CN211925895U - Water and electricity dual-purpose steel plate radiator - Google Patents

Abstract

The utility model provides a water and electricity dual-purpose steel plate radiator, it includes steel plate radiator body, electric heating element, switch and infrared remote control mechanism, steel plate radiator body includes the outer water board that relative welding is in the same place and the water course group of interior water board press forming, through the pipeline interconnect between the water course group and communicate with external water supply system, two sets of relative establishments water course group constitutes the front side board and the posterior lateral plate of steel plate radiator body respectively, the inboard of outer water board and interior water board is equipped with a plurality of convection current pieces, one side of outer water board and interior water board is equipped with the side shield, electric heating element sets up the lower part of the convection current piece between the water course group, infrared remote control mechanism includes infrared receiving mouth and remote controller, switch, infrared receiving mouth set up on the side shield, be connected with the power cord on the electric heating element, the electric heating element is respectively connected with the power switch and the infrared receiving port. In spring and autumn, the radiator works in an electric heating mode; in winter, the water heating of the radiator and the electric heating work together, and the indoor heating requirement is met to the greatest extent.

Description

Water and electricity dual-purpose steel plate radiator

Technical Field

The utility model relates to a radiator field especially relates to a dual-purpose steel sheet radiator of water and electricity.

Background

In southern areas, about 30-50% of households choose a combination of a wall-mounted boiler and a steel plate radiator as a heating mode in winter. The steel plate radiator must be used in cooperation with a boiler heat source, and cannot independently operate. The household wall-mounted boiler as the heat source can supply heat to all radiators of the whole house at the same time, if a group of radiators are independently supplied with heat, the energy efficiency of the boiler is inevitably reduced greatly, energy is greatly wasted, and the service life of the boiler is also influenced to a certain extent. In spring and autumn transition seasons, a certain functional area in a house needs to be independently heated, such as a living room or a sleeping room for rest, but the combination of the existing wall-mounted boiler and the water heating radiator cannot meet the requirement.

Usually, a user buys an electric heater alone, needs to accomodate after finishing using, and one-line or two-line city house storage space itself is nervous, and the cun gold can bring inconvenience in life, buys alone moreover, can suffer the waste of fund. Or the structure of the radiator is correspondingly improved, the heating rod heats water in the inner cavity of the radiator in a mode of electrifying the heating rod inside, and then the water is radiated through the radiator to achieve the purpose of warming. The effect is poor by adopting the heating rod, because the inside of the heating rod is slowly heated by the density difference generated by the heated water, and then the heat is dissipated, the limit protection inside the heating rod can quickly reach the protection temperature and stop working, and the overall temperature of the radiator, generally, the 2 kilowatt heating rod can only reach 20-30% of the working time and cannot continuously work; in addition, after the radiator comes in winter, the heating mode of the radiator needs to be switched to a wall-mounted boiler heating mode, but the internal resistance of the radiator is too large due to the internal heating rod, hot water circulation is not smooth, and the heating effect of the radiator is reduced.

SUMMERY OF THE UTILITY MODEL

In order to solve the problem, the utility model provides a dual-purpose steel sheet radiator of water and electricity for steel sheet radiator can accomplish water and electricity dual-purpose, can solve the heating problem winter and spring and autumn festival well.

A water and electricity dual-purpose steel plate radiator comprises a steel plate radiator body, an electric heating element, a power switch and an infrared remote control mechanism, the steel plate radiator body comprises a water channel plate group which is formed by pressing an outer water channel plate and an inner water channel plate which are relatively welded together, the water channel plate groups are mutually connected through pipelines and are communicated with an external water supply system, the two groups of water channel plate groups which are oppositely arranged respectively form a front side plate and a rear side plate of the steel plate radiator body, a plurality of convection sheets are arranged on the inner sides of the outer water channel plate and the inner water channel plate, a side cover plate is arranged on one side of the outer water channel plate and one side of the inner water channel plate, the electric heating element is arranged at the lower part of the convection sheet between the water channel plate groups, the infrared remote control mechanism comprises an infrared receiving port and a remote controller, the power switch and the infrared receiving port are arranged on the side cover plate, the electric heating element is connected with a power cord, and the electric heating element is respectively connected with the power switch and the infrared receiving port.

A steel plate radiator, namely a steel plate radiator body belongs to a radiation convection type radiator, and adopts the principles of radiation heat transfer and natural convection, 30 percent of heat is transferred to air by radiation in the heat exchange process, and 70 percent of heat is transferred to space by hot air convection. It features high heat transfer efficiency and higher heat power in similar products. The steel plate radiator body mainly comprises a water passing part and a convection sheet. The water passing part is formed by welding two steel plate outer water channel plates and two steel plate inner water channel plates which are formed by pressing. The hot air flow inside and outside becomes the main heat radiation source through the water channel plate, and the outer surface of the hot air flow is flat and smooth, thus playing an ideal radiation role. The convection sheets are directly welded on the back of the water channel plate to form rapid thermal expansion and rise of air in the convection cavities in the vertical direction, cold air below the convection cavities is immediately supplemented, strong convection air flows are flushed out from the top of the water channel plate group in each convection cavity, and the cold air can be heated in a short time to rapidly heat up the cold air in the space. The bottom of steel sheet radiator body is the space that cold air got into, so certain space has been reserved in the design, so this part space just can add electric heating member, utilizes inside airtight cavity to produce the heat convection, can reach the effect of the electric radiator on the market basically, does not have any influence under operating condition to the combination of steel sheet radiator body and hanging stove simultaneously. The electric heating part is connected with a power line and is used for connecting 220V voltage of household electricity. The electric heating element is connected with the power switch, the power switch is arranged on the side cover plate, and the side cover plate of the steel plate radiator body is a movable element, so that the power switch can be fixed on one side cover plate of the steel plate radiator body, the side cover plate can not be detached basically after being fixed, the other side can still be detached, and the use is not influenced. In the aspect of control, because of the strong convection effect around the electric heating, the indoor temperature has horizontal gradient, and in order to control the temperature more accurately, the control mode of the remote controller and the infrared receiving port is selected, so that the indoor comfort is achieved. Similarly, an infrared receiving port is also mounted on the side cover plate. In spring and autumn, the radiator works in an electric heating mode; in winter, the water heating of the radiator and the electric heating work together, and the indoor heating requirement is met to the greatest extent.

Further, the electric heating member adopts a PTC heating element or a carbon fiber heating element. The electric heating element comprises a heating function module and a control function module which are connected with each other, the heating function module is a PTC heating element or a carbon fiber heating element, the control function module is used for connecting a power line, the power line can be inserted into an external 220v power socket, and the control function module is also connected with a power switch and an infrared receiving port.

Furthermore, the surface of the water channel plate group is pressed with grooves to enhance the effect of radiation heat transfer.

Furthermore, the upper ends of the outer water channel plate and the inner water channel plate are provided with a grating cover plate. The convection sheets are directly welded on the back of the water channel plate to form rapid thermal expansion rise of air in the convection cavities in a plurality of vertical directions, cold air below the convection cavities is immediately supplemented, strong convection airflow rushes out from the convection cavities through the exhaust holes of the grid cover plate at the top, and the cold air can be heated in a short time to be rapidly heated in the space.

Furthermore, a side cover plate is fixed on one side of the water channel plate group connecting pipeline, and the side cover plate for fixing the power switch and the infrared receiving port is arranged on the same side of the pipeline connected with an external water supply system.

Compared with the prior art, the beneficial effects of the utility model reside in that, the bottom of steel sheet radiator body is the space that the cold air got into, so certain space has been reserved in the design, so this part space just can add electric heating member, utilizes inside airtight cavity to produce the heat convection, can reach the effect of the electric radiator on the market basically, does not have any influence under operating condition to steel sheet radiator body simultaneously. The side cover plate of the steel plate radiator body is a movable part, so that the power switch and the infrared receiving port can be fixed on the side cover plate of the steel plate radiator body, in control, due to the strong convection effect around electric heating, the indoor temperature has horizontal gradient, and in order to control the temperature more accurately, the control mode of the remote controller and the infrared receiving port is selected, so that indoor comfort is achieved. In spring and autumn, the radiator works in an electric heating mode; in winter, the water heating of the radiator and the electric heating work together, and the indoor heating requirement is met to the greatest extent.

Drawings

Fig. 1 is a top view of the steel plate radiator body of the present invention.

Fig. 2 is a side view of the steel plate radiator body of the present invention.

Fig. 3 is the structural schematic diagram of the dual-purpose steel plate radiator of water and electricity of the utility model.

The radiator comprises a steel plate radiator body 1, an outer water channel plate 11, an inner water channel plate 12, a pipeline 13, a convection sheet 14, a grating cover plate 15, a side cover plate 16, a groove 17, an electric heating element 2, a power line 21, a power switch 3, an infrared receiving port 4 and a remote controller 5.

Detailed Description

The present invention will be further described with reference to the accompanying drawings. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention. Finally, it should be noted that the above embodiments are merely representative examples of the present invention.

As shown in fig. 1 and 2, the steel plate radiator body 1 includes channel plate groups formed by pressing an outer channel plate 11 and an inner channel plate 12 that are welded together, the channel plate groups are connected to each other through a pipeline 13 and are communicated with an external water supply system, the two channel plate groups that are set up oppositely form a front side plate and a rear side plate of the steel plate radiator body 1, a plurality of convection fins 14 are disposed on inner sides of the outer channel plate 11 and the inner channel plate 12, and a grid cover plate 15 is disposed on upper ends of the outer channel plate 11 and the inner channel plate 12. The outer waterway plate 11 and the inner waterway plate 12 are provided with side cover plates 16 at one side thereof, and the side cover plates 16 may be provided at one side of the pipes 13, wherein the side cover plates 16 at one side of the pipes 13 are not shown in fig. 1 and 2.

A steel plate type radiator, namely a steel plate radiator body 1 belongs to a radiation convection type radiator, and adopts the principles of radiation heat transfer and natural convection, 30 percent of heat is transferred to air by radiation in the heat exchange process, and 70 percent of heat is transferred to space by hot air convection. It features high heat transfer efficiency and higher heat power in similar products. The steel plate radiator body 1 is mainly composed of a water passing part and a convection sheet. The water passing part is formed by welding an outer water channel plate 11 and an inner water channel plate 12 which are made of two pressed steel plates. The hot air flow inside and outside becomes the main heat radiation source through the water channel plate, and the outer surface of the hot air flow is flat and smooth, thus playing an ideal radiation role. The convection sheets 14 are directly welded on the back of the water channel plate to form a plurality of convection cavities in the vertical direction, the air in the convection cavities rapidly expands and rises, the cold air below the convection cavities is immediately supplemented, strong convection air flows are flushed out from the convection cavities through the exhaust holes of the grid cover plate 15 at the top, and the cold air can be heated in a short time to rapidly heat up in the space.

The steel plate radiator body 1 is different from other steel column radiators, and has the greatest advantages that an enclosed space is formed in the inner cavity, and the heat dissipation area can be enlarged by the convection fins 14 in the enclosed space, so that a huge convection effect can be generated, and in the heat dissipation mode, the convection occupies more than 80%. The bottom of the steel plate radiator body 1 is a space for cold air to enter, so a certain space is reserved in design, therefore, the electric heating element 4 can be added into the space, the heat convection is generated by utilizing the inner closed cavity, the convection effect is mainly because the steel plate radiator body 1 is a box body which is completely closed front, back, left and right, cold air enters from the bottom of the steel plate radiator body 1, the temperature of the cold air is rapidly increased after the cold air is heated by the electric heating element 2, the density of the hot air is reduced, and the vertical flow speed of the hot air can be accelerated by the closed box body, so that it is easier to get the hot air to the upper part of the room, while the cold air sinks due to its high density, therefore, the convection effect is well formed in the room, the effect of the electric radiator on the market can be basically achieved, and meanwhile, the working state of the steel plate radiator body 1 is not affected.

As shown in FIG. 3, the utility model provides a dual-purpose steel sheet radiator of water and electricity includes steel sheet radiator body 1, electric heating member 2, switch 3 and infrared remote control mechanism, and infrared remote control mechanism includes infrared receiving port 4 and remote controller 5. The electric heating element 2 is arranged at the lower part of the convection sheet 14 between the water channel plate groups, the power switch 3 and the infrared receiving port 4 are arranged on the side cover plate 16, the electric heating element 2 is connected with the power wire 21, and the electric heating element 2 is respectively connected with the power switch 3 and the infrared receiving port 4. The surface of the water channel plate group of the steel plate radiator body 1 is pressed with a groove 17 to enhance the effect of radiation heat transfer.

The electric heating element 2 is connected with a power line 21 for connecting 220V voltage of household electricity. The electric heating element 2 is connected with the power switch 3, the power switch 3 is arranged on the side cover plate 16, and the side cover plate 16 of the steel plate radiator body 1 is a movable element, so that the power switch 3 can be selectively fixed on one side cover plate 15 of the steel plate radiator body 1, preferably, the side cover plate 15 on the same side of the pipeline 13, and the side cover plate is basically not detachable after being fixed, and the other side can still be detached without influencing the use. In the aspect of control, because of the strong convection effect around the electric heating, the indoor temperature has horizontal gradient, and in order to control the temperature more accurately, the control mode of the remote controller 5 and the infrared receiving port 4 is selected, so that the indoor comfort is achieved. After receiving the signal of rising the temperature or lowering the temperature that remote controller 5 sent, infrared receiving port 4 transmits this signal to the control function module of electric heating element 2, and electric heating element 2 heats or cools down according to this signal. Similarly, the infrared receiving port 4 is also mounted on the side cover 16. In spring and autumn, the radiator works in an electric heating mode; in winter, the water heating of the radiator and the electric heating work together, and the indoor heating requirement is met to the greatest extent.

Preferably, the electric heating member 2 is a PTC heater or a carbon fiber heater. The electric heating element 2 comprises a heating function module and a control function module which are connected with each other, the heating function module is a PTC heating element or a carbon fiber heating element, the control function module is used for connecting a power line 21, the power line 21 can be inserted into an external 220v power socket, and the control function module is also connected with a power switch 3 and an infrared receiving port 4.

The bottom of the steel plate radiator body 1 is a space for cold air to enter, so a certain space is reserved in design, the electric heating element 2 can be added into the space, heat convection is generated by utilizing an internal closed cavity, the effect of the electric radiator on the market can be basically achieved, and meanwhile, the steel plate radiator body 1 is not influenced at any time in the working state. Side cover plate 16 of steel sheet radiator body 1 is the movable piece, consequently can select to fix switch 3 and infrared receiving port 4 on one side cover plate of steel sheet radiator body 1, in control, because powerful convection effect around the electrical heating, there is horizontal gradient in indoor temperature, for the accuse temperature is more accurate, selects remote controller 5 and infrared receiving port 4's control mode to reach indoor comfortable type. In spring and autumn, the radiator works in an electric heating mode; in winter, the water heating of the radiator and the electric heating work together, and the indoor heating requirement is met to the greatest extent.

Obviously, the present invention is not limited to the above-described embodiments, and many modifications are possible. Any simple modification, equivalent change and modification made to the above embodiments according to the technical spirit of the present invention should be considered as belonging to the protection scope of the present invention.

Claims (5)

1. Dual-purpose steel sheet radiator of water and electricity, its characterized in that, including steel sheet radiator body (1), electric heating member (2), switch (3) and infrared remote control mechanism, steel sheet radiator body (1) is including relative welding outer water course board (11) and interior water course board (12) press forming's water course board group together, through pipeline (13) interconnect and with outside water supply system intercommunication between the water course board group, two sets of relative establishments water course board group constitutes preceding curb plate and the posterior lateral plate of steel sheet radiator body (1) respectively, outer water course board (11) are equipped with a plurality of convection current pieces (14) with the inboard of interior water course board (12), one side of outer water course board (11) and interior water course board (12) is equipped with side cover board (16), electric heating member (2) set up the lower part of convection current piece (14) between the water course board group, and infrared remote control mechanism includes infrared receiving port (4) and remote controller (5), power switch (3), infrared receiving port (4) set up on side apron (16), be connected with power cord (21) on electric heating element (2), electric heating element (2) are connected power switch (3) and infrared receiving port (4) respectively.

2. The steel plate radiator for both hydropower and water according to claim 1, wherein the electric heating element (2) is a PTC heating element or a carbon fiber heating element.

3. The steel plate radiator according to claim 1, wherein the surface of the channel plate group is pressed with a groove (17).

4. The steel plate radiator for both hydropower and hydropower of claim 1, wherein a grating cover plate (15) is provided at the upper ends of the outer water passage plate (11) and the inner water passage plate (12).

5. The steel plate radiator for both water and electricity according to claim 1, wherein a side cover plate (16) is fixed to one side of the channel plate group connecting pipe (13).

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