CN204494578U - A kind of Intelligent indoor heating installation - Google Patents

Abstract

The utility model provides a kind of Intelligent indoor heating installation, belongs to field of mechanical technique.This Intelligent indoor heating installation comprises casing and is located at least one the Electromagnetic Heating room in casing, described Electromagnetic Heating room comprises urceolus and the coated magnetic field shielding floor be arranged on outside urceolus, in urceolus, be provided with the heat tunnel with water inlet and delivery port, heat tunnel outer cladding is provided with electromagnetic heating coil; The water outlet of each heat tunnel is equipped with at least one radiator communicated with the external world.This Intelligent indoor heating installation has that safe and reliable, heating speed is fast, the advantage of energy-conserving and environment-protective.

Description

A kind of Intelligent indoor heating installation

Technical field

The utility model belongs to field of mechanical technique, relates to a kind of Intelligent indoor heating installation, particularly a kind of Intelligent indoor heating installation adopting Electromagnetic Heating mode.

Background technology

In daily life, winter heating is the general life requirements of people, and indoor heating device is widely used in the many occasions comprising office building, hotel, restaurant, house owed by a citizen.In recent years, winter frequently now consecutive low temperature, indoor temperature is far from reaching the requirement that production and resident live.

In the existing indoor heating mode of China, what indoor heating device generally adopted is combustion gas, coal-fired wall-hung boiler heating system, and its operating cost is low, but there is contaminated environment and the low problem of security reliability.In addition, what part indoor heating device adopted is that distributing family air-conditioning heating system or electric heating mode heat, there is the high problem of energy consumption in distributing family air-conditioning, and although electric heating avoids problem of environmental pollution, but electrothermal tube for a long time at high operating temperatures can be aging, security is lower, and energy consumption is higher.

In sum, for solving the structural deficiency of existing indoor heating device, need to design that a kind of safe and reliable, heating speed is fast, the Intelligent indoor heating installation of energy-conserving and environment-protective.

Summary of the invention

The purpose of this utility model there are the problems referred to above for existing technology, proposes that a kind of safe and reliable, heating speed is fast, the Intelligent indoor heating installation of energy-conserving and environment-protective.

The purpose of this utility model realizes by following technical proposal: a kind of Intelligent indoor heating installation, comprises casing and is located at least one the Electromagnetic Heating room in casing, wherein:

Described Electromagnetic Heating room comprises urceolus and the coated magnetic field shielding floor be arranged on outside urceolus, is provided with the heat tunnel with water inlet and delivery port, heat tunnel outer cladding is provided with electromagnetic heating coil in urceolus;

The water outlet of each heat tunnel is equipped with at least one radiator communicated with the external world.

As further improvement of the utility model, pipe in heating is installed with in urceolus, described heat tunnel is arranged in the middle part of the interior pipe of heating vertically, described electromagnetic heating coil voluble wrapping is arranged in the circumferential lateral surface of pipe in heating, and in heating pipe lateral surface on be covered with safety inner liner for isolating electromagnetic heating coil and heat tunnel.

Further improve as of the present utility model, in heating pipe circumferential lateral surface on be closely coatedly provided with heat insulation layer, described electromagnetic heating coil voluble wrapping is outside heat insulation layer.

As further improvement of the utility model, described magnetic field shielding layer comprises external insulation layer and the coated internal shield be arranged on outside urceolus.

As further improvement of the utility model, magnetic field shielding layer outer cladding is provided with thermal-insulating sealing layer.

As further improvement of the utility model, water tower is provided with in casing, the exit of described water tower respectively with the water inlet UNICOM of each heat tunnel, the water outlet of each heat tunnel be equipped with one with the radiator of water tower UNICOM, the radiator three of described water tower, heat tunnel and correspondence forms loop.

As further improvement of the utility model, water level detector is provided with in heat tunnel, casing is provided with arrange and at least one glass-tube liquid level meter for show Electromagnetic Heating chamber interior water level corresponding with Electromagnetic Heating room, and described glass-tube liquid level meter is connected with corresponding water level detector.

Further improve as of the present utility model, described water tower is arranged on box house back segment, described Electromagnetic Heating room is arranged on box house leading portion, control panel is provided with on casing face top, entering water electromagnetic valve is equipped with between water tower and the water inlet of each heat tunnel, be provided with out water solenoid valve at the delivery port of heat tunnel with between corresponding radiator, each entering water electromagnetic valve, respectively go out water solenoid valve and be all electrically connected with control panel.

Further improve as of the present utility model, the lateral wall of heat tunnel is provided with the temperature sensor be electrically connected with control panel.

Further improve as of the present utility model, in casing, be installed with the system controller be electrically connected with control panel, between system controller and Electromagnetic Heating room, be provided with insulation plate, be provided with emergency stop switch and power switch on the control panel.

Based on technique scheme, the utility model embodiment at least can produce following technique effect: 1, this Intelligent indoor heating installation adopts electromagnetic heating mode, be greatly improved in capacity usage ratio, and the speed that heats is faster, environmentally safe simultaneously, magnetic field shielding layer is coated on urceolus, in order to shield the high-frequency alternating magnetic field that electromagnetic heating coil produces, prevent casing from occurring the phenomenon of induction heating, substantially there is not the possibility of electric leakage, improve security performance.

2, each parts are all built in casing, adopt the design of casing integration, and heating installation volume is little and do not take up an area, and automaticity is high; This Intelligent indoor heating installation can adopt liquid crystal touch screen to carry out showing and controlling, and parameters is monitored in real time, and handled easily personnel can observe its duty at any time, man-machine interaction operating in a key, fully automatic operation, more ocular and simple.

Accompanying drawing explanation

Below in conjunction with accompanying drawing, detailed description of the invention of the present utility model is described in further detail, wherein:

Fig. 1 is the structural representation of the utility model one preferred embodiment.

Fig. 2 is the structural representation at another visual angle of the heating installation of Intelligent indoor shown in Fig. 1.

Fig. 3 is the sectional view of Electromagnetic Heating room in the utility model one preferred embodiment.

Fig. 4 is the work system schematic diagram of the utility model one preferred embodiment.

In figure, 10, casing; 20, Electromagnetic Heating room; 21, urceolus; 22, magnetic field shielding layer; 23, heat tunnel; 231, water inlet; 232, delivery port; 24, electromagnetic heating coil; 25, pipe in heating; 26, safety inner liner; 27, heat insulation layer; 28, thermal-insulating sealing layer; 30, radiator; 40, water tower; 50, intake pump; 60, glass-tube liquid level meter; 70, control panel; 71, emergency stop switch; 72, power switch; 81, entering water electromagnetic valve; 82, water solenoid valve is gone out; 90, system controller; 100, insulation plate.

Detailed description of the invention

Be below specific embodiment of the utility model and by reference to the accompanying drawings, the technical solution of the utility model is further described, but the utility model be not limited to these embodiments.

The utility model protects a kind of Intelligent indoor heating installation; it adopts Electromagnetic Heating mode to heat to indoor; Appropriate application regenerative resource, is applicable to office building, hotel, restaurant, house owed by a citizen in interior many occasions, can meet production and resident living demand well.

What existing indoor heating device generally adopted is combustion gas, coal-fired wall-hung boiler heating system, and its operating cost is low, but there is contaminated environment and the low problem of security reliability; What part indoor heating device adopted is that distributing family air-conditioning heating system or electric heating mode heat, there is the high problem of energy consumption in distributing family air-conditioning, and the electrothermal tube of electric heating heating installation for a long time at high operating temperatures can be aging, security is lower, and energy consumption is higher.Therefore, it is necessary for designing a kind of more rational Intelligent indoor heating installation.

As shown in Figures 1 to 4, this Intelligent indoor heating installation comprises casing 10 and is located at least one the Electromagnetic Heating room 20 in casing 10, wherein:

Electromagnetic Heating room 20 comprises urceolus 21 and the coated magnetic field shielding floor 22 be arranged on outside urceolus 21, is provided with the heat tunnel 23 with water inlet 231 and delivery port 232, heat tunnel 23 outer cladding is provided with electromagnetic heating coil 24 in urceolus 21;

Delivery port 232 place of each heat tunnel 23 is equipped with at least one radiator 30 communicated with the external world.

Preferred above-mentioned radiator 30 to be arranged in casing 10 and the ventilating opening offered on casing 10 for indoor heating, and compact in design, makes heating installation volume little, improves space availability ratio and moulded attractive in appearance.

This Intelligent indoor heating installation in an initial condition, the mode of Electromagnetic Heating is adopted to heat to indoor, water without heating passes in heat tunnel 23 by water inlet 231, electromagnetic heating coil 24 is energized, due to eddy current effect, produce heat in heat tunnel 23 and the water stored is heated, the hot water produced in Electromagnetic Heating room 20 (i.e. heat tunnel 23) is transported to radiator 30 by delivery port 232, through radiator 30, suitable temperature is sent the external world, form the indoor temperature difference, finally carry out thermal cycle and make whole indoor temperature evenly increase.

It is worth mentioning that: technique scheme be in this case Electromagnetic Heating room 20 and radiator 30 optimize the arrangement of scheme, at least one radiator 30 is equipped with outside each Electromagnetic Heating room 20, namely each radiator 30 on each Electromagnetic Heating room 20 parallel connection, same branch line is connected, like this can be rapider to indoor heating; And the hot water of each Electromagnetic Heating room 20 also first can gather unification again and flows to radiator 30 in this case, that is to say that each Electromagnetic Heating room 20 is in parallel, each radiator 30 is connected on a final branch line; The layout of middle Electromagnetic Heating room 20 of the present utility model and radiator 30 can make change according to actual conditions, and is not limited to above-mentioned technical scheme, and flexibility is large and versatility is wide.

The heating system of this Intelligent indoor heating installation compares combustion gas, coal-fired wall-hung boiler heating system, distributing family air-conditioning heating system, be greatly improved in capacity usage ratio, at least energy-conservation 40%, and the speed that heats is faster, environmentally safe simultaneously; Compare electrical heating indoor heating device, in service life, life-span of electromagnetic heating coil 24 is much larger than the life-span of electrothermal tube; In security, magnetic field shielding layer 22 is coated on urceolus 21 wall, in order to shield the high-frequency alternating magnetic field that electromagnetic heating coil 24 produces, prevents casing 10 from occurring the phenomenon of induction heating, substantially there is not the possibility of electric leakage, improve security performance; The utility model has positive dissemination to reduction energy consumption and environmental protection.

Further, pipe 25 in heating is installed with in urceolus 21, heat tunnel 23 is arranged in the middle part of the interior pipe 25 of heating vertically, electromagnetic heating coil 24 voluble wrapping is arranged in the circumferential lateral surface of pipe 25 in heating, and in heating pipe 25 lateral surface on be covered with safety inner liner 26 for isolating electromagnetic heating coil 24 and heat tunnel 23.In preferred heating, pipe 25 is positioned at the medium position of Electromagnetic Heating room 20, and pipe 25 two ends UNICOM in heating also forms heating clamber together with urceolus 21.

In heating, pipe 25 is convenient to install, dismantle and change, and make the water flow in heat tunnel 23 smooth and easy, and safety inner liner 26 wraps up pipe 25 in heating, obstruct electromagnetic heating coil 24 and heat tunnel 23, prevent electric leakage of leaking.

Further, in heating pipe 25 circumferential lateral surface on be closely coatedly provided with heat insulation layer 27, electromagnetic heating coil 24 voluble wrapping is outside the heat insulation layer 27 of correspondence.Heat insulation layer 27 is made up of heat preserving and insulating material, electromagnetic heating coil 24 be wrapped in order be wrapped in heat insulation layer 27 heating on pipe 25, high-frequency Electromagnetic Heating is carried out to the water in heat tunnel 23, heating effect is good, Long-Time Service gets off not easily aging, ensure that the service life of equipment.

Preferably, the magnetic field shielding layer 22 in the utility model comprises external insulation layer and the coated internal shield be arranged on outside urceolus 21.As its name suggests, internal shield is made up of magnetic shield material, external insulation layer is made up of high performance insulating materials, such structural design layout is more reasonable, the high-frequency alternating magnetic field of inside, Electromagnetic Heating room 20 can be shielded well, and prevent outside heating installation casing 10 from occurring the phenomenon of induction heating further.

Further, magnetic field shielding layer 22 outer cladding is provided with thermal-insulating sealing layer 28.Thermal-insulating sealing layer 28 is made up of heat preserving and insulating material, carries out thermal-insulating sealing, prevent heat loss to Electromagnetic Heating room 20, reduces energy loss.

In the present case, electromagnetic heating coil 24 is outer also can the insulating materials of tight coating, and add the setting of magnetic field shielding layer 22, this Electromagnetic Heating room 20 does not exist the possibility of electric leakage substantially.

Preferably, water tower 40 is provided with in casing 10, the exit of water tower 40 respectively with water inlet 231 UNICOM of each heat tunnel 23, delivery port 232 place of each heat tunnel 23 be equipped with one with the radiator 30 of water tower 40 UNICOM, radiator 30 three of water tower 40, heat tunnel 23 and correspondence forms loop.

Further, intake pump 50 can be equipped with between each heat tunnel 23 and water tower 40, under the induced effect of feed pump, water in water tower 40 enters Electromagnetic Heating room 20 through pipeline and carries out moisturizing to heat tunnel 23, the hot water that heat tunnel 23 produces is transported to heating in radiator 30 by pipeline, water in radiator 30 is passed in water tower 40 by pipeline and reclaims, and recycles, and achieves recycling and environmentally safe of regenerative resource.

Preferably, water level detector is provided with in heat tunnel 23, casing 10 is provided with arrange and at least one glass-tube liquid level meter 60 for show Electromagnetic Heating room 20 water level inside corresponding with Electromagnetic Heating room 20, and glass-tube liquid level meter 60 is connected with corresponding water level detector.

Water level detector can be monitored in real time to the water level in heating clamber; And glass-tube liquid level meter 60 is a kind of direct-reading level gauging instrument, be applicable to the Site Detection of the liquid position in industrial processes in general storage liquid equipment, its structure is simple, and measuring accurately, is traditional on-the-spot level gauging instrument; The setting of glass-tube liquid level meter 60 greatly facilitates the operation of heating installation.

Further, water tower 40 is arranged on the inner back segment of casing 10, Electromagnetic Heating room 20 is arranged on the inner leading portion of casing 10, control panel 70 is provided with on the facial top of casing 10, entering water electromagnetic valve 81 is equipped with between water tower 40 and the water inlet 231 of each heat tunnel 23, be provided with out water solenoid valve 82 at the delivery port 232 of heat tunnel 23 with between corresponding radiator 30, each entering water electromagnetic valve 81, respectively go out water solenoid valve 82 and be all electrically connected with control panel 70.

Preferably the bottom of Electromagnetic Heating room 20 can be welded with the angle steel bottom casing 10 thus heating clamber is fixed on casing 10, easy to process and heating clamber stable working.The urceolus 21 of preferred heating clamber is vertically welded on the inner leading portion of casing 10, makes current carry convenient and improve space availability ratio.

Overall casing 10 and internal structure rationally distributed, compact, make casing 10 volume little, can regulate the open and close in each water route inner by arranging control panel 70, and then realize Automated condtrol, automaticity is high, easy to use and improve operating efficiency.

Further, the lateral wall of heat tunnel 23 is provided with the temperature sensor be electrically connected with control panel 70.Adaptability is provided with LCDs on control panel 70, for showing the water temperature after heating, is convenient to monitor in real time and record the water temperature of heating clamber.

Further preferably, in casing 10, be installed with the system controller 90 be electrically connected with control panel 70, between system controller 90 and Electromagnetic Heating room 20, be provided with insulation plate 100, control panel 70 is provided with emergency stop switch 71 and power switch 72.

Control panel 70 is connected with the system controller 90 of casing 10 inside, for real-time monitoring, and display hot water temperature and duty; System controller 90 can be screwed on insulation plate 100, mainly comprises Intelligent PLC Controller, the insurance of power supply total control switch etc.; Emergency stop switch 71 and power switch 72 can be arranged at the right side of control panel 70, for opening and suddenly stopping indoor heating device, safe and reliable; Insulation plate 100 be arranged so that system controller 90 stable working, increase the service life.

In sum, the operation principle of this Intelligent indoor heating installation is as follows:

Turn on the power switch 72, switch on power, click the start key on control panel 70, this indoor heating device starts to enter automatic running status, whether the water level in water level detector detection Electromagnetic Heating room 20 reaches setting value, as water level is too low, water level detector by Signal transmissions to system controller 90, system controller 90 gives feed pump and entering water electromagnetic valve 81 signal (intake pump in this case 50 can be replaced with other power sources) again, entering water electromagnetic valve 81 (normally closed) connection, under the effect of feed pump, water in water tower 40 enters Electromagnetic Heating room 20 through pipeline and entering water electromagnetic valve 81 and carries out moisturizing,

After water level reaches setting value, stop moisturizing, system controller 90 starts the water controlled in electromagnetic heating coil 24 pairs of Electromagnetic Heating rooms 20 (i.e. heat tunnel 23) and heats;

The water temperature recorded when temperature sensor reaches design temperature, by Signal transmissions to system controller 90, system controller 90 goes out water solenoid valve 82 signal again, go out water solenoid valve 82 (normally closed) connection, the hot water produced in Electromagnetic Heating room 20 (i.e. heat tunnel 23) is by pipeline and go out water solenoid valve 82 and to be transported in radiator 30 and to indoor heating, water in radiator 30 is passed in water tower 40 by pipeline and reclaims, and recycles;

When the water temperature that temperature sensor records reaches design temperature higher limit, system controller 90 controls electromagnetic heating coil 24 and stops heating, carries out overtemperature protection; When the temperature that temperature sensor records is lower than design temperature, electromagnetic heating coil 24 can restart again heating;

The stop button worked on rear click control panel 70,72, work period of powered-down switch terminates.

Each parts in this case are all built in casing 10, adopt the design of casing 10 integration, and heating installation volume is little and do not take up an area, and automaticity is high.This Intelligent indoor heating installation can adopt liquid crystal touch screen to carry out showing and controlling, and parameters is monitored in real time, and handled easily personnel can observe its duty at any time, man-machine interaction operating in a key, fully automatic operation, more ocular and simple.

Specific embodiment described herein is only to the explanation for example of the utility model spirit.The utility model person of ordinary skill in the field can make various amendment or supplements or adopt similar mode to substitute to described specific embodiment, but can't depart from spirit of the present utility model or surmount the scope that appended claims defines.

Claims (10)

1. an Intelligent indoor heating installation, is characterized in that: comprise casing and be located at least one the Electromagnetic Heating room in casing, wherein:

Described Electromagnetic Heating room comprises urceolus and the coated magnetic field shielding floor be arranged on outside urceolus, is provided with the heat tunnel with water inlet and delivery port, heat tunnel outer cladding is provided with electromagnetic heating coil in urceolus;

The water outlet of each heat tunnel is equipped with at least one radiator communicated with the external world.

2. a kind of Intelligent indoor heating installation according to claim 1, it is characterized in that: in urceolus, be installed with pipe in heating, described heat tunnel is arranged in the middle part of the interior pipe of heating vertically, described electromagnetic heating coil voluble wrapping is arranged in the circumferential lateral surface of pipe in heating, and in heating pipe lateral surface on be covered with safety inner liner for isolating electromagnetic heating coil and heat tunnel.

3. a kind of Intelligent indoor heating installation according to claim 2, is characterized in that: in heating pipe circumferential lateral surface on be closely coatedly provided with heat insulation layer, described electromagnetic heating coil voluble wrapping is outside heat insulation layer.

4. a kind of Intelligent indoor heating installation according to claim 1 or 2 or 3, is characterized in that: described magnetic field shielding layer comprises external insulation layer and the coated internal shield be arranged on outside urceolus.

5. a kind of Intelligent indoor heating installation according to claim 1 or 2 or 3, is characterized in that: magnetic field shielding layer outer cladding is provided with thermal-insulating sealing layer.

6. a kind of Intelligent indoor heating installation according to claim 1, it is characterized in that: in casing, be provided with water tower, the exit of described water tower respectively with the water inlet UNICOM of each heat tunnel, the water outlet of each heat tunnel be equipped with one with the radiator of water tower UNICOM, the radiator three of described water tower, heat tunnel and correspondence forms loop.

7. a kind of Intelligent indoor heating installation according to claim 1 or 2 or 3, it is characterized in that: in heat tunnel, be provided with water level detector, casing is provided with arrange and at least one glass-tube liquid level meter for show Electromagnetic Heating chamber interior water level corresponding with Electromagnetic Heating room, and described glass-tube liquid level meter is connected with corresponding water level detector.

8. a kind of Intelligent indoor heating installation according to claim 6, it is characterized in that: described water tower is arranged on box house back segment, described Electromagnetic Heating room is arranged on box house leading portion, control panel is provided with on casing face top, entering water electromagnetic valve is equipped with between water tower and the water inlet of each heat tunnel, be provided with out water solenoid valve at the delivery port of heat tunnel with between corresponding radiator, each entering water electromagnetic valve, respectively go out water solenoid valve and be all electrically connected with control panel.

9. a kind of Intelligent indoor heating installation according to claim 8, is characterized in that: on the lateral wall of heat tunnel, be provided with the temperature sensor be electrically connected with control panel.

10. a kind of Intelligent indoor heating installation according to claim 9, it is characterized in that: in casing, be installed with the system controller be electrically connected with control panel, between system controller and Electromagnetic Heating room, be provided with insulation plate, be provided with emergency stop switch and power switch on the control panel.