CN201992726U - Indoor digital electric heat preservation regulator - Google Patents

Abstract

The utility model relates to the field of an 'indoor digital electric heat preservation regulator', particularly to a method for realizing hot gas diffusion of a novel heat resource electric-heating body, wherein a thermal diffusion plate (8) within a host is made of aluminum alloy or metal; a plurality of heat transferring guide plates (26) are arranged in the (8) to form a heat transferring guide plate component (41); a plurality of guide holes (40) of the heat transferring guide plate and frequency conversion fan mounting passages (39) are provided in the heat transferring guide plate component (41) to enhance dissipation speed of heat energy; a heat dissipation hole (47) and a peripheral heat dissipation hole (5) are arranged on a back cover (46); a fixed hole (48) and an box opening surface (50) of an electric control box (10) are provided; a fixed host hanging plate (52) is fixed on the back cover (46); the fixed host hanging plate (52) is fixedly equipped with a fixed hanging plate upper bracket (51) and a lower bracket (53); and the fixed host hanging plate (52) is fixed on the wall and connected with the host to form a whole body. The indoor digital electric heat preservation regulator provided by the utility model has the advantages that the heating and heat preservation control system with a proportion integration differentiation (PID) self-regulation and self-adaptation function can be carried out, the manual/automatic disturbance-free switching function can be carried out, and a component for regulating a variety of remote control input functions and a display module are provided, the drive component is accelerated by means of frequency conversion of heat convection diffusion, the free-noise and free-pollution purpose is carried out through a new hot air convective diffusion, and the indoor heating purpose can be carried out without bad emission.

Description

Digital indoor electrothermal adjuster

Technical field

The utility model relates to the indoor electrothermal adjuster of a kind of number field, especially employing aluminium alloy or metal rapid diffusion heat energy have been realized, new hot gas convection model, noiselessness and light pollution have been realized warming adjusting digitlization, the control of system type temperature/humidity, improved energy-conservation and comprehensive ratio ease of use, make energy conversion efficiency more than 98%, the heat energy utilization rate can reach 100%, and heating duration, indoor warming temperature can realize network management and regulate arbitrarily.

Background technology

At present, known heating mode has air-conditioning, air feed radiator and commercially available space heater, space heater generally is to adopt the mode of oily spit of fland, warm braw, reverberation, its shortcoming is a defective such as always have heating, the speed that heats is slow, big noise is arranged, light pollution is arranged, disposal of pollutants is arranged, service life is short, thermal conversion efficiency is low, and the air feed heat cost is high and be subjected to the restriction of air feed, is the comparatively general mode of heating at present.

Summary of the invention

In order to overcome above-mentioned defective, the utility model provides a kind of number indoor electrothermal adjuster, it is characterized in that: adopt aluminium alloy or the new thermal source electric heating element of metal, thermal diffusion plate, novel convection current diffusion heat assembly, heat transfer baffle assembly to form.Adopt new thermal source heat generating component, the novel convection current diffusion heat of metal or aluminium alloy pattern, the heat transfer baffle assembly that thermal diffusion plate constitutes, form nature heating installation convection type, adopt the closed-loop control of DSP technology and the heating and the warming system of PID self-regulation mode and adaptation function, realize the heating installation water conservancy diversion drive pattern that nature and frequency conversion are quickened.

Manual no disturbance handoff functionality, the adjusting part of remote control input function and demonstration module operating case are realized heating fast, the heating installation water conservancy diversion is quickened in frequency conversion, forms the beneficial effect of noiselessness, unglazed interference, no bad discharging.The utility model can extensively be useful for all places of heating demand, and its beneficial effect is to be better than air feed or electricity heating and the outstanding heating mode of energy-saving and emission-reduction.

Adopt square or rectangular metal material to make the protective plate of gaseous exchange, in the middle or periphery have pod apertures, in the front of water conservancy diversion protective plate and periphery be provided with fixing point and be connected as a whole with the thermal source diffuser plate.Thermal source heat generating component multidigit is installed on the thermal source diffuser plate, following thereon or periphery embeds the thermal diffusion plate temperature detection sensor, perpendicular multi-disc hot gas deflector is set on the thermal source diffuser plate forms the heat transfer baffle assembly of rapid diffusion heat, the diversion mode of thermal diffusion plate is provided with two kinds of hot component patterns of rapid diffusion:

A kind of is the hole of opening the natural air convection current of symmetry on the heat transfer deflector; Another kind is the upper and lower cross-ventilation hole of opening at the heat transfer deflector, and perforate in the middle embeds cylindrical gas and quickens blower fan or fan, forms the new thermal source thermal diffusion plate system that convection current is quickened in nature heating installation convection current and electric frequency conversion.

At the periphery of new thermal source thermal diffusion plate and the plane is provided with installing hole and bonnet connects as one, plane and periphery at bonnet are provided with louvre, a left side or lower right side at bonnet are provided with electric control box, being provided with fixing hole on the plane of bonnet connects as one with the fixedly link plate of installing and using, provide convenience with convenient for indoor installation, increased substantially the stability of complete machine.A left side or the right at bonnet are provided with EL or LED night-light, are provided with to be electrically connected aviation socket and adjusting and to show that the module operating case links to each other, and forms warming electric closed-loop control system on the electric control box of bonnet.Use for many indoor electrothermal adjusters of number simultaneously provides network monitoring and management, has realized in the hotel, the integrated operation when use in train and collective place, helps energy-saving monitoring.

The Frequency Drive Control circuit system that the detection control of information demonstration and operation, indoor temperature setting and detection, electrical heating thermal source and thermal diffusion plate drives, the cross-ventilation of thermal diffusion plate quickens is characterized in that:

Operating case adopts the demonstration of VFD/LED/LCD as data message and function, and remote-controlled input function is selected operation manually, automatically, and VFD/LED/LCD can adjust brightness automatically after showing information data, avoid light to disturb.The indoor temperature detecting sensor is arranged on the operating case, and the detection data send control system to and carry out temperature PID self-regulation.Electrical heating thermal source diffuser plate temperature detection sensor is arranged on the thermal source diffuser plate, the data that detect send control system to and control electrically heated time and power, carry out temperature PID self-regulation, guarantee effectively heating and warming, system forms and adopts multicore cable to connect each aviation socket.

The closed-loop control system of DSP technology is by operation and shows that indoor temperature detects, the temperature detection of electrical heating thermal source diffuser plate, the frequency conversion fan of current of warm air speed control system, compositions such as electric thermal power driving and frequency-converter power driving.Indoor temperature is detected control system and the data of thermal source diffuser plate temperature detection are handled, the speed of the self-adjusting air-flow of warming heating power of the Data Control after the processing and frequency conversion fan, the heating and the warming system of realization adaptation function.

The beneficial effects of the utility model are: new hot gas convection model, noiselessness and light pollution, there is not any discharging, realized warming adjusting digitlization, the control of system type temperature/humidity has improved energy-conservation and comprehensive ratio ease of use, makes energy conversion efficiency more than 98%, the heat energy utilization rate can reach 100%, and heating duration, indoor warming temperature can realize network control and management.

Description of drawings

Below in conjunction with drawings and Examples the utility model is further specified.

Fig. 1 is the shape assumption diagram of digital indoor electrothermal adjuster main frame.

Fig. 2 is the operation and the display box structural map of digital indoor electrothermal adjuster.

Fig. 3 is the thermal source convection current diffuser plate assembly structural map in the main frame.

Fig. 4 is the electric heating assembly structural map.

Fig. 5 is the another kind of thermal convection current diffusion board structure figure of main frame.

Fig. 6 is the thermal convection current diffusion board structure figure in the main frame.

Fig. 7 is the acceleration component structural map of thermal convection current diffusion in the main frame.

Fig. 8 is the rear cover structure figure in the main frame.

Fig. 9 is the three-view diagram structure chart of main frame.

Figure 10 is the electrical schematic diagram of digital indoor electrothermal adjuster.

1. metal fever gas flow guiding protective covers in the accompanying drawing, 2. the gas flow guiding hole in the protective cover, 3. protective cover hold-down screw, 4. heat transfer deflector, 5. louvre, 6. gas flow guiding groove, 7. bonnet, 8. thermal diffusion plate, 9. frequency conversion fan, 10. electric control box, 11. output aviation socket, 12. operating cases, 13. temperature settings increase/subtract button, 14. night-light button, 15. manual air quantity button, 16. input aviation sockets, 17. manual options buttons, 18. indoor temperature detecting sensor, 19. air quantity increases/subtract button, 20. remote controls receive head, 21. operating case panels, 22.PID adjusting key, 23. temperature setting key, 24. system switchings, 25. functions and data display window, 26. heat transfer deflector, 27. the thermal conductance chute, 28. thermal diffusion plate temperature detection sensors, 29. thermal source heat generating components, 30. thermal diffusion plate, 31. the thermal diffusion plate temperature detection sensor, 32. thermal source reflecting plates, 33. thermal source heat-generating pipes, 34. thermal diffusion plate, 35. the heat transfer baffle assembly, 36. heat transfer deflector pod apertures, 37. thermal diffusion plates, 38. frequency conversion fan fixing point, 39. frequency conversion fan is installed passage, 40. heat transfer deflector pod apertures, 41. heat transfer baffle assemblies, 42. blower fan fixed axis, 43. draught fan impeller, 44. variable-frequency motors, 45. multicores transmission electric wire, 46. bonnet, 47. the bonnet louvre, 48. installation fixing holes, 49. bonnet sides, 50. electric control box, 51. fixing end support on the link plate, 52. main frames are link plate fixedly, 53. fixing end supports under the link plate, 54. front view, 55. the vertical view protective cover, 56. vertical views, 57.EL night-light, 58. right view, 59. blower fan rigid bearings.

The specific embodiment:

Among Fig. 1, metal fever gas flow guiding protective cover (1), on have and decorate and fixing screw (3), at the middle part of (1) or other positions have gas flow guiding hole (2) in the protective cover, heat transfer deflector (4), be fixed on the thermal diffusion plate (8), periphery at bonnet (7) has louvre (5), form gas flow guiding groove (6) in the middle of metal fever gas flow guiding protective cover (1) and the thermal diffusion plate (8), frequency conversion fan (9) is installed on the thermal diffusion plate (8), be provided with electric control box (10) in the bottom of bonnet (7), output aviation socket (11) I/O electric function and information are housed in electric control box (10).

Among Fig. 2, in operating case (12), be provided with the temperature setting and increase/subtract button (13), night-light button (14), manual air quantity button (15), input aviation socket (16), manual options button (17), indoor temperature detecting sensor (18), air quantity increases/subtracts button (19), remote control receives head (20), operating case panel (21), PID adjusting key (22), temperature setting key (23), system switching (24), function and data display window (25), the input aviation socket (16) of operating case (12) is connected with multicore cable with output aviation socket (11) in the main frame, form operation and Display System Function and main frame is carried out the monitoring of automation, implement heating.

Among the embodiment of Fig. 3, in thermal diffusion plate (30), make multi-disc heat transfer deflector (26), form thermal source convection current diffuser plate assembly, in thermal diffusion plate (30), establish thermal conductance chute at regular intervals (27), temperature detection sensor (28) and (31) are installed on thermal diffusion plate (30), and thermal source heat generating component (29) is divided into many groups and is installed on the thermal diffusion plate (30).

Fig. 4 is the thermal source heat generating component (29) among Fig. 3, fixes an above thermal source heat-generating pipe (33) or similar heater element in thermal source reflecting plate (32).

Fig. 5 is another embodiment in the main frame, in thermal diffusion plate (34), be manufactured with multi-disc heat transfer deflector (26) or heat transfer deflector (4) and form heat transfer baffle assembly (35), on heat transfer baffle assembly (35), have a plurality of heat transfer deflector pod apertures (36), improve heat energy nature diffusion velocity.

Among Fig. 6, thermal diffusion plate (37) be among Fig. 1 thermal diffusion plate (8), the thermal diffusion plate (30) among Fig. 3, be the thermal diffusion plate (34) among Fig. 5, in thermal diffusion plate (37), make multi-disc heat transfer deflector (26) or heat transfer deflector (4) composition heat transfer baffle assembly (41), in heat transfer baffle assembly (41), open a plurality of heat transfer deflector pod apertures (40), in heat transfer baffle assembly (41), open frequency conversion fan passage (39) is installed, frequency conversion fan fixing point (38) is set on heat transfer baffle assembly (41).

The acceleration component of thermal convection current diffusion is to establish fixed axis (42), draught fan impeller (43), variable-frequency motor (44), multicore transmission electric wire (45) on frequency conversion fan (9) among Fig. 7, frequency conversion fan (9) is inserted in frequency conversion fan installs in the passage (39), further improve the heat energy automation and regulate diffusion velocity.

Among Fig. 8, in bonnet (46) or bonnet (7), be provided with louvre (47) and peripheral louvre (5), install with fixing hole (48), the box face of opening (50) of electric control box (10), with main frame fixedly link plate (52) be fixed on the bonnet (46), fixedly be provided with fixedly end support (51) on the link plate, following end support (53) on the link plate (52) at main frame, with main frame fixedly link plate (52) be fixed on the wall and connect into an integral body with main frame, be indoor heating.

Among Fig. 9, front view (54) is main frame, vertical view protective cover (55), main frame vertical view (56), EL night-light (57), right view (58), blower fan rigid bearing (59), the fixed axis (42) on the frequency conversion fan (9) is inserted in the blower fan rigid bearing (59), forms the frequency conversion air quantity of positive mechanical performance.

Claims (4)

1. indoor electrothermal adjuster of number, it is characterized in that: adopt aluminium alloy or metal to make thermal diffusion plate (8), in thermal diffusion plate (8), make multi-disc heat transfer deflector (4) and form gas flow guiding groove (6), in thermal diffusion plate (8), thermal source heat generating component (29) is installed in the thermal diffusion plate (30), thermal diffusion plate temperature detection sensor (28), thermal diffusion plate temperature detection sensor (31), in heat transfer baffle assembly (41), open a plurality of heat transfer deflector pod apertures (40), open frequency conversion fan passage (39) raising heat energy radiating rate is installed, in bonnet (46), be provided with louvre (47), periphery louvre (5), in bonnet (46), be provided with and install with fixing hole (48), the box face of opening (50) of electric control box (10), with main frame fixedly link plate (52) be fixed on the bonnet (46), fixedly be provided with fixedly end support (51) on the link plate on the link plate (52) at main frame, following end support (53), be used for plug-in mounting and embed main frame, connect output aviation socket (11) and input aviation socket (16) realization heating with multicore cable.

2. the indoor electrothermal adjuster of number according to claim 1, it is characterized in that: in thermal diffusion plate (34), make multi-disc heat transfer deflector and form heat transfer baffle assembly (35), on heat transfer baffle assembly (35), have a plurality of heat transfer deflector pod apertures (36), realize improving the beneficial effect of heat energy nature diffusion velocity.

3. the indoor electrothermal adjuster of number according to claim 1, it is characterized in that: in thermal diffusion plate (37), make multi-disc heat transfer deflector (26) and form heat transfer baffle assembly (41), in heat transfer baffle assembly (41), open a plurality of heat transfer deflector pod apertures (40), in heat transfer baffle assembly (41), open frequency conversion fan passage (39) is installed, frequency conversion fan fixing point (38) is set on heat transfer baffle assembly (41), realizes according to automatic adjusting hot gas flow velocity is set.

4. according to claim 1 or the indoor electrothermal adjuster of 3 described numbers, it is characterized in that: the acceleration component of thermal convection current diffusion is to be provided with fixed axis (42), draught fan impeller (43), variable-frequency motor (44), multicore transmission electric wire (45) on frequency conversion fan (9), frequency conversion fan (9) is inserted in the installation passage (39) in the thermal diffusion plate (37), be fixed on the frequency conversion fan fixing point (38), its beneficial effect is further to improve the heat energy automation to regulate diffusion velocity.

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