CN213758000U - Energy-saving shower room - Google Patents

Abstract

The utility model discloses an energy-conserving bathroom of bathing, its bathroom main part is equipped with the base, the adaptation inlays and is equipped with the heat recovery board on the support step that sinks, the heat recovery board is equipped with the outlet pipe that is used for the inlet tube with water piping connection and is used for being connected with the water inlet of water heater, the heat recovery board is equipped with the water leakage seam, be formed with the waste water chamber between the bottom of heat recovery board and the base, water leakage seam and waste water chamber intercommunication, the below of heat recovery board is located to the floor drain hole, floor drain hole and waste water chamber intercommunication. The utility model discloses a heat recovery board retrieves a part heat energy of shower waste water to be favorable to the water heater can reduce operating power, be favorable to energy-conservation. In addition, the top water spraying opening is arranged on the lower side surface of the telescopic head, so that the telescopic head can be conveniently stretched by hands according to the habit or body shape of a user, the position of the top water spraying opening can be adjusted, and the practicability of the product is improved.

Description

Energy-saving shower room

Technical Field

The utility model relates to a shower room field, concretely relates to energy-conserving shower room.

Background

At present, a bathroom is installed in bathrooms of some families, the bathrooms are provided with glass screens, and the glass screens can block water splashed during bathing, so that the bathrooms are clean. Still can set up the shower screen in present shower room, the shower screen has the stainless steel casing, the shower screen is generally installed on the wall, the main function of shower screen is the water jet or the tap that provide different positions and different functions, the shower screen has integrateed the hot and cold water mixing valve and has gone out the water switching valve, the hot and cold water mixing valve is used for connecting water heater and water pipe, it is used for switching over out water between each water jet or tap to go out the water switching valve, inside each water jet or tap etc. of hose connection through of shower screen. When people have a bath in the shower room, hot water is drained away from the floor drain after being sprayed on the body, and the waste of heat energy is serious, so the current shower room needs to be improved.

Disclosure of Invention

The utility model aims to overcome the defects of the prior art and provide an energy-saving bathroom, which is beneficial to energy conservation.

The purpose of the utility model is realized by the following technical scheme.

The utility model discloses an energy-saving shower room, which comprises a shower screen and a shower room main body, wherein the shower screen comprises a shell, the upper part of the shell is provided with a water jet, the shower room main body is provided with a base, the base is provided with sunken supporting steps, the sunken supporting steps are matched and embedded with a heat energy recovery plate, the heat energy recovery plate is provided with a water inlet pipe connected with a tap water pipe and a water outlet pipe connected with a water inlet of a water heater, the heat energy recovery plate is provided with a heat exchange pipe, the heat exchange pipe is communicated with the water inlet pipe and the water outlet pipe, the heat energy recovery plate is provided with a water leakage seam, a wastewater cavity is formed between the bottom of the heat energy recovery plate and the base, the water leakage seam is communicated with the wastewater cavity, a floor leakage hole is formed on the base and is arranged below the heat energy recovery plate, the floor leakage hole is communicated with the wastewater cavity, the lower end part of the shower screen is connected with the base, and the heat energy recovery plate is arranged on the front side of the shower screen; the upper portion sliding connection of casing has flexible head, the top water jet sets up the downside of flexible head.

Preferably, the heat energy recovery plate is covered with a porous cover plate, and the porous cover plate is formed with small holes arranged in an array.

Preferably, the diameter of the holes is set to 7 mm, and the pitch of the holes is set to 15 mm.

Preferably, the bathroom main body is provided with two pieces of fixed glass, the two pieces of fixed glass are perpendicular to each other, and the lower ends of the two pieces of fixed glass are fixedly connected with the base.

Preferably, the upper end of the bathroom main body is provided with a top beam, two ends of the top beam are respectively and fixedly connected with a vertical beam which is used for being attached to and connected with a wall, and the fixed glass is fixedly connected with the top beam and the vertical beam.

Compared with the prior art, the utility model, its beneficial effect is: the shower room main body is provided with a base, the base is provided with sunken supporting steps, a heat energy recovery plate is embedded on the sunken supporting steps in a matching manner, the heat energy recovery plate is provided with a water inlet pipe connected with a tap water pipe and a water outlet pipe connected with a water inlet of a water heater, the heat energy recovery plate is provided with a heat exchange pipe, the heat exchange pipe is communicated with the water inlet pipe and the water outlet pipe, the heat energy recovery plate is provided with a water leakage seam, a waste water cavity is formed between the bottom of the heat energy recovery plate and the base, the water leakage seam is communicated with the waste water cavity, the base is provided with a floor drain hole, the floor drain hole is arranged below the heat energy recovery plate and is communicated with the waste water cavity, through the arrangement, when a person stands on the heat energy recovery plate to shower, the hot water flows through the human body and then can be showered on the heat energy recovery plate, and the waste water can heat the tap water flowing through the heat exchange pipe, is favorable for the water heater to reduce the running power, so the utility model discloses can retrieve the partly heat energy of shower waste water to be favorable to energy-conservation. In addition, the top water spraying opening is arranged on the lower side surface of the telescopic head, so that the telescopic head can be conveniently stretched by hands according to the habit or body shape of a user, the position of the top water spraying opening can be adjusted, and the practicability of the product is improved.

Drawings

Fig. 1 is a schematic view of a three-dimensional structure in a top view direction of the present invention.

Fig. 2 is a schematic view of the three-dimensional structure of the combination of the shower screen and the heat energy recovery plate in the upward direction.

Fig. 3 is a schematic view of a sectional structure of the connection assembly of the telescopic head and the housing according to the present invention.

Fig. 4 is an enlarged view of fig. 3 at a.

Fig. 5 is a schematic top view of the heat energy recovery plate of the present invention.

Fig. 6 is a schematic perspective view of the bathroom main body of the present invention.

Fig. 7 is an enlarged view of fig. 6 at B.

Fig. 8 is a schematic view of a sectional structure of the base and the heat energy recovery plate according to the present invention.

Fig. 9 is a schematic view of the pipeline connection of the present invention.

Fig. 10 is a schematic perspective view of another embodiment of the present invention.

Fig. 11 is an enlarged view of fig. 10 at C.

Description of reference numerals: 1-a shower screen; 100-a housing; 101-a telescopic head; 1011-top water jet; 1012-inner water cavity; 102-a display screen; 103-a cold and hot water mixing valve; 104-water outlet switching valve; 105-back water jet; 106-a lower faucet; 107-hand shower; 2-the bathroom main body; 201-a base; 202-fixed glass; 203-glass door; 204-a floor drain hole; 205-sunken support step; 206-a waste water chamber; 207-top beam; 208-vertical beam; 3-a heat energy recovery plate; 301-water inlet pipe; 302-water outlet pipe; 303-heat exchange tubes; 304-a divider plate; 305-water leakage seam; 4-a porous cover plate; 401-small hole; 99-water heater.

Detailed Description

The present invention will be further described with reference to the accompanying drawings.

The energy-saving shower room of the utility model, as shown in figure 1, comprises a shower screen 1 and a shower room main body 2, in practical application, the back of the shower screen 1 leans against a wall, as shown in fig. 2, the shower screen 1 includes a housing 100 made of stainless steel, the upper portion of the housing 100 extends to a section away from the wall, a top water spray 1011 is disposed on the upper portion of the housing 100, water sprayed from the top water spray 1011 can be sprayed to feet from the head of a person, the shower screen 1 is further provided with a display screen 102 for displaying water temperature, a knob of a hot and cold water mixing valve 103 and a knob of a water outlet switching valve 104 are exposed out of the housing 100, the height position of the back water spray 105 corresponds to the back of the person, a lower water faucet 106 is further disposed below the back water spray 105, a handheld shower head 107 is hung on the right side of the housing 100, the handheld shower head 107 is connected with a pipeline in the housing 100 through a hose, and the back water spray 105 and the top water spray 1011 are dense small holes. The bath room main body 2 mainly comprises a screen for preventing splash during bath, the screen can be made of plastic or glass, and the screen can be matte or completely transparent. The above description is prior art.

As shown in fig. 6, the shower room body 2 of the present invention is provided with a base 201, and the base 201 is made of ceramic. As shown in fig. 7, the base 201 is provided with a depressed support step 205, the depressed support step 205 is adapted to fit the thermal energy recovery plate 3, as shown in fig. 8, the edge portion of the thermal energy recovery plate 3 rests on the depressed support step 205, and the upper surface of the thermal energy recovery plate 3 is preferably flush with the surface of the base 201.

As shown in fig. 5, the heat energy recovery plate 3 is provided with an inlet pipe 301 for connecting with a tap water pipe and an outlet pipe 302 for connecting with a water inlet of the water heater 99, the heat energy recovery plate 3 is provided with a heat exchange pipe 303, the material of the heat exchange pipe 303 can be aluminum alloy, the heat exchange pipe 303 is communicated with the inlet pipe 301 and the outlet pipe 302, specifically, the frame of the heat energy recovery plate 3 can be filled with water, tap water entering from the inlet pipe 301 enters the heat exchange pipe 303 through the frame of the heat energy recovery plate 3, the direction of water flow is schematically shown by dotted lines and arrows in fig. 5, because a partition plate 304 is arranged inside the frame of the heat energy recovery plate 3, the partition plate 304 is arranged between the inlet pipe 301 and the outlet pipe 302, the partition plate 304 can prevent the tap water entering from the inlet pipe 301 from being discharged from the outlet pipe 302 immediately, and is beneficial to enabling the heat exchange pipe 303 to be filled with water.

The heat energy recovery plate 3 is provided with water leakage gaps 305, as shown in fig. 5, the water leakage gaps 305 are specifically gaps arranged between the heat exchange tubes 303, in fig. 5, the heat exchange tubes 303 are arranged in groups of five, and the gaps arranged between each group of heat exchange tubes 303 are used as the water leakage gaps 305. As shown in fig. 8, a waste water cavity 206 is formed between the bottom of the heat energy recovery plate 3 and the base 201, the water leakage seam 305 is communicated with the waste water cavity 206, that is, when bathing, hot water flowing through a human body can flow into the waste water cavity 206 from the water leakage seam 305, as shown in fig. 6, the base 201 is formed with a floor drain hole 204, as shown in fig. 8, the floor drain hole 204 is arranged below the heat energy recovery plate 3, and the floor drain hole 204 is communicated with the waste water cavity 206. By providing the waste water chamber 206, it is advantageous to provide sufficient circulation space for the bath waste water so that the bath waste water can be discharged through the floor drain 204 quickly. As shown in fig. 1, the lower end of the shower screen 1 is connected with the base 201, and the heat energy recovery plate 3 is arranged at the front side of the shower screen 1.

Fig. 9 schematically shows the utility model discloses a pipe connection, outlet pipe 302 of heat recovery board 3 is connected with the water inlet of water heater 99 (it is to be noted that, the utility model discloses do not contain water heater 99, only provide the interface of being connected with water heater 99), the delivery port of water heater 99 and the entry linkage of hot and cold water mixing valve 103, the water pipe simultaneously with inlet tube 301 and the entry linkage of hot and cold water mixing valve 103, the export of hot and cold water mixing valve 103 and the entry linkage of play water diverter valve 104, the export and the top spout 1011 of play water diverter valve 104, back of the body spout 105, lower tap 106 and handheld gondola water faucet 107 are connected. When a person stands on the heat energy recovery plate 3 to take a bath, hot water flows through the human body and then is sprayed on the heat energy recovery plate 3, and the bath wastewater is in contact with the outer surface of the heat exchange tube 303, so that the heat exchange tube 303 is heated, tap water flowing through the inside of the heat exchange tube 303 is heated, and then the tap water flows into the water inlet of the water heater 99 from the water outlet pipe 302 of the heat energy recovery plate 3. The temperature difference between the bath wastewater and the tap water is larger, the tap water is heated more obviously, namely, the water heater is particularly effective in winter, the water temperature of the water heater 99 is raised, the water heater 99 can reduce the operation power, so the utility model discloses can retrieve a part of heat energy of the bath wastewater, thereby being beneficial to energy conservation. After the bath wastewater is sprayed on the outer surface of the heat exchange tube 303, the bath wastewater flows downwards into the wastewater cavity 206 from the water leakage seam 305, and the wastewater in the wastewater cavity 206 is then intensively discharged to a sewage pipeline from the floor drain hole 204.

Further, as shown in fig. 2 and 3, a telescopic head 101 is slidably connected to an upper portion of the housing 100, a rear end portion of the telescopic head 101 may be fittingly hidden in the upper portion of the housing 100, and as shown in fig. 4, a top water jet 1011 is disposed at a lower side surface of the telescopic head 101. Preventing the telescoping head 101 from coming out completely. In order to reduce the weight of water in the telescopic head 101, an inner water cavity 1012 is arranged in the telescopic head 101, the top water spraying port 1011 is communicated with the inner water cavity 1012, and the inner water cavity 1012 is connected with a water inlet hose through a corresponding pipeline. By arranging the retractable head 101, the retractable head 101 can be pulled out or put in by hand according to the habit or body shape of the user, which is beneficial to improving the practicability of the product.

Further, as shown in fig. 10 and 11, the heat energy recovery plate 3 is covered with a porous cover plate 4, the porous cover plate 4 is formed with small holes 401 arranged in an array, the porous cover plate 4 can be fixedly connected with the heat energy recovery plate 3, and the arrangement of the porous cover plate 4 is beneficial to reducing the discomfort of the heat energy recovery plate 3 to the sole.

Further, the diameter of the orifice 401 is set to 7 mm, and the pitch of the orifice 401 is set to 15 mm. Through setting up like this, can more effectively avoid the uncomfortable sense that porous apron 4 produced to the sole, also can guarantee simultaneously that the trafficability characteristic of shower waste water is good.

Further, as shown in fig. 6, the shower room body 2 is provided with two pieces of fixed glass 202, the two pieces of fixed glass 202 are perpendicular to each other, the two pieces of fixed glass 202 are used as screens, the lower ends of the two pieces of fixed glass 202 are fixedly connected with the base 201, in order to save the space in the shower room, the corner of the base 201 which is not connected with the wall is set to be a fillet, the corresponding position of the fillet is provided with a left glass door 203 and a right glass door 203 (it should be noted that only the glass door 203 is drawn in fig. 6), the glass doors 203 are push-pull type, by setting the perpendicular pieces of fixed glass 202, the shower room space surrounded by the two fixed glass 202 and the two walls at the corner is facilitated, and the area of the shower room is fully utilized.

Further, as shown in fig. 6, a top beam 207 is disposed at the upper end of the shower room main body 2, two ends of the top beam 207 are respectively and fixedly connected with a vertical beam 208 for being attached to a wall, and the fixed glass 202 is fixedly connected with the top beam 207 and the vertical beam 208, so that the top beam 207 and the vertical beam 208 are disposed, which is beneficial to protecting the fixed glass 202 and reducing the possibility of damage to the fixed glass 202.

Claims (5)

1. The utility model provides an energy-conserving shower room, includes shower screen (1) and shower room main part (2), shower screen (1) includes casing (100), the upper portion of casing (100) is equipped with top water jet (1011), its characterized in that: the bath room main body (2) is provided with a base (201), the base (201) is provided with a sunken supporting step (205), a heat energy recovery plate (3) is embedded on the sunken supporting step (205) in a matching manner, the heat energy recovery plate (3) is provided with a water inlet pipe (301) connected with a tap water pipe and a water outlet pipe (302) connected with a water inlet of a water heater (99), the heat energy recovery plate (3) is provided with a heat exchange pipe (303), the heat exchange pipe (303) is communicated with the water inlet pipe (301) and the water outlet pipe (302), the heat energy recovery plate (3) is provided with a water leakage seam (305), a waste water cavity (206) is formed between the bottom of the heat energy recovery plate (3) and the base (201), the water leakage seam (305) is communicated with the waste water cavity (206), a ground leakage hole (204) is formed on the base (201), and the ground leakage hole (204) is arranged below the heat energy recovery plate (3), the floor drain hole (204) is communicated with the waste water cavity (206), the lower end part of the shower screen (1) is connected with the base (201), and the heat energy recovery plate (3) is arranged at the front side of the shower screen (1);

the upper portion sliding connection of casing (100) has flexible head (101), top water jet (1011) set up the downside of flexible head (101).

2. The energy-saving bathroom of claim 1, wherein: the heat energy recovery plate (3) is covered with a porous cover plate (4), and the porous cover plate (4) is provided with small holes (401) which are arranged in an array.

3. The energy saving bathroom of claim 2, wherein: the diameter of the small holes (401) is set to be 7 mm, and the distance between the small holes (401) is set to be 15 mm.

4. The energy-saving bathroom of claim 1, wherein: the shower room main body (2) is provided with two pieces of fixed glass (202), the two pieces of fixed glass (202) are perpendicular to each other, and the lower ends of the two pieces of fixed glass (202) are fixedly connected with the base (201).

5. The energy-saving bathroom of claim 4, wherein: the upper end of the bath room main body (2) is provided with a top beam (207), two ends of the top beam (207) are respectively fixedly connected with a vertical beam (208) which is used for being attached to a wall, and the fixed glass (202) is fixedly connected with the top beam (207) and the vertical beam (208).

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