CN206905086U - A kind of heat-storage electric heater - Google Patents

Abstract

The utility model discloses a kind of heat-storage electric heater, including shell and embedding controller on the housing, cold wind plenum chamber, heat storage and the Power Component being connected are provided with the enclosure, the controller is embedding on the housing, electrically connected respectively with the heat storage and the Power Component, the opening degree in the radiating air port of the controller control construction on the housing, the controller control the energization accumulation of heat or power-off heat release of the heat storage.Said structure is by using controller as temperature control centre, by gathering heat storage internal temperature and indoor temperature, the aperture size and the radiating aspect comprehensive adjustment indoor temperature of wind speed two in control radiating air port, all control integrated automations, and user personalized can program and set relevant parameter, make indoor temperature precisely controlled, realize the comfortableness of indoor temperature and the purpose of efficient energy-saving.

Description

A kind of heat-storage electric heater

Technical field

It the utility model is related to heating installation technical field, more particularly to a kind of heat-storage electric heater.

Background technology

Current existing heat-storage electric heater, although can peak load shifting realize the purpose of energy-conservation, temperature control indoors Aspect can not be controlled accurately, can not be accurately controlled distributing for stored heat in other words, then just be occurred that indoor temperature is relaxed Adaptive reduces and the waste of heat.

Heat-storage electric heater useful air pump controls radiating wind speed, also has heat-storage electric heater to use mechanical double-metal sheet The aperture in control radiating air port, it is undesirable that such heat distributes control program effect.Radiating wind speed is controlled using air pump, When wind speed minimum, heat can also be distributed by air port of radiating；And control radiating air port using mechanical double-metal sheet Aperture, mechanical temperature control can not control accurately, and manual temperature regulation is cumbersome.

Therefore it provides a kind of heat-storage electric heater, to can effectively control indoor temperature, reduces thermal losses, Jin Erjie Electric cost is saved, just turns into those skilled in the art's technical problem urgently to be resolved hurrily.

Utility model content

The purpose of this utility model is to provide a kind of heat-storage electric heater, to can effectively control indoor temperature, reduces Thermal losses, and then save electric energy.

To achieve the above object, the utility model provides a kind of heat-storage electric heater, including shell and it is embedding on the housing Controller, be provided with the cold wind plenum chamber, heat storage and the Power Component that are connected in the enclosure, the controller is embedded in On the shell, electrically connected respectively with the heat storage and the Power Component, the controller control construction is in the shell On radiating air port opening degree, the controller controls the energization accumulation of heat or power-off heat release of the heat storage.

Preferably, the Power Component includes air pump and motor, and the air pump electrically connects with the controller, and control enters The cold wind plenum chamber wind speed, the motor electrically connect with the controller, control the opening degree in the radiating air port.

Preferably, the radiating air port is provided with deep bead, and the deep bead is connected with the motor driven, the motor So that the folding angle adjustment of the deep bead.

Preferably, be provided with the first thermal insulation board between the cold wind plenum chamber and the heat storage, the heat storage with it is described The second thermal insulation board is provided between Power Component, the Power Component is separated with the cold wind plenum chamber by the second thermal insulation board.

Preferably, first thermal insulation board is towards uniform multiple rectangular through-holes on the end face of the heat storage, and cold wind is from cold Wind plenum chamber enters the air channel of the heat storage through each rectangular through-hole.

Preferably, temperature sensor is installed, the temperature sensor is electrically connected with the controller inside the heat storage Connect.

Preferably, the heat storage includes at least one gitter brick, and the gitter brick is built-in with more electrical bars.

Preferably, the shell side is provided with air vent, and the air vent is two, and two air vents are placed in institute State the left and right sides of shell.

Preferably, at least two groups of support meanss are provided below in the shell, and each support meanss parallel spacing is set.

Preferably, the controller includes panel, and master control borad, the panels outside peace are provided with the inside of the panel Equipped with display screen, the display screen is electrically connected with the master control borad, and button, the button and institute are provided with the outside of the panel State master control borad electrical connection.

Based on above-mentioned, heat-storage electric heater provided by the utility model, by using controller as temperature control centre, By gathering heat storage internal temperature and indoor temperature, the aperture size and the aspect of radiating wind speed two in control radiating air port are comprehensive Closing regulation indoor temperature, all control integrated automations, and user personalized can program setting relevant parameter, make Indoor Temperature Spend precisely controlled, realize the comfortableness of indoor temperature and the purpose of efficient energy-saving.

Brief description of the drawings

Fig. 1 be the application one embodiment in heat-storage electric heater structural representation.

Wherein, 1 is shell, and 2 be radiating air port, and 3 be air vent, and 4 be motor, and 5 be controller, and 6 be the first thermal insulation board, 7 It is support meanss for air pump, 8,9 be cold wind plenum chamber, and 10 be electrical bar, and 11 be heat storage, and 12 be the second thermal insulation board.

Embodiment

Embodiment of the present utility model is described below in detail, the example of the embodiment is shown in the drawings, wherein from beginning Same or similar element is represented to same or similar label eventually or there is the element of same or like function.Below by The embodiment being described with reference to the drawings is exemplary, it is intended to for explaining the utility model, and it is not intended that new to this practicality The limitation of type.

Refer to Fig. 1, Fig. 1 be the application one embodiment in heat-storage electric heater structural representation.

In a kind of embodiment, heat-storage electric heater provided by the utility model, including shell 1 and embedded in described Controller 5 on shell 1, cold wind plenum chamber 9, heat storage 11 and the Power Component being connected, institute are provided with inside the shell 1 Controller 5 is stated on the shell 1, is electrically connected respectively with the heat storage 11 and the Power Component, the controller 5 is controlled The opening degree in radiating air port 2 of the system construction on the shell 1, the controller 5 control the energization accumulation of heat of the heat storage 11 Or power-off heat release.

In said structure, shell 1 is rectangular or square or circular, and bottom can also install air pump 7 in shell 1, this wind Pump 7 is connected with controller 5, hot blast is quickly discharged the heat-storage electric heater, indoor temperature is quickly improved.Controller 5 is embedded in The sidepiece of shell 1 or top, controller 5 is microcomputer controller 5, easy to operation.Controller 5 is connected with Power Component to control structure The opening degree in the radiating air port 2 at the front upper of shell 1 or top is made, good heat dissipation effect, can also be controlled according to the actual requirements scattered The folding of hot-air mouth 2.Meanwhile air port 2 of radiating is multiple, elongate in shape or circle etc., the air-supply of this kind of structure is in air port 2 of radiating Effect is good.The deep bead being engaged with radiating air port 2 is provided with inside shell 1, this deep bead connects with the motor 4 in Power Component Connect, control catch movement to realize the aperture size in radiating air port 2 by motor 4, so as to effectively control direction and the air-out of air-out Amount.

Based on said structure, the regenerative electrochemical heating is solid heat storage point heating, and temperature control is used as by using controller 5 Center processed, by gathering the internal temperature of heat storage 11 and indoor temperature, when heat storage 11 is powered, a part of heat is for warp The air crossed is heated, and another part heat is stored, and after heat storage 11 powers off, the heat being stored is released to passing through Air heated, so as to effectively by thermal losses, and then reduce the use cost of user.The aperture in control radiating air port 2 Size and the radiating aspect comprehensive adjustment indoor temperature of wind speed two, all control integrated automations, and user can be personalized Programming sets relevant parameter, makes indoor temperature precisely controlled, realizes the comfortableness of indoor temperature and the mesh of efficient energy-saving 's.

It is further understood that, the Power Component includes air pump 7 and motor 4, the air pump 7 and the electricity of controller 5 Connection, control enter the wind speed of cold wind plenum chamber 9, and the motor 4 electrically connects with the controller 5, controls the radiation air The opening degree of mouth 2.In said structure, air pump 7 electrically connects with controller 5 respectively with motor 4, and the air outlet of air pump 7 gos deep into cold wind Air-supply is realized in the side of plenum chamber 9, and the rotating speed by adjusting air pump 7 enters internal speed air flow and changed, and borrows This adjusts the wind velocity that in radiating air port 2 by adjusting the rotating speed of air pump 7, while can install deep bead additional in radiating air port 2, Deep bead is connected with motor 4, drives deep bead to rotate when motor 4 rotates, and now deep bead forms one with radiating air port 2 Fixed angle, the deep bead realize that maximum radiates, realize and do not radiate when deep bead completely closes when opening completely.Based on upper State the mutual cooperation of air pump 7 and motor 4, can effectively realize the radiating air output of air port 2 and go out the adjustment of wind velocity, air pump 7 with The control of motor 4 is automatically controlled by controller 5.

Specifically, the radiating air port 2 is provided with deep bead, and the deep bead is connected with the motor 4, the horse The folding angle adjustment for causing the deep bead up to 4.In said structure, deep bead is set at radiating air port 2, the deep bead is Strip, or shutter, deep bead, which is walked around, can realize and heat radiation air outlet formation certain angle, the angle model Enclose for 0-90 °, when angle is 0 °, the air output of heat radiation air outlet is maximum, and when angle is 90 °, heat radiation air outlet goes out Air quantity is minimum, and the rotation of motor 4 drives the angular transformation of deep bead so as to realize the adjustment of the air output of heat radiation air outlet.

It is pointed out that the gear ratio change between motor 4 and deep bead can be realized by installing speed change gear additional, Directly steamboat can be installed additional in the clutch end of motor 4, steamboat is installed additional to realize in the power intake of deep bead.Motor 4 Type can be that hydraulic type can also be powered version.

Further, the first thermal insulation board 6, the heat storage are provided between the cold wind plenum chamber 9 and the heat storage 11 11 educate the second thermal insulation board 12 are provided between the Power Component, and the Power Component passes through second with the cold wind plenum chamber 9 Thermal insulation board 12 separates；First thermal insulation board 6 is towards uniform multiple rectangular through-holes on the end face of the heat storage 11, and cold wind is from cold Wind plenum chamber 9 enters the air channel of the heat storage 11 through each rectangular through-hole.In said structure, cold wind plenum chamber 9 and accumulation of heat The first thermal insulation board 6 is provided between body 11, multiple rectangular through-holes are uniformly machined with the first thermal insulation board 6, multiple rectangular through-holes are set Put in the first thermal insulation board 6 towards on the end face of heat storage 11, cold wind enters in the presence of air pump 7 through multiple rectangular through-holes In air channel around heat storage 11, heat storage 11 starts becomes hot blast by cold wind, and hot blast discharges external environment by air port 2 of radiating In, the heat energy that heat storage 11 is effectively ensured in this structure is absorbed by the cold wind of heat storage 11, so as to effectively avoid the damage of heat Consumption, so as to effectively reduce electric cost.The second thermal insulation board 12 is by air pump 7 and motor 4 and heat storage 11 and cold wind plenum chamber 9 simultaneously Keep apart, air pump 7 and motor 4 are had an impact when on the one hand can effectively avoid heat storage 11 from working, further improve air pump 7 With the service life of motor 4, on the other hand can effectively avoid the heat of heat storage 11 from scattering and disappearing, so reduce user electricity consumption into This.

Further, temperature sensor, the temperature sensor and the controller 5 are installed inside the heat storage 11 Electrical connection.In the structure, the reload temperature sensor in heat storage 11, the temperature sensor constantly detects the temperature of heat storage 11 Spend, be preset with temperature value in controller 5, the temperature value detected is fed back to controller 5 by temperature sensor, passes through controller 5 The temperature value and preset temperature value are compared, when detection temperature value is higher than preset temperature value, controller 5 stops adding for heat storage 11 Heat, when detection temperature value is less than preset temperature value, controller 5 starts the heating of heat storage 11.This kind of mode can be effectively smart The really start and stop of control heat storage 11, so as to realize accurate heating, the loss of electric energy is avoided, and then reduce electric cost.

It is to be appreciated that the preset temperature user in controller 5 can specifically set according to the demand of oneself.

Specifically, the heat storage 11 includes at least one gitter brick, and the gitter brick is built-in with more electrical bars 10.On State heat storage 11 in structure to be in series by multiple gitter bricks, layout type is parallel arrangement, and cold wind can be directly over each Gitter brick can also circulate through gitter brick, and multiple electrical bars 10 are arranged at intervals with inside gitter brick, and electrical bar 10 can be pottery Porcelain structure can also be resistance wire structure, and certain said structure is not limited solely to this, can also be the structure of diversified forms.Base In said structure, can rapidly and uniformly it be heated when cold air passes through heat storage 11, so as to which the hot blast temperature after heating be effectively ensured Degree, ensure the use demand of user.

Specific to understand ground, the side of shell 1 is provided with air vent 3, and the air vent 3 is two, two air vents 3 Be placed in the left and right sides of the shell 1.In said structure, the left and right sides of shell 1 is provided with air vent 3 and Power Component installing zone Domain connects, and ventilation effect is good.The preferred shutter form of the air vent 3 or hole shape etc., realization so can be more preferably divided to divulge information.

Specifically, at least two groups of support meanss 8 are provided below in the shell 1, and each parallel spacing of support meanss 8 is set Put.Shell 1 is mounted below multigroup support meanss 8, and each support meanss 8 include crossbeam, and the both ends of crossbeam are machined with downward folding Turn of bilge, lower margin cup is installed on bending part.So, shell 1 can be avoided, which directly to be contacted with ground below, causes the bottom surface of shell 1 to be ground The problem of damage.

Further, the controller 5 includes panel, is provided with master control borad on the inside of the panel, outside the panel Side is provided with display screen, and the display screen electrically connects with the master control borad, and button, the button are provided with the outside of the panel Electrically connected with the master control borad.Controller 5 includes its panel, and master control borad is provided with the inside of panel, and display screen is arranged on panel Front upper electrically connects with master control borad, and multiple buttons are arranged on 1 positive bottom of shell and electrically connected with master control borad.Master board may be used also To be connected to remote-controlled operation with Digiplex.

More than being based on, the insertion of controller 5 in heat-storage electric heater of the present utility model is arranged on the right side of shell 1, on shell 1 Portion is provided with radiating air port 2, and 1 liang of upper lateral part of shell is provided with air vent 3, and the radiating aperture size of air port 2 control motor 4 is arranged on outer Upper right quarter in shell 1, blast velocity control air pump 7 are arranged on right lower quadrant in shell 1, and air pump 7 can deliver to outside cold wind cold wind air-supply Room 9.Cold wind plenum chamber 9 enters air channel in heat storage 11 from the upper aperture of the first thermal insulation board 6, and heat storage 11 is made up of gitter brick, stores Heat is provided by electrical bar 10 stored by hot brick, to prevent high temperature from influenceing the normal work such as temperature controller and motor 4, inside shell 1 Right side is done there is provided the second thermal insulation board 12 to be isolated.During low power consumption accumulation of heat, controller 5, which sends instruction, adds the energization of electrical bar 10 Heat, temperature sensor feedback temperature signal is to controller 5, after the temperature of heat storage 11 reaches setting value, controller 5 in heat storage 11 Control electrical bar 10 powers off, and can not be disconnected if electrical bar 10 is not heated or heated, controller 5 can send alarm.Work as daytime It is indoor nobody when, need to only press the antifreeze key on controller 5 or nobody indoor period is set, controller 5 can maintain Indoor cardinal temperature, heat is reduced as far as possible and is scattered and disappeared.As indoor someone, controller 5 controls rotating speed and the radiating air port of air pump 7 2 apertures control the position of motor 4, accurately control rate of heat dispation, maintain the constant of room temperature.User need to only set basic operation ginseng Number, entirely other operations, very hommization are not needed using process.

The various embodiments described above are only preferred embodiments of the present utility model, in the art, every to be based on this reality With the changes and improvements in new technique scheme, should not exclude outside the scope of protection of the utility model.

Claims (10)

1. a kind of heat-storage electric heater, including shell (1) and the controller (5) on the shell (1), in the shell (1) Inside is provided with cold wind plenum chamber (9), heat storage (11) and the Power Component being connected, it is characterised in that：The controller (5) is embedding On the shell (1), electrically connected respectively with the heat storage (11) and the Power Component, the controller (5) controls structure The opening degree in the radiating air port (2) on the shell (1) is made, the controller (5) controls the energization of the heat storage (11) Accumulation of heat or power-off heat release.

2. heat-storage electric heater according to claim 1, it is characterised in that：The Power Component includes air pump (7) and motor (4), the air pump (7) electrically connects with the controller (5), and control enters cold wind plenum chamber (9) wind speed, the motor (4) electrically connected with the controller (5), control the opening degree of radiating air port (2).

3. heat-storage electric heater according to claim 2, it is characterised in that：Radiating air port (2) is provided with deep bead, institute State deep bead to be connected with the motor (4), the motor (4) causes the folding angle adjustment of the deep bead.

4. heat-storage electric heater according to claim 1, it is characterised in that：The cold wind plenum chamber (9) and the heat storage (11) the first thermal insulation board (6) is provided between, the heat storage (11) is provided with the second thermal insulation board between educating the Power Component (12), the Power Component is separated with the cold wind plenum chamber (9) by the second thermal insulation board (12).

5. heat-storage electric heater according to claim 4, it is characterised in that：First thermal insulation board (6) is towards the accumulation of heat Uniform multiple rectangular through-holes on the end face of body (11), cold wind enter the storage from cold wind plenum chamber (9) through each rectangular through-hole The air channel of hot body (11).

6. heat-storage electric heater according to claim 1, it is characterised in that：Temperature biography is installed inside the heat storage (11) Sensor, the temperature sensor electrically connect with the controller (5).

7. heat-storage electric heater according to claim 6, it is characterised in that：The heat storage (11) includes at least one accumulation of heat Brick, the gitter brick are built-in with more electrical bars (10).

8. heat-storage electric heater according to claim 1, it is characterised in that：Shell (1) side is provided with air vent (3), the air vent (3) is two, and two air vents (3) are placed in the left and right sides of the shell (1).

9. heat-storage electric heater according to claim 8, it is characterised in that：The shell (1) is provided below at least two groups Support meanss (8), each support meanss (8) parallel spacing are set.

10. heat-storage electric heater according to claim 1, it is characterised in that：The controller (5) includes panel, in institute To state and master control borad is installed on the inside of panel, the panels outside is provided with display screen, and the display screen electrically connects with the master control borad, Button is provided with the outside of the panel, the button electrically connects with the master control borad.