The shower head is the water outlet device that transforms the incoming water flow into a spray pattern suitable for rinsing the body. The shower head evenly disperses the water flow, breaking up the concentrated water flow through nozzles or water outlet plates to form a fine water column or mist, avoiding the impact of high-pressure water flow and improving rinsing comfort. The shower room has a shower chamber; the enclosed shower chamber can reduce heat loss, making showering more comfortable in winter. Attached Figure Description
[0018] The present invention will be further described below with reference to the accompanying drawings and embodiments;
[0019] Figure 1 This is a schematic diagram of the overall structure of a radiant heating shower device provided in an embodiment of this utility model;
[0020] The following labels are used in the attached diagram:
[0021] 100. Shower room; 110. Insulation section; 111. First outer wall; 112. First inner wall; 113. Hot water flow channel; 120. Water outlet; 121. Water outlet channel; 122. Second outer wall; 123. Second inner wall; 130. Insulation shell; 140. Heat-conducting shell; 160. Bottom wall; 170. First valve; 180. Second valve; 190. First branch pipe; 191. Second branch pipe;
[0022] 200. Water distributor; 210. Water distribution pipe; 211. Water outlet;
[0023] 300. Shower head;
[0024] 400. Hot water pipe. Detailed Implementation
[0025] This section will describe in detail the specific embodiments of the present utility model. The preferred embodiments of the present utility model are shown in the accompanying drawings. The purpose of the drawings is to supplement the textual description with graphics, so that people can intuitively and vividly understand each technical feature and the overall technical solution of the present utility model, but they should not be construed as limiting the scope of protection of the present utility model.
[0026] In the description of this utility model, it should be understood that the directional descriptions, such as up, down, front, back, left, right, etc., indicate the directional or positional relationship based on the directional or positional relationship shown in the accompanying drawings. They are only for the convenience of describing this utility model and simplifying the description, and do not indicate or imply that the device or element referred to must have a specific orientation, or be constructed and operated in a specific orientation. Therefore, they should not be construed as limitations on this utility model.
[0027] In the description of this utility model, the use of terms such as "several" means one or more, with "multiple" meaning two or more. Terms like "greater than," "less than," and "exceeding" are understood to exclude the stated number, while "above," "below," and "within" are understood to include the stated number. The use of terms like "first," "second," and "third" is merely for distinguishing technical features and should not be construed as indicating or implying relative importance, the quantity of indicated technical features, or the sequential relationship between indicated technical features.
[0028] In the description of this utility model, unless otherwise explicitly defined, terms such as "setting," "installation," and "connection" should be interpreted broadly, and those skilled in the art can reasonably determine the specific meaning of the above terms in this utility model in conjunction with the specific content of the technical solution.
[0029] Reference Figure 1 The following are several embodiments of a radiant heating shower device according to the present invention.
[0030] like Figure 1 As shown, a radiant heating shower device according to an embodiment of the present invention includes a shower chamber 100 and a shower head 300; the shower chamber 100 includes an insulation part 110, and a hot water flow channel 113 is provided in the insulation part 110; the hot water flow channel 113 is used to circulate hot water; the shower chamber 100 is provided with a shower cavity 150; the shower head 300 is provided in the shower cavity 150 and is used to spray water.
[0031] Hot water enters and flows through the hot water channel 113 of the insulation section 110. This hot water radiates heat into the environment inside the shower chamber 150, raising its temperature and providing a warm shower environment for the user, reducing discomfort during winter showers. The insulation section 110 is at least one inner wall of the shower chamber 150. By radiating heat over a large area through this inner wall, heat loss from the shower chamber 150 is reduced, thus achieving a warming effect.
[0032] The heat insulation section 110 is at least one inner wall of the shower cavity 150. It can be the entire inner wall of the shower cavity 150, thus improving the heat retention effect; or it can be one inner wall of the shower cavity 150, with hot water flowing through a hot water channel 113 passing through one of the inner walls to radiate heat to the shower cavity 150. The fact that the heat insulation section 110 is at least one inner wall of the shower cavity 150 increases the effective area of the heat insulation section 110 on the shower cavity 150, which is beneficial to improving the efficiency of radiant heating of the shower cavity 150 by the heat insulation section 110. The heat insulation section 110 can be planar for easy processing; it can also be curved to concentrate heat and improve heat retention performance.
[0033] Shower head 300 is a water outlet device that transforms the incoming water flow into a spray pattern suitable for rinsing the human body. Shower head 300 evenly disperses the water flow, breaking up the concentrated water flow through spray holes or water outlet plates to form a fine water column or mist, avoiding the impact of high-pressure water flow and improving rinsing comfort. Shower room 100 is equipped with shower chamber 150. The closed shower chamber 150 can reduce heat loss, making showering more comfortable in winter.
[0034] like Figure 1As shown, in some embodiments, the heat insulation part 110 further includes a first outer wall 111 and a first inner wall 112, with a hot water flow channel 113 formed between the first inner wall 112 and the first outer wall 111; the thickness of the first outer wall 111 is greater than the thickness of the first inner wall 112; the first outer wall 111 ensures the overall stability of the shower room 100, preventing the shower room 100 from being deformed by external forces, and water overflow can be avoided through the first outer wall 111; compared with the first inner wall 112, the thickness of the first outer wall 111 is larger, which can prevent the temperature loss of the shower room 100 and enhance the overall safety; the first inner wall 112 quickly conducts the heat of the hot water in the hot water flow channel 113 to the shower cavity 150, improving the heat conduction efficiency, reducing heat loss, and reducing energy consumption; the heat conduction through the first inner wall 112 makes the temperature in the shower cavity 150 as uniform as possible, avoiding local overheating of the shower cavity 150 and reducing the risk of scalding. The first inner wall 112 can be made of metal to improve the heat conduction effect of the first inner wall 112; a hot water flow channel 113 is formed between the first inner wall 112 and the first outer wall 111, that is, hot water can flow out evenly between the first inner wall 112 and the second outer wall 122, increasing the flow area of hot water inside the insulation part 110; hot water can flow from the top to the bottom of the insulation part 110; of course, in other embodiments, multiple hot water flow channels 113 can also be opened inside the insulation part 110.
[0035] like Figure 1 As shown, in some embodiments, a radiant heating shower device further includes a hot water pipe 400; the shower room 100 further includes a water outlet 120, which is connected to the upper end of the insulation part 110, and the insulation part 110 surrounds the periphery of the water outlet 120 to form a shower cavity 150; a water outlet channel 121 is formed inside the water outlet 120, which connects the hot water pipe 400 and the hot water channel 113; the hot water pipe 400 evenly delivers hot water to the insulation part 110 through the water outlet 120. Since the shower cavity 150 is formed between the water outlet 120 and the insulation part 110, the hot water flows through the water outlet channel 121 and the hot water channel 113, which allows the hot water to flow in the top and sides of the shower cavity 150, thereby improving the effect of radiant heating and improving the shower experience in winter.
[0036] like Figure 1As shown, in some embodiments, the water outlet 120 further includes a second outer wall 122 and a second inner wall 123, with a water outlet channel formed between the second inner wall 123 and the second outer wall 122; the thickness of the second outer wall 122 is greater than the thickness of the second inner wall 123. The second outer wall 122 ensures the overall stability of the shower room 100, preventing the shower room 100 from deforming under external forces, and reduces water overflow; compared to the second inner wall 123, the thickness of the second outer wall 122 is larger, which can prevent the temperature loss of the shower room 100 and enhance overall safety; the second inner wall 123 can quickly conduct the heat of the hot water in the water outlet channel to the shower cavity 150, improving heat conduction efficiency, reducing heat loss, and reducing energy consumption; the heat conduction through the second inner wall 123 can make the temperature in the shower cavity 150 as uniform as possible, avoiding local overheating of the shower cavity 150 and reducing the risk of scalding. The second inner wall 123 can be made of metal to improve the heat conduction effect of the second inner wall 123; a water outlet channel is formed between the second inner wall 123 and the second outer wall 122, that is, hot water can flow out evenly between the second inner wall 123 and the second outer wall 122, increasing the flow area of hot water inside the insulation part 110; hot water can flow from the top to the bottom of the insulation part 110; of course, in other embodiments, multiple water outlet channels can also be opened inside the insulation part 110.
[0037] like Figure 1 As shown, in some embodiments, a radiant heating shower device further includes a water distributor 200, which is located between the second outer wall 122 and the second inner wall 123. The water distributor 200 includes multiple water distribution pipes 210, one end of which is connected to the hot water pipe 400, and the other end is connected to the hot water pipe 400. The extension directions of each water distribution pipe 210 are different. With the different extension directions of each water distribution pipe 210, the water distributor 200 evenly delivers the water from the hot water pipe 400 to various parts of the insulation section 110 through the multiple water distribution pipes 210, thereby playing the role of diverting water supply. Hot water flows out from the hot water pipe 400 and flows to the hot water channel 113 through the water distribution pipes 210. The water distribution pipes 210 can reduce water pressure fluctuations, buffer water flow impacts, ensure stable flow at each water outlet, and reduce the water hammer effect.
[0038] like Figure 1 As shown, in some embodiments, the water distribution pipe 210 is provided with a plurality of water outlet holes 211. The water outlet holes 211 are spaced apart along the extension direction of the water distribution pipe 210. When hot water flows in the water distribution pipe 210, the hot water flows out from the water outlet holes 211. The hot water flows evenly in the water outlet channel 121 through the plurality of water outlet holes 210, so that the hot water is evenly distributed in the water outlet section 120, which is conducive to the water outlet section 120 radiating heat to the shower chamber 150.
[0039] like Figure 1 As shown, in some embodiments, multiple heat-insulating parts 110 are provided, and the multiple heat-insulating parts 110 surround the periphery of the shower cavity 150, so that the heat-insulating parts 110 can radiate heat to the shower cavity 150 from multiple directions, thereby improving the heat preservation effect.
[0040] like Figure 1 As shown, in some embodiments, a radiant heating shower device assembly further includes a drain pipe; the drain pipe is disposed at the bottom of the shower chamber 100 and connects to at least one of the hot water channel 113 and the shower cavity 150. The drain pipe can quickly drain wastewater from the shower chamber 100 or the hot water channel 113. The drain pipe can connect to one of the hot water channel 113 and the shower cavity 150, and the bottoms of the hot water channel 113 and the shower cavity 150 are connected. The drain pipe can also connect both the hot water channel 113 and the shower cavity 150 simultaneously to prevent excessive water accumulation in the shower chamber 100 and to ensure that the hot water channel 113 remains unobstructed, preventing overload of the hot water channel 113.
[0041] like Figure 1 As shown, in some embodiments, the shower room 100 includes an insulating shell 130 and a heat-conducting shell 140. The insulating shell 130 is fitted over the heat-conducting shell 140, and the thickness of the insulating shell 130 is greater than the thickness of the heat-conducting shell 140. A shower cavity 150 is formed inside the heat-conducting shell 140, and a hot water flow channel 113 is formed between the heat-conducting shell 140 and the insulating shell 130. By limiting the thickness of the heat-conducting shell 140, it is beneficial for the hot water flow channel 113 to transfer heat to the shower cavity 150 through the heat-conducting shell 140, thereby improving heat conduction efficiency, reducing heat loss, and reducing energy consumption. The insulating shell 130 supports the shower room 100, ensuring the overall stability of the shower room 100 and preventing deformation. The insulation shell 130 is thicker than the heat-conducting shell 140, which can prevent heat loss from the shower room 100 and enhance overall safety. The insulation shell 130 reduces heat loss and energy consumption, thus playing a role in heat preservation and energy saving. The insulation shell 130 includes a first outer wall 111, a second outer wall 122, and a bottom wall 160. The second outer wall 122 is located on top of the bottom wall 160, and the first outer wall 111 connects the second outer wall 122 and the bottom wall 160. The heat-conducting shell 140 includes a first inner wall 112 and a second inner wall 123. The second inner wall 123 is connected to the upper end of the first inner wall 112, and the first inner wall 112 surrounds the periphery of the second inner wall 123. The insulation shell 130 is fitted over the heat-conducting shell 140, that is, a shower cavity 150 is formed between the first inner wall 112, the second inner wall 123, and the bottom wall 160.
[0042] like Figure 1As shown, in some embodiments, a radiant heating shower device further includes a first valve 170, a hot water pipe 400, a first branch pipe 190, and a second branch pipe 191. The first branch pipe 190 connects the hot water channel 113 and the hot water pipe 400, and the second branch pipe 191 connects the shower head 300 and the hot water pipe 400. The hot water pipe 400 delivers hot water to the hot water channel 113 through the first branch pipe 190 and to the shower head 300 through the second branch pipe 191. By delivering hot water to both the hot water channel 113 and the shower head 300 through the same hot water pipe 400, the number of parts in the radiant heating shower device can be reduced, improving integration. Simultaneously, it facilitates the adjustment of the hot water flow. The water temperature inside the hot water channel 113 is controlled to prevent overheating. A first valve 170 is installed on the first branch pipe 190 to regulate the water flow rate in the first branch pipe 190, thereby regulating the radiant heat of the hot water channel 113. A second valve 180 is installed on the hot water pipe 400 to regulate the opening or closing of the hot water pipe 400. In use, by opening the second valve 180, hot water is delivered from the hot water pipe 400 to the shower head 300 for showering. By opening the first valve 170, the water volume in the hot water channel 113 can be regulated, thereby regulating the radiant heat of the hot water channel 113. The first valve 170 and the second valve 180 can be solenoid valves.
[0043] The preferred embodiments of the present invention have been described in detail above, but the present invention is not limited to the described embodiments. Those skilled in the art can make various equivalent modifications or substitutions without departing from the spirit of the present invention, and these equivalent modifications or substitutions are all included within the scope defined by the claims of this application.
Claims
1. A radiant heating shower device, characterized in that, include: A shower room includes an insulated section, within which a hot water flow channel is provided; the hot water flow channel is used to circulate hot water; the shower room has a shower cavity, and the insulated section is at least one inner wall of the shower cavity; A shower head is located inside the shower chamber and is used to spray water.
2. The radiant heating shower device according to claim 1, characterized in that, The insulation part further includes a first outer wall and a first inner wall, and the hot water flow channel is formed between the first inner wall and the first outer wall; the thickness of the first outer wall is greater than the thickness of the first inner wall.
3. A radiant heating shower device according to claim 1, characterized in that, The radiant heating shower device further includes a hot water pipe; the shower room further includes a water outlet, which is connected to the upper end of the insulation part, and the insulation part surrounds the periphery of the water outlet to form the shower cavity; a water outlet channel is formed inside the water outlet, and the water outlet channel connects the hot water pipe and the hot water channel.
4. A radiant heating shower device according to claim 3, characterized in that, The water outlet section further includes a second outer wall and a second inner wall, and the water outlet channel is formed between the second inner wall and the second outer wall; the thickness of the second outer wall is greater than the thickness of the second inner wall.
5. A radiant heating shower device according to claim 4, characterized in that, The radiant heating shower device further includes a water distributor located between the second outer wall and the second inner wall; the water distributor includes multiple water distribution pipes, one end of which is connected to the hot water pipe and the other end is connected to the hot water flow channel, and the extension direction of each water distribution pipe is different.
6. A radiant heating shower device according to claim 5, characterized in that, The water distribution pipe is provided with multiple water outlet holes, which are spaced apart along the extension direction of the water distribution pipe.
7. A radiant heating shower device according to any one of claims 1 to 6, characterized in that, The heat insulation section is provided in multiple parts, and the multiple heat insulation sections surround the periphery of the shower cavity.
8. A radiant heating shower device according to any one of claims 1 to 6, characterized in that, The radiant heating shower device assembly further includes a drain pipe; the drain pipe is located at the bottom of the shower room and is connected to the hot water channel and / or the shower cavity.
9. A radiant heating shower device according to any one of claims 1 to 6, characterized in that, The shower room includes an insulated outer shell and a heat-conducting shell. The insulated outer shell is fitted over the heat-conducting shell, and the thickness of the insulated outer shell is greater than the thickness of the heat-conducting shell. The shower cavity is formed inside the heat-conducting shell, and the hot water flow channel is formed between the heat-conducting shell and the insulated outer shell.
10. A radiant heating shower device according to claim 1, characterized in that, The radiant heating shower device further includes a first valve, a hot water pipe, a first branch pipe, and a second branch pipe. The first branch pipe connects the hot water flow channel and the hot water pipe, and the second branch pipe connects the shower head and the hot water pipe. The first valve is disposed on the first branch pipe.