CN220892578U - Horizontal hanging IH water heater - Google Patents

Abstract

The utility model relates to the field of IH water heaters, in particular to a transverse hanging type IH water heater which comprises a water tank, an electromagnetic heating structure, a heat radiation structure and a shell, wherein a transverse hanging bracket is arranged on the shell, the heat radiation structure comprises a supporting shell and an air inlet shell, a heat radiation fan positioned right below the electromagnetic heating structure is rotationally connected to the supporting shell, an air outlet positioned at one side of the transverse hanging bracket is formed in the supporting shell, a heat radiation plate is rotationally connected to the air outlet, a driving structure matched with the heat radiation plate is arranged in the supporting shell, and an air inlet is formed in the air inlet shell. The problems that the existing IH water heater is poor in heat radiation performance and easy to enable an external water source to easily enter the electromagnetic heating unit are effectively solved; when the electromagnetic heating coil generates larger heat, the heat dissipation plate is opened under the action of the driving plate, the opening area of the air outlet is enlarged, the air outlet quantity is improved, and meanwhile, the drying plate at the air inlet is used for drying and filtering external air.

Description

Horizontal hanging IH water heater

Technical Field

The utility model relates to the field of water heaters, in particular to a transverse hanging IH water heater.

Background

IH (Induction Heating) the water heater is an electromagnetic induction heating water heater, is called an electromagnetic water heater for short, and is a novel electric water heater which starts to appear in recent years, the water in the water tank is mainly heated through electromagnetic induction between an electromagnetic heating unit and the water tank, and the problems that scale deposition, electric leakage, explosion and the like are easy to occur when the traditional electric water heater adopts an electric heating pipe to heat the water in the water tank are overcome.

However, the current electromagnetic water heater still has the following defects: firstly, the heat dispersion of the electromagnetic heating units of most electromagnetic water heaters is poor, so that heat generated in the electromagnetic heating units cannot be timely evacuated, and electronic components in the electromagnetic heating units are easy to burn. Secondly, the heat dissipation air port of the existing electromagnetic water heater is unreasonable in arrangement, so that water is easy to enter and/or accumulate at the heat dissipation air port, an external water source is easy to enter the electromagnetic heating unit to contact with electronic components of the electromagnetic heating unit, and the electronic components are easy to burn out due to rainwater.

Disclosure of utility model

Aiming at the situation, the utility model aims to overcome the defects of the prior art and provide the transverse hanging IH water heater, which effectively solves the problems that the existing IH water heater has poor heat radiation performance and is easy to cause an external water source to easily enter an electromagnetic heating unit.

The utility model solves the technical scheme that the transverse hanging IH water heater comprises a water tank, an electromagnetic heating structure attached to the outer edge surface of the water tank, a radiating structure detachably connected with the electromagnetic heating structure, and a shell sleeved outside the water tank and detachably connected with the electromagnetic heating structure, wherein a transverse hanging support matched with a wall body is arranged on the shell.

Preferably, the driving structure comprises a driving plate which is arranged right above the cooling fan and is in sliding connection with the supporting shell, a fixing frame which is arranged in the supporting shell and is fixedly connected with the supporting shell, the cooling fan is arranged in the fixing frame, a sliding rod which is in sliding connection with the fixing frame through a spring and is matched with the cooling plate, a driving block with an upper end face being an inclined surface is arranged on the driving plate, the inclined surface of the driving block is matched with the sliding rod, and the cooling plate is conveniently pushed, so that the size of the air outlet is enlarged.

Preferably, a plurality of ventilation holes which are vertically communicated are formed in the driving plate, a driving circuit board connected with the electromagnetic heating structure is arranged in the supporting shell, and the cooling fan is connected with the driving circuit board through a wire so as to form an air channel conveniently and dissipate heat generated by the electromagnetic coil.

Preferably, a drying plate positioned at the air inlet is arranged in the air inlet shell, so that air flowing in at the air inlet is dried conveniently.

Preferably, the electromagnetic heating structure comprises a supporting frame and an electromagnetic coil arranged in the supporting frame, wherein the electromagnetic coil is connected with the driving circuit board through a wire, so that the water tank is conveniently heated externally.

Preferably, an electricity-isolating support plate is arranged between the electromagnetic heating structure and the water tank, the electricity-isolating support plate and the fixed frame form a box body with one side open, and the cooling fan is positioned at the opening of the box body, so that heat generated by the electromagnetic coil can be conveniently dissipated.

Preferably, the water inlet buffer structure comprises a water inlet pipe which is inserted into the water tank and is detachably connected with the water tank, and the end part of the water inlet pipe inserted into the water tank is closed and is clamped with a buffer assembly so as to prolong the service life of the water tank.

Preferably, the buffer assembly comprises a buffer box which is connected with the water inlet pipe in a clamping mode and is provided with one side, a plurality of annular baffles which are radially distributed along the buffer box are arranged in the opening of the buffer box, the heights of the annular baffles are sequentially increased from inside to outside, and a plurality of water outlet holes which are uniformly distributed along the axial direction of the water inlet pipe and are in one-to-one correspondence with the annular baffles are formed in the water inlet pipe, so that the inner wall of the water tank is protected better.

Preferably, the opening of the buffer box faces away from the closed end of the water inlet pipe, so that water can flow out better.

The beneficial effects of the utility model are as follows:

The utility model has simple structure, convenient operation, novel conception and strong practicability, when the electromagnetic heating coil generates larger heat, the driving circuit board promotes the power of the cooling fan, thereby opening the cooling plate through the action of the driving board, the sliding rod and the driving block, enlarging the opening area of the air outlet, promoting the air outlet quantity, better radiating, and simultaneously, the drying board at the air inlet is used for drying and filtering the external air, protecting the circuit to a certain extent, and the driving board, the cooling plate, the sliding rod and the driving block are arranged, thereby being convenient for enlarging the opening degree of the air outlet, changing the air outlet quantity of the air outlet, facilitating the drying and filtering of the external air at the air inlet, avoiding the external moist air from entering the shell, and being convenient for the matching between the water tank and the wall body.

Drawings

FIG. 1 is a schematic perspective view of the present utility model;

FIG. 2 is a schematic view of a cut-away front perspective of the present utility model;

FIG. 3 is a schematic top perspective view of the utility model with the housing and tank removed;

FIG. 4 is a schematic bottom perspective view of the utility model with the housing and tank removed;

FIG. 5 is an exploded view of the present utility model with the housing and tank removed;

FIG. 6 is a schematic perspective view of a support shell according to the present utility model;

FIG. 7 is a schematic view of a right side view in cross-section of a support shell of the present utility model;

FIG. 8 is a schematic view of the water intake buffer structure of the present utility model in cross section and water flow direction;

In the figure, a 1-water tank; 2-a housing; 3-hanging a bracket horizontally; 4-a support shell; 5-an air inlet shell; 6-a heat radiation fan; 7-an air outlet; 8-a heat dissipation plate; 9-an air inlet; 10-a drive plate; 11-a fixed frame; 12-sliding bar; 13-a drive block; 14-ventilation holes; 15-a driving circuit board; 16-drying the plate; 17-supporting frames; 18-an electromagnetic coil; 19-an electricity isolating support plate; 20-a water inlet pipe; 21-a buffer cassette; 22-annular baffles; 23-water outlet holes.

Detailed Description

The following describes the embodiments of the present utility model in further detail with reference to the drawings.

The cross-hanging IH water heater comprises a water tank 1 and an electromagnetic heating structure attached to the outer edge surface of the water tank 1, wherein the electromagnetic heating structure heats the water tank 1 in an electromagnetic induction mode, a heating body is not positioned in the water tank 1 in the mode, generated scale can not corrode the heating body, and the heating body does not need to be replaced after being heated for a long time;

The heat radiation structure is detachably connected with the electromagnetic heating structure, and the heat radiation structure radiates heat to the electromagnetic heating structure, so that the electromagnetic heating structure can better heat the water tank 1 when heat radiation is not needed;

The shell 2 is sleeved outside the water tank 1 and is detachably connected with the electromagnetic heating structure, and heat insulation foam is filled between the shell 2 and the water tank 1, so that the temperature of the water tank 1 can be kept;

The shell 2 is provided with the transverse hanging support 3 matched with the wall body, and the transverse hanging support 3 enables the device to be better connected with the wall body in a detachable mode.

The heat radiation structure comprises a support shell 4 which is detachably connected with the shell 2, an air inlet shell 5 which is detachably connected with the support shell 4, a heat radiation fan 6 which is positioned right below the electromagnetic heating structure is rotationally connected with the support shell 4, and the heat radiation fan 6 adjusts power according to heat generated by the electromagnetic heating structure;

The air outlet 7 positioned on one side of the transverse hanging support 3 is formed in the support shell 4, the heat radiation plate 8 is rotationally connected to the air outlet 7, a driving structure which is positioned between the heat radiation fan 6 and the electromagnetic heating structure and matched with the heat radiation plate 8 for use is arranged in the support shell 4, the air inlet 9 is formed in the air inlet shell 5, air with lower external temperature enters through the air inlet 9, a large amount of air enters the electromagnetic heating structure under the action of the heat radiation fan 6 and flows out from the air outlet 7, and accordingly heat generated by the electromagnetic heating structure is taken out.

The drying plate 16 positioned at the air inlet 9 is arranged in the air inlet shell 5, and active carbon is filled in the drying plate 16 and used for drying air entering at the air inlet 9, so that damage to the circuit board due to moisture in the air is prevented.

The driving mechanism comprises a driving plate 10 which is arranged right above the cooling fan 6 and is in sliding connection with the supporting shell 4, a fixing frame 11 which is arranged in the supporting shell 4 and is fixedly connected with the supporting shell 4, the cooling fan 6 is arranged in the fixing frame 11, a sliding rod 12 which is in sliding connection with the fixing frame 11 through a spring and is matched with the cooling plate 8, a driving block 13 with an upper end face being an inclined surface is arranged on the driving plate 10, the inclined surface of the driving block 13 is matched with the sliding rod 12, the power of the cooling fan 6 is changed, so that a lifting force with a certain size is provided for the driving plate 10, under the action of lifting force of the driving plate 10, the driving plate 10 presses the sliding rod 12 through the driving block 13, so that the sliding rod 12 moves towards the transverse hanging bracket 3, and the cooling plate 8 is propped open to enlarge the opening size of the air outlet 7.

The driving board 10 is provided with a plurality of ventilation holes 14 which are vertically communicated, the supporting shell 4 is internally provided with a driving circuit board 15 connected with the electromagnetic heating structure, the cooling fan 6 is connected with the driving circuit board 15 through a wire, the ventilation holes 14 enable the air at the air inlet 9 to cool the electromagnetic heating structure through the ventilation holes 14 at the initial stage of the rotation of the cooling fan 6, and the driving circuit board 15 is provided with electronic components which can control the cooling fan 6 and the electromagnetic heating structure.

The electromagnetic heating structure comprises a supporting frame 17 and an electromagnetic coil 18 arranged in the supporting frame, the electromagnetic coil 18 is connected with a driving circuit board 15 through a wire, the driving circuit board 15 is communicated with the electromagnetic coil 18, and the water tank 1 is heated through electromagnetic induction.

An electricity-isolating support plate 19 is arranged between the electromagnetic heating structure and the water tank 1, the electricity-isolating support plate 19 and the fixed frame 11 form a box body with one side open, the radiator fan 6 is positioned at the opening of the box body, the electricity-isolating support plate 19 supports the electromagnetic coil 18 on one hand, and on the other hand, the electric energy of the electromagnetic coil 18 can not be transmitted to the water tank 1, so that a user is protected.

The water inlet buffer structure matched with the water tank 1 for use comprises a water inlet pipe 20 which is inserted into the water tank 1 and is detachably connected with the water tank 1, the end part of the water inlet pipe 20, inserted into the water tank 1, is closed and is clamped with a buffer component, the water inlet pipe 20 is positioned at the outer side part of the water tank 1 and is connected with a water supply pipe, water enters the water tank 1 through the water inlet pipe 20, and the water entering the water tank 1 cannot be impacted to the upper side of the water tank 1 under the action of the closed and buffer component at the end part of the water inlet pipe 20, inserted into the water tank 1.

The buffer component comprises a buffer box 21 which is connected with a water inlet pipe 20 in a clamping mode and is provided with one side of the buffer box 21, a plurality of annular baffles 22 are arranged in the opening of the buffer box 21 and are distributed radially along the buffer box, the heights of the annular baffles 22 are sequentially increased from inside to outside, a plurality of water outlet holes 23 which are uniformly distributed along the axial direction of the water inlet pipe 20 and are in one-to-one correspondence with the annular baffles 22 are formed in the water inlet pipe 20, water in the water inlet pipe 20 flows out of the water outlet holes 23, the water pressure in the water inlet pipe 20 is large, so that the water is sprayed out of the water outlet holes 23, the water is contacted with the annular baffles 22 at the first time after being sprayed out of the water, the water flow is impacted onto the annular baffles 22 under the action of the annular baffles 22 and slowly flows down from the annular baffles 22, so that the water flow can not directly contact with the inner wall of the water tank 1, the water outlet holes 23 can divide the water flow, and the pressure of the water flow provided by the water inlet pipe 20 is relieved.

The opening of the buffer box 21 is opposite to the closed end of the water inlet pipe 20, so that water flows out slowly from the opening of the buffer box 21, and cold water gradually moves upwards from one side close to the electromagnetic coil 18, so that cold water is not accumulated at the hot water outlet of the water heater suddenly.

When the device is used, a worker installs the device to a proper position, under the action of the driving circuit, the electromagnetic coil 18 is started to heat the water tank 1, meanwhile, the cooling fan 6 is started, after the water tank is heated for a period of time, the driving circuit senses the temperature of the environment where the electromagnetic coil 18 is located, so that the power of the cooling fan 6 is changed, the wind power generated by the cooling fan 6 is increased, the air quantity transmitted by the air holes 14 on the driving plate 10 is fixed due to the fact that the size and the quantity of the air holes 14 on the driving plate 10 are fixed, the rest air quantity presses the driving plate 10, so that the driving plate 10 moves upwards, meanwhile, under the action of the inclined surface of the driving block 13, the sliding rod 12 moves outwards and extrudes the cooling plate 8, at the moment, the air outlet 7 is enlarged, and more air quantity flows out from the air outlet 7.

The utility model has simple structure, convenient operation, novel conception and strong practicability, when the electromagnetic heating coil generates larger heat, the driving circuit board promotes the power of the cooling fan, thereby opening the cooling plate through the action of the driving board, the sliding rod and the driving block, enlarging the opening area of the air outlet, promoting the air outlet quantity, better radiating, and simultaneously, the drying board at the air inlet is used for drying and filtering the external air, protecting the circuit to a certain extent, and the driving board, the cooling plate, the sliding rod and the driving block are arranged, thereby being convenient for enlarging the opening degree of the air outlet, changing the air outlet quantity of the air outlet, facilitating the drying and filtering of the external air at the air inlet, avoiding the external moist air from entering the shell, and being convenient for the matching between the water tank and the wall body.

Claims (9)

1. The utility model provides a horizontal hanging IH water heater, includes water tank (1), with water tank (1) cooperation use intake buffer structure, with electromagnetic heating structure of water tank (1) outer fringe face laminating, dismantle the heat radiation structure who is connected with electromagnetic heating structure, and the cover is equipped with on casing (2) with wall body cooperation use horizontal hanging support (3) in water tank (1) outside and with electromagnetic heating structure dismantlement connection, its characterized in that, heat radiation structure includes support shell (4) of being connected with casing (2) dismantlement, with support shell (4) dismantlement connection's air inlet shell (5), support shell (4) internal rotation is connected with radiator fan (6) that are located electromagnetic heating structure under, offer on support shell (4) and be located air outlet (7) internal rotation of horizontal hanging support (3) one side and be connected with heating panel (8), be equipped with in support shell (4) and be located between radiator fan (6) and the electromagnetic heating structure and with air inlet (8) cooperation use drive structure, set up on support shell (5) air intake (9).

2. The cross-hanging IH water heater of claim 1, wherein: the driving structure comprises a driving plate (10) which is arranged right above the cooling fan (6) and is in sliding connection with the supporting shell (4), a fixing frame (11) which is arranged in the supporting shell (4) and is fixedly connected with the supporting shell (4), the cooling fan (6) is arranged in the fixing frame (11), a sliding rod (12) which is in sliding connection with the fixing frame (11) through a spring and is matched with the cooling plate (8), a driving block (13) with an upper end face being an inclined surface is arranged on the driving plate (10), and the inclined surface of the driving block (13) is matched with the sliding rod (12).

3. The cross-hanging IH water heater of claim 2 wherein: a plurality of ventilation holes (14) which are vertically communicated are formed in the driving plate (10), a driving circuit board (15) connected with the electromagnetic heating structure is arranged in the supporting shell (4), and the cooling fan (6) is connected with the driving circuit board (15) through wires.

4. A cross-hanging IH water heater in accordance with claim 3 wherein: a drying plate (16) positioned at the air inlet (9) is arranged in the air inlet shell (5).

5. The cross-hanging IH water heater of claim 1, wherein: the electromagnetic heating structure comprises a supporting frame (17) and an electromagnetic coil (18) arranged in the supporting frame, and the electromagnetic coil (18) is connected with a driving circuit board (15) through a wire.

6. The cross-hanging IH water heater of claim 1, wherein: an electricity-isolating support plate (19) is arranged between the electromagnetic heating structure and the water tank (1), the electricity-isolating support plate (19) and the fixed frame (11) form a box body with one side open, and the cooling fan (6) is positioned at the opening of the box body.

7. The cross-hanging IH water heater of claim 1, wherein: the water inlet buffer structure comprises a water inlet pipe (20) which is inserted into the water tank (1) and is detachably connected with the water tank (1), and the end part of the water inlet pipe (20) inserted into the water tank (1) is in a closed shape and is clamped with a buffer assembly.

8. The cross-hanging IH water heater of claim 7, wherein: the buffer assembly comprises a buffer box (21) which is connected with a water inlet pipe (20) in a clamping mode and is provided with one side, a plurality of annular baffles (22) which are distributed radially along the buffer box (21) are arranged in the opening of the buffer box, the heights of the annular baffles (22) are sequentially increased from inside to outside, and a plurality of water outlet holes (23) which are uniformly distributed along the axial direction of the water inlet pipe (20) and are in one-to-one correspondence with the annular baffles (22) are formed in the water inlet pipe (20).

9. The cross-hanging IH water heater of claim 8, wherein: the opening of the buffer box (21) faces away from the closed end of the water inlet pipe (20).