A heating assembly for a hot water tank in a pulping water supply system
By setting up a water storage and diversion mechanism and a mixing and separation mechanism inside the hot water tank, and using a drive motor to rotate the separator seat, the water storage chamber and the heating chamber are separated and connected. The heating frame locally heats and agitates the water, solving the problems of low heating rate and high power consumption of the hot water tank, and achieving rapid heating and efficient water output.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- YELLOW CRANE TOWER WINE (XIANNING) CO LTD
- Filing Date
- 2025-06-27
- Publication Date
- 2026-07-03
AI Technical Summary
Existing hot water tanks have low heating rates and small water output, which cannot meet temporary hot water needs, and the energy consumption during the heating process is high.
By setting up a water storage and diversion mechanism and a mixing and separating mechanism inside the hot water tank, and using a drive motor to drive the separator seat to rotate, the water storage chamber and the heating chamber are sealed and connected. Combined with the heating rack, the water is locally heated and stirred, thereby improving the heating efficiency.
It enables rapid water heating output, reduces power consumption, increases heating rate and water output, and facilitates instant hot water supply.
Smart Images

Figure CN224454934U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of hot water tank technology, specifically to a hot water tank heating component for a pulping water supply system. Background Technology
[0002] A hot water tank in a slurry water supply system is a container used to store hot water. It is typically made of high-temperature resistant materials, such as stainless steel or ceramic, to withstand the temperature of hot water and maintain its stability. Its main function is to provide a place to store hot water in homes or commercial spaces, allowing users to conveniently access hot water when needed. The working principle of a hot water tank is to heat water to a suitable temperature using a heating device, and then store the hot water in the tank. This storage method allows users to directly use pre-heated hot water from the tank during peak water usage periods, such as showering or washing dishes, without having to wait for cold water to heat up, thus improving convenience and comfort.
[0003] Existing hot water tanks are large in size and require overall heating when there is a temporary need for hot water, resulting in a low heating rate and a small output of hot water. Therefore, they do not meet the current needs. To address this, we propose a hot water tank heating component for a pulping water supply system. Utility Model Content
[0004] To address the aforementioned technical problems, this utility model provides a hot water tank heating component for a pulping water supply system. By dividing the hot water tank, it facilitates localized heating when hot water is needed, reducing energy consumption while improving heating efficiency and enabling rapid hot water output.
[0005] The technical solution provided by this utility model is as follows:
[0006] A hot water tank heating assembly for a pulping water supply system includes a water storage and guiding mechanism. A mixing and separating mechanism is installed inside the water storage and guiding mechanism. A multi-segment heating mechanism is installed inside the mixing and separating mechanism. The mixing and separating mechanism includes a drive motor. A drive shaft is installed at the output end of the drive motor. A first separating seat is installed at the bottom end of the drive shaft. A second separating seat is installed below the first separating seat. Multiple connecting strips are installed between the first and second separating seats. Annular mixing frames are installed on the outer sides of both the first and second separating seats. Multiple actuating arc strips are installed on the outer sides of both annular mixing frames. Multiple first guiding holes are provided on the surfaces of the first separating seat and the connecting strips. The multi-segment heating mechanism includes a heating tank. A heating chamber is provided inside the heating tank. Multiple second guiding holes are provided on the surfaces of both the upper and lower ends of the heating tank.
[0007] Furthermore, the water storage and diversion mechanism includes a water storage tank, the inside of which is provided with a water storage cavity, an inlet pipe installed on the inner side of the water storage cavity, the upper end of the water storage tank being connected to the inlet pipe, a pressure gauge being installed on the upper end of the water storage tank, an exhaust pipe being installed on one side of the pressure gauge, a level gauge being installed at the front end of the water storage tank, a temperature control box being installed on one side of the water storage tank, and the water storage tank and the temperature control box being connected through a first outlet pipe.
[0008] Furthermore, the multi-segment heating mechanism also includes a sealing plate installed at the bottom of the heating tank, the sealing plate being connected to the bottom of the water storage tank, a support rod installed in the middle of the sealing plate, multiple heating frames installed on the outer side of the upper end of the support rod, a second water outlet pipe installed on the lower end face of the sealing plate, and the upper end of the support rod penetrating the sealing plate and connecting to the multiple heating frames, the multiple heating frames being arranged linearly along the axis of the support rod.
[0009] Furthermore, one end of both the second and first water outlet pipes is inserted into the inside of the temperature control box, and the temperature control box is connected to the heating chamber and the water storage chamber through the second and first water outlet pipes, respectively.
[0010] Furthermore, the plurality of first and second guide holes are arranged circumferentially relative to the axis of the heating tank, and the plurality of first and second guide holes are provided in a one-to-one correspondence. The water storage chamber and the heating chamber are connected through the plurality of first and second guide holes.
[0011] Furthermore, the first partition seat and the second partition seat are connected by a plurality of circumferentially arranged connecting strips. Both the first partition seat and the second partition seat are connected to an annular mixing frame. The two annular mixing frames are symmetrically installed with respect to the center of the heating tank. The heating tank is rotatably connected to both the first partition seat and the second partition seat.
[0012] The beneficial effects of this utility model are:
[0013] The transmission motor drives the first partition seat to rotate via the transmission shaft. The first partition seat then drives the second partition seat to deflect outside the heating tank via multiple connecting strips. This causes the multiple first guide holes and the second guide holes to deflect and misalign. The heating tank, the first partition seat, and the second partition seat can seal and separate the water storage chamber and the heating chamber. With the support of the support pole, multiple heating racks can preferentially heat the water in the heating chamber, reducing power consumption and the amount of water heated, accelerating the water heating rate, and facilitating the rapid output of hot water.
[0014] While providing localized heating, it also facilitates the preheating of the water in the storage chamber. The drive motor synchronously drives the first partition seat, connecting strip, and second partition seat to rotate continuously on the outside of the heating tank via the drive shaft, thereby connecting the storage chamber and the heating chamber. This allows the two symmetrically installed annular mixing frames to simultaneously drive multiple agitator strips to rotate, stirring the water in the storage chamber. As a result, the water in the storage chamber and the heating chamber can be continuously mixed, facilitating the full heating of the water in the hot water tank. Attached Figure Description
[0015] Figure 1 This is a schematic diagram of the overall structure of this utility model;
[0016] Figure 2 This is a schematic cross-sectional view of the present invention;
[0017] Figure 3 This is a cross-sectional structural diagram of the water storage tank in this utility model;
[0018] Figure 4 This is a schematic diagram of the mixing and separating mechanism in this utility model;
[0019] Figure 5 This is a schematic diagram of the exploded structure of the heating tank in this utility model.
[0020] In the diagram: 1. Water storage and diversion mechanism; 101. Water storage tank; 102. Level gauge; 103. Inlet pipe; 104. Pressure gauge; 105. Exhaust pipe; 106. Temperature control box; 107. First outlet pipe; 108. Water storage chamber; 2. Mixing and separating mechanism; 201. Drive motor; 202. Drive shaft; 203. First separator seat; 204. Connecting strip; 205. Second separator seat; 206. Annular mixing frame; 207. Actuating arc strip; 208. First diversion hole; 3. Multi-stage heating mechanism; 301. Sealing plate; 302. Support rod; 303. Heating frame; 304. Second outlet pipe; 305. Heating tank; 306. Heating chamber; 307. Second diversion hole. Detailed Implementation
[0021] The technical solutions of the present invention will be clearly and completely described below with reference to the accompanying drawings of the embodiments of the present invention.
[0022] It should be noted that in the description of this utility model, the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc., indicating the orientation or positional relationship are based on the orientation 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.
[0023] The drive motor 201 (model GV50-3.7KW-60-S) mentioned in this utility model can be purchased from the market or customized. Example
[0024] like Figures 1 to 5 As shown, a hot water tank heating assembly for a pulping water supply system includes a water storage and guiding mechanism 1. The water storage and guiding mechanism 1 includes a water storage tank 101, with a water storage cavity 108 inside the water storage tank 101. An inlet pipe 103 is installed inside the water storage cavity 108. The upper end of the water storage tank 101 is connected to the inlet pipe 103. A pressure gauge 104 is installed at the upper end of the water storage tank 101. An exhaust pipe 105 is installed on one side of the pressure gauge 104. A level gauge 102 is installed at the front end of the water storage tank 101. A temperature regulating box 106 is installed on one side of the water storage tank 101. The water storage tank 101 and the temperature regulating box 106 are connected through a first outlet pipe 107. The level gauge 102 facilitates real-time monitoring of the water level in the water storage tank 101 to ensure that the water level is not lower than the heating height.
[0025] As a further technical solution of this embodiment, a multi-stage heating mechanism 3 is installed inside the mixing and separating mechanism 2. The multi-stage heating mechanism 3 includes a heating tank 305, and a heating cavity 306 is provided inside the heating tank 305. Multiple second guide holes 307 are provided on the surfaces of both the upper and lower ends of the heating tank 305. A sealing plate 301 is installed at the bottom end of the heating tank 305. The sealing plate 301 is connected to the bottom end of the water storage tank 101. A support rod 302 is installed in the middle of the sealing plate 301. Multiple heating racks 303 are installed on the outer side of the upper end of the support rod 302. The upper end of the support rod 302 passes through the sealing plate 301. It is connected to multiple heating racks 303, which are arranged linearly along the axis of the support rod 302. A second water outlet pipe 304 is installed on the lower end face of the sealing plate 301. One end of the second water outlet pipe 304 and the first water outlet pipe 107 are both inserted into the inside of the temperature control box 106. The temperature control box 106 is connected to the heating chamber 306 and the water storage chamber 108 through the second water outlet pipe 304 and the first water outlet pipe 107, respectively. Under the support of the support rod 302, the multiple heating racks 303 can preferentially heat the water in the heating chamber 306, reduce the amount of water to be heated, and accelerate the water heating rate.
[0026] As a further technical solution of this embodiment, a mixing and separating mechanism 2 is installed inside the water storage and guiding mechanism 1. The mixing and separating mechanism 2 includes a drive motor 201, a drive shaft 202 is installed at the output end of the drive motor 201, a first separating seat 203 is installed at the bottom end of the drive shaft 202, a second separating seat 205 is installed below the first separating seat 203, and a plurality of connecting strips 204 are installed between the first separating seat 203 and the second separating seat 205. The surfaces of the first separating seat 203 and the connecting strips 204 are provided with a plurality of first guiding holes 208. The first separating seat 203 and the second separating seat 205 are connected by a plurality of circumferentially arranged connecting strips 204. The first separating seat 203 and the second separating seat 205 are connected by a plurality of circumferentially arranged connecting strips 204. Annular mixing frames 206 are installed on the outer side of the heating tank 305. The first partition seat 203 and the second partition seat 205 are connected to the annular mixing frames 206. Multiple actuating arc strips 207 are installed on the outer side of the two annular mixing frames 206. The two annular mixing frames 206 are symmetrically installed relative to the center of the heating tank 305. The heating tank 305 is rotatably connected to the first partition seat 203 and the second partition seat 205. The drive motor 201 drives the first partition seat 203, the connecting strip 204 and the second partition seat 205 to rotate continuously on the outer side of the heating tank 305 through the drive shaft 202. This causes the water in the water storage chamber 108 to be agitated when the two annular mixing frames 206 drive the multiple actuating arc strips 207 to rotate synchronously.
[0027] As a further technical solution of this embodiment, the plurality of first guide holes 208 and second guide holes 307 are arranged in a circle relative to the axis of the heating tank 305, and the plurality of first guide holes 208 and second guide holes 307 are provided in a one-to-one correspondence. The water storage chamber 108 and the heating chamber 306 are connected through the plurality of first guide holes 208 and second guide holes 307, and the water in the water storage chamber 108 and the heating chamber 306 can be continuously mixed, which facilitates the full heating of the water in the hot water tank.
[0028] The working principle of this utility model:
[0029] 1) When heating the hot water tank, the hot water tank is composed of a water storage tank 101 and a heating tank 305. The heating tank 305 internally divides the water storage tank 101 into a water storage chamber 108 and a heating chamber 306. Multiple first guide holes 208 are provided on the surface of the first partition seat 203 and the second partition seat 205. The multiple first guide holes 208 and the second guide holes 307 are arranged in a one-to-one correspondence. The water storage chamber 108 and the heating chamber 306 are connected through the multiple first guide holes 208 and the second guide holes 307. When the power is turned on, water is injected through the water inlet pipe 103. Under the guiding effect of the first guide holes 208 and the second guide holes 307, the heating chamber 306 and the water storage chamber 108 can be filled.
[0030] 2) Then, the drive motor 201 is started, so that the drive motor 201, under the support of the water storage tank 101, drives the first partition seat 203 to rotate through the drive shaft 202. Then, the first partition seat 203 drives the second partition seat 205 to deflect on the outside of the heating tank 305 through multiple connecting strips 204, so that multiple first guide holes 208 and second guide holes 307 are deflected and misaligned. Then, the heating tank 305, the first partition seat 203 and the second partition seat 205 can seal and separate the water storage chamber 108 and the heating chamber 306.
[0031] 3) Under the support of the support pole 302, multiple heating racks 303 can preferentially heat the water in the heating chamber 306, reduce the amount of water to be heated, accelerate the water heating rate, and facilitate the preheating of the water in the storage chamber 108. Then, the hot water is discharged through the second outlet pipe 304. After the hot water output is stable, the drive motor 201 is restarted, so that the drive motor 201 drives the first partition seat 203, the connecting bar 204 and the second partition seat 205 to rotate continuously on the outside of the heating tank 305 through the drive shaft 202, realizing the connection between the storage chamber 108 and the heating chamber 306. When the two symmetrically installed annular mixing racks 206 drive multiple agitator bars 207 to rotate simultaneously, they agitate the water in the storage chamber 108, so that the water in the storage chamber 108 and the heating chamber 306 can be continuously mixed, which facilitates the full heating of the water in the hot water tank.
[0032] The embodiments described above are merely preferred embodiments of the present utility model and are not intended to limit the scope of the present utility model. Various modifications and improvements made to the technical solutions of the present utility model by those skilled in the art without departing from the principles and essence of the present utility model should fall within the protection scope defined by the claims of the present utility model.
Claims
1. A hot water tank heating assembly for a pulp water supply system, comprising a water storage and guiding mechanism (1), characterized in that, The water storage and diversion mechanism (1) is equipped with a mixing and separating mechanism (2) on its inner side, and a multi-stage heating mechanism (3) is installed on the inner side of the mixing and separating mechanism (2). The mixing and separating mechanism (2) includes a drive motor (201), a drive shaft (202) is installed at the output end of the drive motor (201), a first separating seat (203) is installed at the bottom end of the drive shaft (202), a second separating seat (205) is installed below the first separating seat (203), a plurality of connecting strips (204) are installed between the first separating seat (203) and the second separating seat (205), annular mixing frames (206) are installed on the outer sides of the first separating seat (203) and the second separating seat (205), a plurality of actuating arc strips (207) are installed on the outer sides of the two annular mixing frames (206), and a plurality of first guide holes (208) are provided on the surface of the first separating seat (203) and the connecting strips (204). The multi-segment heating mechanism (3) includes a heating tank (305), the heating tank (305) has a heating cavity (306) inside, and the surfaces at both the upper and lower ends of the heating tank (305) are provided with multiple second guide holes (307).
2. The hot water tank heating assembly for a beating water supply system according to claim 1, wherein The water storage and diversion mechanism (1) includes a water storage tank (101), the inside of which is provided with a water storage cavity (108), and an inlet pipe (103) is installed on the inner side of the water storage cavity (108). The upper end of the water storage tank (101) is connected to the inlet pipe (103). A pressure gauge (104) is installed on the upper end of the water storage tank (101). An exhaust pipe (105) is installed on one side of the pressure gauge (104). A level gauge (102) is installed at the front end of the water storage tank (101). A temperature control box (106) is installed on one side of the water storage tank (101). The water storage tank (101) and the temperature control box (106) are connected through a first outlet pipe (107).
3. The hot water tank heating assembly for a beating water supply system of claim 2, wherein, The multi-segment heating mechanism (3) also includes a sealing plate (301) installed at the bottom of the heating tank (305). The sealing plate (301) is connected to the bottom of the water storage tank (101). A support rod (302) is installed in the middle of the sealing plate (301). Multiple heating racks (303) are installed on the outer side of the upper end of the support rod (302). A second water outlet pipe (304) is installed on the lower end face of the sealing plate (301). The upper end of the support rod (302) passes through the sealing plate (301) and is connected to multiple heating racks (303). The multiple heating racks (303) are arranged linearly along the axis of the support rod (302).
4. The hot water tank heating assembly for a beating water supply system of claim 3, wherein, One end of the second water outlet pipe (304) and the first water outlet pipe (107) are both inserted into the inside of the temperature control box (106). The temperature control box (106) is connected to the heating chamber (306) and the water storage chamber (108) through the second water outlet pipe (304) and the first water outlet pipe (107), respectively.
5. A hot water tank heating assembly for a pulp water supply system according to claim 4, characterized in that The plurality of first guide holes (208) and second guide holes (307) are arranged in a circle relative to the axis of the heating tank (305), and the plurality of first guide holes (208) and second guide holes (307) are provided in a one-to-one correspondence. The water storage chamber (108) and the heating chamber (306) are connected through the plurality of first guide holes (208) and second guide holes (307).
6. A hot water tank heating assembly for a pulp water supply system according to claim 5, wherein The first partition seat (203) and the second partition seat (205) are connected by a plurality of circumferentially arranged connecting strips (204). Both the first partition seat (203) and the second partition seat (205) are connected to an annular mixing frame (206). The two annular mixing frames (206) are symmetrically installed with respect to the center of the heating tank (305). The heating tank (305) is rotatably connected to both the first partition seat (203) and the second partition seat (205).