CN210014424U - Building heat supply energy-saving device - Google Patents

Abstract

The utility model discloses a building heat supply energy-saving device, a wiring block is arranged in vertical symmetry of a central line through a second box body, the wiring block is fixedly connected with the second box body through bolts, a plurality of wiring grooves are arranged on the wiring block at equal intervals, the wiring grooves are connected with wiring terminals arranged on a radiating fin to conduct electricity and heat supply to the radiating fin, an output shaft is arranged at the bottom end of a motor, the bottom end of the output shaft penetrates through a third mounting plate and extends downwards, a wind guide blade is connected to the bottom end of the output shaft in a rotating way, the heating block and the radiating fin are electrified to generate heat to provide heat, meanwhile, the motor drives the wind guide blade to rotate to accelerate the convection of air in the box body, the heat in the box body can be rapidly diffused indoors, the heat supply speed is increased, and meanwhile, the connecting mode of the, the radiating fins are manually taken out from the wiring grooves to be prevented from being in the tray, and the effects of energy conservation and environmental protection are achieved.

Description

Building heat supply energy-saving device

Technical Field

The utility model relates to an economizer field, concretely relates to building heat supply economizer.

Background

The heating is a technology of manually supplying heat to the room to keep the room at a certain temperature so as to create a proper living condition or working condition, a heating system consists of three main parts, namely a heat source, a heat circulation system and a heat dissipation device, and the current heating mode basically adopts a city heat supply network, a regional heat supply network or large-scale centralized heating as the heat source and adopts a heating mode of heat dissipation by a radiator.

Along with the development of the times, the application of building heat supply is more and more extensive, and the current building heat supply mode is mostly the collective heat supply form, and the mode that adopts the fin is mostly carried out the collective heat supply, and the time and the temperature of its heating can not be adjusted and controlled according to user's actual demand, and heat utilization is not high, not only causes the waste of the energy, also has very big harm to the environment.

SUMMERY OF THE UTILITY MODEL

To the weak point that exists among the above-mentioned technique, the utility model aims to provide a building heat supply economizer, it is connected with the multi-disc fin through the heating piece, and the mode of circular telegram heat conduction dispels the heat, and fin and box pass through detachable installation in order to adjust according to user's actual demand manually, drives the rotatory air convection in order to accelerate heating device of radiator vane through the motor simultaneously to enlarge the heating region of heating piece, also can accelerate heat supply speed simultaneously.

The purpose of the utility model can be realized by the following technical scheme:

a building heating energy-saving device comprises: the self-heating type automatic control box comprises a box body, a dustproof cover, a control panel, a radiating fin, a heating block and a motor, wherein the dustproof cover is provided with a plurality of radiating holes and is positioned at the top end of the box body;

a fixing plate is horizontally arranged in the box body through bolts, the fixing plate divides the box body into a first box body positioned at the upper end and a second box body positioned at the lower end, a plurality of through holes for communicating the first box body with the second box body are arranged at the bottom end of the first box body at equal intervals, a third mounting plate is fixedly connected with the first box body through bolts, a heat dissipation mechanism is arranged at the upper end of the third mounting plate, the heat dissipation mechanism comprises a motor, a protective cover, an output shaft heat dissipation port and air guide blades, the motor is fixedly connected with the third mounting plate through bolts, an output shaft is arranged at the bottom end of the motor, the bottom end of the output shaft penetrates through the third mounting plate;

the bottom of third mounting panel is provided with the protection casing that is used for protecting wind-guiding blade, the protection casing passes through bolt and first mounting panel fixed connection, bolt fixed mounting is passed through to the one end of first mounting panel has the second mounting panel, and the second mounting panel passes through bolt and heating block fixed connection, the second box is provided with the terminal block with the vertical symmetry of central line, the terminal block passes through bolt and second box fixed connection, equidistant a plurality of wiring grooves that are provided with on the terminal block, the binding post of setting on the fin is installed to a plurality of wiring inslots.

Furthermore, the box is provided with open-ended square structure for one end, and there is the shield on the top of box through bolt fixed mounting, is provided with a plurality of louvres that are used for the heat dissipation on the shield.

Furthermore, a control panel is installed at one end of the first box body in an embedded mode through bolts, a plurality of control buttons for controlling the operation of the motor and the heating block are installed on the control panel, and a third installation plate is arranged at the bottom end of the control panel.

Further, the terminal box that is used for the transition wire is installed through bolt fixed mounting in the upper end of third mounting panel, and bolt fixed mounting has the conduit through the bottom of terminal box, and the conduit runs through third mounting panel downwardly extending, and the one end of conduit is provided with the wire box, and the wire box passes through the bottom fixed connection of bolt and third mounting panel.

Further, the bottom of output shaft has the boss through screw hole fixed mounting, is provided with the screw hole on the boss, and threaded hole swing joint has the screw rod, and the bottom welded fastening of boss has the bottom plate that is used for supporting wind guide blade, and the upper end of bottom plate is provided with a plurality of wind guide blades along the circumferencial direction equidistance, the top and the solid fixed ring welded fastening of a plurality of wind guide blades.

Furthermore, a sleeve is arranged between the boss and the bottom plate, and a rib plate for supporting the air guide blade is welded on the auxiliary bottom plate along the circumferential direction of the sleeve.

Further, the bottom of third mounting panel has the sleeve pipe that is used for protecting the output shaft through bolt fixed mounting, and the bearing is installed to the intraductal tight fit of cover, and the bearing rotates with the output shaft to be connected.

Further, the protection casing is the heliciform structure that one end was provided with the thermovent, and equidistant a plurality of through-holes that are used for installing the heating piece that are provided with on the second mounting panel.

Further, a fixing plate is fixedly mounted at the bottom end of the first mounting plate through bolts, and a tray used for placing redundant radiating fins is fixedly mounted in the second box body through bolts.

The utility model has the advantages that: the wiring blocks are vertically and symmetrically arranged on the central line through the second box body, the wiring blocks are fixedly connected with the second box body through bolts, a plurality of wiring grooves are arranged on the wiring blocks at equal intervals, the wiring grooves are connected with the wiring terminals arranged on the radiating fins to conduct electricity and supply heat to the radiating fins, the output shaft is arranged at the bottom end of the motor, the bottom end of the output shaft penetrates through the third mounting plate and extends downwards, the bottom end of the output shaft is rotatably connected with the wind guide blades, the heating blocks and the radiating fins are electrified to generate heat to provide heat, meanwhile, the motor drives the wind guide blades to rotate, so that the convection of the air in the box body can be accelerated, the heat in the box body can be rapidly diffused indoors, the heating speed is increased, and meanwhile, the radiating fins are connected with the wiring blocks in a mode that when the radiating fins need, the effects of energy conservation and environmental protection are achieved.

Drawings

In order to facilitate understanding for those skilled in the art, the present invention will be further described with reference to the accompanying drawings.

Fig. 1 is the structure schematic diagram of the utility model relates to a building heat supply energy-saving device.

Fig. 2 is an internal installation schematic diagram of the first box of the present invention.

Fig. 3 is a front view of the internal structure of the first box of the present invention.

Fig. 4 is a schematic structural view of the heat dissipation mechanism of the present invention.

Fig. 5 is an installation schematic view of the air guide blade of the present invention.

Fig. 6 is a schematic view of the installation of the heat sink of the present invention.

In the figure: 1. a box body; 2. a dust cover; 3. heat dissipation holes; 4. a control panel; 5. a heat sink; 6. a junction box; 7. a conduit; 8. a motor; 9. a protective cover; 10. a first mounting plate; 11. a second mounting plate; 12. A fixing plate; 13. a wire box; 14. a heating block; 15. a sleeve; 16. an output shaft; 17. a heat dissipation port; 18. a base plate; 19. a rib plate; 20. a sleeve; 21. a boss; 22. a screw; 23. wind guide blades; 24. a fixing ring; 25. a third mounting plate; 26. a junction block; 27. a wiring slot; 28. and a terminal.

Detailed Description

The technical solution of the present invention will be described clearly and completely with reference to the following embodiments, and it should be understood that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. Based on the embodiments of the present invention, all other embodiments obtained by a person of ordinary skill in the art without creative efforts belong to the protection scope of the present invention.

Referring to fig. 1-6, an energy-saving device for building heating comprises: the self-heating type automatic heating box comprises a box body 1, a dustproof cover 2 which is provided with a plurality of heat dissipation holes 3 and is positioned at the top end of the box body 1, a control panel 4 which is arranged at the upper end of the box body 1 and is provided with a plurality of control buttons, a heat dissipation fin 5 which is arranged inside the box body 1 and is used for self-heating and heating, a heating block 14 and a motor 8.

The box body 1 is a square structure with an opening at one end, a dustproof cover 2 is fixedly installed at the top end of the box body 1 through bolts, a plurality of heat dissipation holes 3 for heat dissipation are formed in the dustproof cover 2, a fixing plate 12 is horizontally installed in the box body 1 through bolts, the box body 1 is divided into a first box body at the upper end and a second box body at the lower end by the fixing plate 12, a plurality of through holes for communicating the first box body and the second box body are arranged at the bottom end of the first box body at equal intervals, so that air convection is formed between the first box body and the second box body, a control panel 4 is installed at one end of the first box body in an embedded mode through bolts, a plurality of control buttons for controlling the operation of a motor 8 and a heating block 14 are installed on the control panel 4, a third installation plate 25 is arranged at the bottom end of the control panel 4, the third installation plate 25 is fixedly connected with the first box body, there is conduit 7 in terminal box 6's bottom through bolt fixed mounting, conduit 7 runs through third mounting panel 25 downwardly extending, make conduit 7 can pass through conduit 7 with the wire that is located the third mounting panel 25 lower extreme and introduce terminal box 6, prevent that the wire from causing the short circuit at the inside winding of box 1, the one end of conduit 7 is provided with wire box 13, wire box 13 passes through the bottom fixed connection of bolt and third mounting panel 25, wire box 6 is connected to terminal box 6 with the guide wire with the cooperation of conduit 7, the one end of terminal box 6 is provided with heat dissipation mechanism.

The heat dissipation mechanism comprises a motor 8, a protective cover 9, a heat dissipation port 17 of an output shaft 16 and air guide blades 23, the motor 8 is fixedly connected with a third mounting plate 25 through bolts, the output shaft 16 is mounted at the bottom end of the motor 8, the bottom end of the output shaft 16 penetrates through the third mounting plate 25 and extends downwards, and the bottom end of the output shaft 16 is rotatably connected with the air guide blades 23, as a preferred scheme of the embodiment, a boss 21 is fixedly mounted at the bottom end of the output shaft 16 through a threaded hole, a threaded hole is formed in the boss 21, a screw rod 22 is movably connected in the threaded hole, the screw rod 22 provides locking force for the output shaft 16 mounted in the boss 21 by rotating the screw rod 22, the stability and the reliability of the air guide blades 23 during rotation are improved, a bottom plate 18 used for supporting the air guide blades 23 is fixedly welded at the bottom, the top ends of the plurality of air guide blades 23 are welded and fixed with the fixing ring 24.

A sleeve 20 is arranged between the boss 21 and the bottom plate 18, and a rib plate 19 for supporting the wind guide blade 23 by the auxiliary bottom plate 18 is welded on the sleeve 20 along the circumferential direction, so that the bearing capacity of the bottom plate 18 is improved.

The bottom end of the third mounting plate 25 is fixedly provided with a sleeve 15 for protecting the output shaft 16 through bolts, a bearing is arranged in the sleeve 15 in a tight fit manner, and the bearing is rotatably connected with the output shaft 16 to transmit power.

The bottom of third mounting panel 25 is provided with protection casing 9 that is used for protecting wind-guiding blade 23, protection casing 9 is provided with the heliciform structure of thermovent 17 for one end, and protection casing 9 passes through bolt and first mounting panel 10 fixed connection, bolt fixed mounting has second mounting panel 11 is passed through to the one end of first mounting panel 10, equidistant a plurality of through-holes that are used for installing heating piece 14 that are provided with on second mounting panel 11, and second mounting panel 11 passes through bolt and 14 fixed connection of heating piece, bolt fixed mounting has fixed plate 12 is passed through to the bottom of first mounting panel 10, thereby fixed plate 12 passes through bolt and first box fixed connection provides the holding power for first mounting panel 10.

And a tray for placing redundant radiating fins 5 is fixedly arranged in the second box body through bolts.

The second box is provided with terminal block 26 with the vertical symmetry of central line, and terminal block 26 passes through bolt and second box fixed connection, and equidistant a plurality of wiring grooves 27 that are provided with on terminal block 26, and a plurality of wiring grooves 27 are connected in order to carry out electrically conductive heat supply to fin 5 through with binding post 28 that sets up on fin 5.

The preferred embodiments of the present invention disclosed above are intended only to help illustrate the present invention. The preferred embodiments are not intended to be exhaustive or to limit the invention to the precise embodiments disclosed. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the invention and its practical applications, to thereby enable others skilled in the art to best understand the invention for and utilize the invention. The present invention is limited only by the claims and their full scope and equivalents.

Claims (9)

1. A building heating economizer which characterized in that includes: the self-heating type solar water heater comprises a box body (1), a dustproof cover (2) which is provided with a plurality of heat dissipation holes (3) and is positioned at the top end of the box body (1), a control panel (4) which is arranged at the upper end of the box body (1) and is provided with a plurality of control buttons, a heat dissipation sheet (5) which is arranged inside the box body (1) and is used for self-heating and heating, a heating block (14) and a motor (;

a fixing plate (12) is horizontally arranged in the box body (1) through a bolt, the fixing plate (12) divides the box body (1) into a first box body positioned at the upper end and a second box body positioned at the lower end, a plurality of through holes communicated with the first box body and the second box body are arranged at equal intervals at the bottom end of the first box body, a third mounting plate (25) is fixedly connected with the first box body through a bolt, a heat dissipation mechanism is arranged at the upper end of the third mounting plate (25), the heat dissipation mechanism comprises a motor (8) and a protective cover (9), the heat dissipation device comprises an output shaft (16), a heat dissipation port (17) and air guide blades (23), a motor (8) is fixedly connected with a third mounting plate (25) through bolts, the output shaft (16) is mounted at the bottom end of the motor (8), the bottom end of the output shaft (16) penetrates through the third mounting plate (25) to extend downwards, and the bottom end of the output shaft (16) is rotatably connected with the air guide blades (23);

the bottom of third mounting panel (25) is provided with protection casing (9) that are used for protecting wind-guiding blade (23), protection casing (9) pass through bolt and first mounting panel (10) fixed connection, bolt fixed mounting is passed through to the one end of first mounting panel (10) has second mounting panel (11), and second mounting panel (11) pass through bolt and heating block (14) fixed connection, the second box is provided with junction block (26) with the vertical symmetry of central line, junction block (26) pass through bolt and second box fixed connection, equidistant a plurality of wiring grooves (27) that are provided with on junction block (26), install binding post (28) of setting on fin (5) in a plurality of wiring grooves (27).

2. A heating and energy-saving device for buildings according to claim 1, wherein the box body (1) is a square structure with an opening at one end, a dust cover (2) is fixedly installed at the top end of the box body (1) through bolts, and a plurality of heat dissipation holes (3) for dissipating heat are arranged on the dust cover (2).

3. A heating and energy-saving device for buildings according to claim 1, wherein a control panel (4) is embedded at one end of the first box body through bolts, a plurality of control buttons for controlling the operation of the motor (8) and the heating block (14) are installed on the control panel (4), and a third installation plate (25) is arranged at the bottom end of the control panel (4).

4. A heating and energy-saving device for buildings according to claim 1, wherein the upper end of the third mounting plate (25) is fixedly provided with a junction box (6) for transition wires by bolts, the bottom end of the junction box (6) is fixedly provided with a conduit (7) by bolts, the conduit (7) extends downwards through the third mounting plate (25), one end of the conduit (7) is provided with a conduit box (13), and the conduit box (13) is fixedly connected with the bottom end of the third mounting plate (25) by bolts.

5. A heating and energy-saving device for buildings according to claim 1, wherein a boss (21) is fixedly installed at the bottom end of the output shaft (16) through a threaded hole, the boss (21) is provided with a threaded hole, a screw (22) is movably connected in the threaded hole, a bottom plate (18) for supporting the air guide blades (23) is fixedly welded at the bottom end of the boss (21), a plurality of air guide blades (23) are arranged at equal intervals along the circumferential direction at the upper end of the bottom plate (18), and the top ends of the air guide blades (23) are fixedly welded with the fixing ring (24).

6. A building heat supply energy-saving device according to claim 5, characterized in that a sleeve (20) is arranged between the boss (21) and the bottom plate (18), and rib plates (19) for supporting the wind guide blades (23) are welded on the auxiliary bottom plate (18) along the circumferential direction of the sleeve (20).

7. A heating and energy-saving device for buildings according to claim 1, characterized in that the bottom end of the third mounting plate (25) is fixedly provided with a sleeve (15) for protecting the output shaft (16) through bolts, the sleeve (15) is internally provided with a bearing in a tight fit manner, and the bearing is rotatably connected with the output shaft (16).

8. A heating and energy-saving device for buildings according to claim 1, characterized in that the protective cover (9) is a spiral structure with a heat-dissipating opening (17) at one end, and the second mounting plate (11) is provided with a plurality of through holes for mounting the heating blocks (14) at equal intervals.

9. A heating and energy-saving device for buildings according to claim 1, characterized in that the bottom end of the first mounting plate (10) is fixedly provided with a fixing plate (12) through bolts, and a tray for placing redundant radiating fins (5) is fixedly arranged in the second box body through bolts.

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