CN212274080U - Efficient energy-saving environment-friendly heating radiator - Google Patents

Abstract

The utility model discloses a heating radiator of energy-efficient environmental protection relates to heating radiator technical field. The utility model discloses a structure includes box, fan, heating tube, shell, U type magnet, windmill, wire, heating wire, set up air-supply line and air-out through-hole on the box, the fan sets up on the lateral wall at the bottom of the cavity of box, the air-supply line is aimed at in the income wind gap of fan, the heating tube is fixed in the box cavity, the shell sets up between fan and heating tube, U type magnet is installed to the cavity in the shell, the U type interbody of U type magnet is provided with the wire, the rotor of windmill inserts in the through-hole of lateral wall at the bottom of the shell, rotor and wire fixed connection, the windmill rotates and drives the rotor and rotates, the both ends of wire are connected with the both ends of heating wire through the wire respectively, the heating wire sets up on the left side wall of cavity in the box. The utility model discloses effectively utilize wind energy, have the characteristic of energy-efficient environmental protection.

Description

Efficient energy-saving environment-friendly heating radiator

Technical Field

The utility model relates to a heating radiator technical field especially relates to a heating radiator of energy-efficient environmental protection.

Background

A heating radiator is an end device for transferring heat of a heating medium to a room, and has become an indispensable part in life. The heating radiator in the prior art achieves the purpose of energy saving by improving the structure of a heating pipe or selecting a low-energy-consumption fan, but does not effectively utilize wind energy to achieve the effects of high efficiency, energy saving and environmental protection.

Accordingly, one skilled in the art provides a subject to solve the problems set forth in the background above.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that the prior art is overcome and wind energy is not effectively utilized to reach the effect of energy-efficient environmental protection.

In order to solve the technical problems, the utility model provides a high-efficiency energy-saving environment-friendly heating radiator, which comprises,

the box body is of a cuboid shell structure, an air inlet pipeline is arranged in a through hole at the bottom of the front side wall of the box body, a rectangular through hole is arranged on the right side wall of the box body and is an air outlet through hole, a fan and a heating pipe are arranged in a cavity of the box body, and the box body plays a role in supporting and protecting;

the main body element structurally comprises a fan, wherein the fan is arranged on the side wall of the bottom of the cavity of the box body, an air inlet of the fan is aligned to the air inlet pipeline, an air outlet of the fan faces upwards, and the fan sucks external air into the cavity of the box body; the heating pipe is of an S-shaped coiled tubular structure, the heating pipe is fixedly mounted in the middle of the upper part of the cavity of the box body, two ends of the heating pipe extend out of the outer side wall of the box body and are communicated with external heating media, and the heating pipe plays a role in dissipating heat of the heating media;

the wind power conversion device structurally comprises a shell, wherein the shell is of a cuboid shell structure, the shell is arranged between a fan and a heating tube, the shell is fixedly connected with the inner side wall of a box body through a connecting plate, a U-shaped magnet is arranged in a cavity in the shell, and the shell plays a supporting and protecting role; the U-shaped magnet is fixed in the cavity in the shell, a metal wire is arranged between U-shaped grooves of the U-shaped magnet, and the U-shaped magnet generates a magnetic field; the windmill is arranged right below the shell, a rotor of the windmill is inserted into a through hole in the side wall of the bottom of the shell, the rotor is fixedly connected with the metal wire, the windmill rotates to drive the rotor to rotate, and the rotor drives the metal wire to rotate; the metal wire is of a U-shaped structure, two ends of the metal wire are respectively connected with two ends of the electric heating wire through conducting wires, and the metal wire performs cutting magnetic induction line motion to generate current to supply power for the electric heating wire; the heating wire is arranged on the left side wall of the cavity in the box body, and the heating wire generates heat to enhance the heating effect of air in the cavity in the box body.

As a further aspect of the present invention: the fan blades are arranged in parallel and are of rectangular sheet structures, a rotating shaft is fixed to the position of the central axis of each fan blade, the front end and the rear end of each rotating shaft are connected with the front side wall and the rear side wall of each air outlet through hole respectively, and the fan blades play a role in guiding air.

As a further aspect of the present invention: the left lower corners of the plurality of parallel-arranged fan blades are connected with a connecting rod through a connecting shaft, and the connecting rod enables the rotation directions of the plurality of parallel-arranged fan blades to be consistent.

As a further aspect of the present invention: the improved motor rotor is characterized in that upper and lower layers of annular sunken slideways are arranged on the side wall of the through hole in the bottom side wall of the shell, the upper layer of slideway of the through hole in the bottom side wall of the shell is a first sliding ring, the lower layer of slideway of the through hole in the bottom side wall of the shell is a second sliding ring, the left end of the metal wire penetrates through the rotor and is inserted into the first sliding ring, and the right end of the metal wire penetrates through the rotor and is inserted into the second sliding ring, so that the rotor is limited in the through.

As a further aspect of the present invention: a layer of metal sheet is laid on the walls of the first sliding ring and the second sliding ring, the metal sheets of the first sliding ring and the second sliding ring are respectively connected with two ends of the electric heating wire through a conducting wire, and the metal sheets play a role in communicating the rotating metal wire with the stationary conducting wire.

As a further aspect of the present invention: the heating wire heating box is characterized in that a rectangular metal plate is arranged on the left side wall of the cavity of the box body, four corners of the left side wall of the metal plate are fixedly connected with the box body through a cylindrical support, the heating wire is fixed on the left side wall of the metal plate, and the metal plate assists the heating wire in dissipating heat.

As a further aspect of the present invention: the left side wall and the right side wall of the cavity of the box body are respectively provided with an ultraviolet lamp, and the ultraviolet lamps play a role in sterilization.

As a further aspect of the present invention: the fan is CF-11 in model, and the fan of the model is small in size and convenient to install.

As a further aspect of the present invention: the ultraviolet lamp is selected from model ZWX-DX40W, and the ultraviolet lamp has good sterilization effect.

The utility model has the advantages that:

(1) the utility model discloses set up wind-powered electricity generation conversion equipment, the fan blows to the windmill, the windmill rotates and drives the rotor and rotate, the rotor rotates and drives the wire rotation, the line is felt to magnetism in the magnetic field that wire cutting U type magnet produced, produce electric current in the wire, electric current passes through the leading-in wire of sheetmetal in the wire, in the electric current input heating wire in the wire, generate heat after having the electric current in the heating wire, the heating wire gives the metal sheet with the heat transfer, the metal sheet with the heat in the air of heat dissipation in the box cavity. The utility model discloses effectively utilize wind energy, have the characteristic of energy-efficient environmental protection.

(2) The utility model discloses set up ultraviolet lamp, during the use, open fan switch and ultraviolet lamp switch, the fan is taken into the box cavity with the outside air of box, and during the heat conduction of heating medium advances the air in the box cavity with the heat pipe, the bacterium in the air is killed in the ultraviolet lamp irradiation, and the air-out through-hole arranges the hot-blast outside air in the box cavity in. The utility model discloses the effect that has the sterilization.

Drawings

Fig. 1 is a front sectional view of the present invention;

fig. 2 is a cross-sectional view of the housing.

Wherein: the device comprises a box body 10, an air inlet pipeline 11, an air outlet through hole 12, fan blades 13, a rotating shaft 14, a connecting rod 15, a fan 16, a heating tube 17, an ultraviolet lamp 18, a shell 20, a windmill 21, a rotor 22, a U-shaped magnet 23, a metal wire 24, a first slip ring 25, a second slip ring 26, a metal sheet 27, a conducting wire 28, a heating wire 29, a metal plate 30, a support column 31 and a connecting plate 32.

Detailed Description

The structure of the heating radiator with high efficiency, energy saving and environmental protection provided by the embodiment is shown in fig. 1-2, and comprises,

the box body 10 is of a cuboid shell structure, an air inlet pipeline 11 is arranged in a through hole at the bottom of the front side wall of the box body 10, a rectangular through hole which is an air outlet through hole 12 is arranged on the right side wall of the box body 10, a fan 16 and a heating tube 17 are arranged in a cavity of the box body 10, and the box body 10 plays a role in supporting and protecting;

the main body element structurally comprises a fan 16, wherein the fan 16 is arranged on the bottom side wall of the cavity of the box body 10, an air inlet of the fan 16 is aligned to the air inlet pipeline 11, an air outlet of the fan 16 faces upwards, and the fan 16 pumps external air into the cavity of the box body 10; the heating pipe 17 is in an S-shaped coiled tubular structure, the heating pipe 17 is fixedly installed in the middle of the upper portion of the cavity of the box 10, two ends of the heating pipe 17 extend out of the outer side wall of the box 10 and are communicated with external heating media, and the heating pipe 17 plays a role in dissipating heat of the heating media;

the wind power conversion device structurally comprises a shell 20, wherein the shell 20 is of a cuboid shell structure, the shell 20 is arranged between a fan 16 and a heating tube 17, the shell 20 is fixedly connected with the inner side wall of a box body 10 through a connecting plate 32, a U-shaped magnet 23 is arranged in a cavity in the shell 20, and the shell 20 plays a role in supporting and protecting; the U-shaped magnet 23 is fixed in a cavity in the shell 20, a metal wire 24 is arranged between U-shaped grooves of the U-shaped magnet 23, and the U-shaped magnet 23 generates a magnetic field; the windmill 21 is arranged right below the shell 20, a rotor 22 of the windmill 21 is inserted into a through hole on the bottom side wall of the shell 20, the rotor 22 is fixedly connected with the metal wire 24, the windmill 21 rotates to drive the rotor 22 to rotate, and the rotor 22 drives the metal wire 24 to rotate; the metal wire 24 is of a U-shaped structure, two ends of the metal wire 24 are respectively connected with two ends of a heating wire 29 through a lead 28, and the metal wire 24 performs cutting magnetic induction line motion to generate current to supply power to the heating wire 29; and the heating wire 29 is arranged on the left side wall of the cavity in the box body 10, and the heating wire 29 heats to enhance the heating effect of the air in the cavity in the box body 10.

The fan blades 13 are arranged in parallel in the air outlet through holes 12, the fan blades 13 are of a rectangular sheet structure, a rotating shaft 14 is fixed to the central axis of the fan blades 13, the front end and the rear end of the rotating shaft 14 are connected with the front side wall and the rear side wall of the air outlet through holes 12 respectively, and the fan blades 13 play a role in guiding air.

The left lower corners of the plurality of parallel-arranged fan blades 13 are connected with a connecting rod 15 through a connecting shaft, and the connecting rod 15 enables the rotation directions of the plurality of parallel-arranged fan blades 13 to be consistent.

The side wall of the through hole in the bottom side wall of the shell 20 is provided with an upper layer of annular sunken slide way and a lower layer of annular sunken slide way, the upper layer of the through hole in the bottom side wall of the shell 20 is a first slide way 25, the lower layer of the through hole in the bottom side wall of the shell 20 is a second slide way 26, the left end of the metal wire 24 penetrates through the rotor 22 and is inserted into the first slide way 25, and the right end of the metal wire 24 penetrates through the rotor 22 and is inserted into the second slide way 26, so that the rotor 22 is limited in the through hole in the bottom.

A layer of metal sheet 27 is laid on the walls of the first sliding ring 25 and the second sliding ring 26, the metal sheets 27 of the first sliding ring 25 and the second sliding ring 26 are respectively connected with two ends of a heating wire 29 through a conducting wire 28, and the metal sheets 27 play a role of communicating the rotating metal wire 24 with the stationary conducting wire 28.

A rectangular metal plate 30 is arranged on the left side wall of the cavity of the box body 10, four corners of the left side wall of the metal plate 30 are fixedly connected with the box body 10 through a cylindrical support 31, the electric heating wire 29 is fixed on the left side wall of the metal plate 30, and the metal plate 30 assists the electric heating wire 29 to dissipate heat.

The left and right side walls of the cavity of the box body 10 are respectively provided with an ultraviolet lamp 18, and the ultraviolet lamps 18 have a sterilization effect.

The fan 16 is CF-11 in model, and the fan 16 is small in size and convenient to install.

The ultraviolet lamp 18 is ZWX-DX40W, and the ultraviolet lamp 18 has good sterilization effect.

The utility model discloses a theory of operation: when the air-conditioning box is used, the switch of the fan 16 and the switch of the ultraviolet lamp 18 are turned on, the fan 16 pumps air outside the box body 10 into the cavity in the box body 10, the heating pipe 17 conducts heat of a heating medium into the air in the cavity of the box body 10, the ultraviolet lamp 18 irradiates to kill bacteria in the air, and the air outlet through hole 12 discharges hot air in the cavity of the box body 10 into the outside air; the fan 16 blows wind to the windmill 21, the windmill 21 rotates to drive the rotor 22 to rotate, the rotor 22 rotates to drive the metal wire 24 to rotate, the metal wire 24 cuts magnetic induction lines in a magnetic field generated by the U-shaped magnet 23, current is generated in the metal wire 24, the current in the metal wire 24 is led into a lead 28 through the metal sheet 27, the current in the lead 28 is input into the electric heating wire 29, the electric heating wire 29 generates heat after current exists in the electric heating wire 29, the electric heating wire 29 transmits the heat to the metal plate 30, and the metal plate 30 dissipates the heat into the air in the cavity of the box body 10. The utility model discloses effectively utilize wind energy, have the characteristic of energy-efficient environmental protection.

It is obvious to a person skilled in the art that the invention is not restricted to details of the above-described exemplary embodiments, but that it can be implemented in other specific forms without departing from the spirit or essential characteristics of the invention. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (5)

1. An efficient energy-saving environment-friendly heating radiator is characterized by comprising,

the box body (10) is of a cuboid shell structure, an air inlet pipeline (11) is arranged in a through hole at the bottom of the front side wall of the box body (10), a rectangular through hole which is an air outlet through hole (12) is arranged on the right side wall of the box body (10), a fan (16) and a heating tube (17) are installed in a cavity of the box body (10), and the box body (10) plays a role in supporting and protecting;

the main body element structurally comprises a fan (16), wherein the fan (16) is arranged on the bottom side wall of the cavity of the box body (10), an air inlet of the fan (16) is aligned with the air inlet pipeline (11), an air outlet of the fan (16) faces upwards, and the fan (16) sucks external air into the cavity of the box body (10); the heating pipe (17) is of an S-shaped coiled tubular structure, the heating pipe (17) is fixedly mounted in the middle of the upper portion of the cavity of the box body (10), two ends of the heating pipe (17) extend out of the outer side wall of the box body (10) and are communicated with external heating media, and the heating pipe (17) plays a role in dissipating heat of the heating media;

the wind power conversion device structurally comprises a shell (20), wherein the shell (20) is of a cuboid shell structure, the shell (20) is arranged between a fan (16) and a heating tube (17), the shell (20) is fixedly connected with the inner side wall of a box body (10) through a connecting plate (32), a U-shaped magnet (23) is installed in a cavity in the shell (20), and the shell (20) plays a role in supporting and protecting; the U-shaped magnet (23) is fixed in a cavity in the shell (20), a metal wire (24) is arranged between U-shaped grooves of the U-shaped magnet (23), and the U-shaped magnet (23) generates a magnetic field; the windmill (21) is arranged right below the shell (20), a rotor (22) of the windmill (21) is inserted into a through hole in the bottom side wall of the shell (20), the rotor (22) is fixedly connected with the metal wire (24), the rotor (22) is driven by the rotation of the windmill (21) to rotate, and the metal wire (24) is driven by the rotor (22) to rotate; the metal wire (24), the metal wire (24) is similar to the U-shaped structure, two ends of the metal wire (24) are respectively connected with two ends of the electric heating wire (29) through a conducting wire (28), and the metal wire (24) cuts the magnetic induction line to generate current to supply power to the electric heating wire (29); the heating wire (29), heating wire (29) set up on the left side wall of cavity in box (10), heating wire (29) generate heat and strengthen the effect of the air heating in the cavity in box (10).

2. A high-efficiency energy-saving environment-friendly heating radiator as claimed in claim 1, characterized in that: the wind guide device is characterized in that a plurality of fan blades (13) which are arranged in parallel are arranged in the wind outlet through holes (12), the fan blades (13) are of rectangular sheet structures, a rotating shaft (14) is fixed to the position of the central axis of each fan blade (13), the front end and the rear end of each rotating shaft (14) are connected with the front side wall and the rear side wall of each wind outlet through hole (12), and the fan blades (13) play a role in guiding wind.

3. A high-efficiency energy-saving environment-friendly heating radiator as claimed in claim 2, characterized in that: the left lower corners of the fan blades (13) arranged in parallel are connected with a connecting rod (15) through a connecting shaft, and the connecting rod (15) enables the rotating directions of the fan blades (13) arranged in parallel to be consistent.

4. A high-efficiency energy-saving environment-friendly heating radiator as claimed in claim 1, characterized in that: the novel motor rotor is characterized in that upper and lower layers of circular-ring-shaped sunken slideways are arranged on the side wall of the through hole in the bottom side wall of the shell (20), the upper layer slideway of the through hole in the bottom side wall of the shell (20) is a first sliding ring (25), the lower layer slideway of the through hole in the bottom side wall of the shell (20) is a second sliding ring (26), the left end of the metal wire (24) penetrates through the rotor (22) to be inserted into the first sliding ring (25), and the right end of the metal wire (24) penetrates through the rotor (22) to be inserted into the second sliding ring (26), so that the rotor (22) is limited in the through hole in the.

5. The efficient energy-saving environment-friendly heating radiator as claimed in claim 4, characterized in that: a layer of metal sheet (27) is laid on the walls of the first sliding ring (25) and the second sliding ring (26), the metal sheets (27) of the first sliding ring (25) and the second sliding ring (26) are respectively connected with two ends of an electric heating wire (29) through a conducting wire (28), and the metal sheets (27) play a role in communicating a rotating metal wire (24) with a stationary conducting wire (28).

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