CN204743749U

CN204743749U - Boil hydrophone

Info

Publication number: CN204743749U
Application number: CN201520341703.0U
Authority: CN
Inventors: 李卫忠; 钟业武
Original assignee: Top Electric Appliances Industrial Ltd
Current assignee: Top Electric Appliances Industrial Ltd
Priority date: 2015-05-25
Filing date: 2015-05-25
Publication date: 2015-11-11
Anticipated expiration: 2025-05-25

Abstract

The utility model relates to a boil hydrophone, including container and base, be equipped with heating device in the base, the bottom of container holds in the base, heating device includes electromagnetic heating part and contact heating part, the container bottom has the hot material that adds with electromagnetic heating parts complete network, closely the laminate heat conduction lateral wall of container bottom of contact heating part. The utility model discloses utilizing the electromagnetic heating part to container electromagnetic heating, adopting the contact heating part to contact the container and conduct heat, two kinds of heating methods use coordinately and to improve the efficiency of boiling water greatly, and the container washs the convenience moreover. The utility model discloses can be applied to the liquid heating.

Description

A kind of calorifier

Technical field

The utility model relates to a kind of calorifier.

Background technology

Current calorifier mode to boil water on the market mainly contains two kinds.One is contact heating, the heating bar of energising, heating wire directly and liquid comes into contact heat, or the material contacts vessel bottom wall that can generate heat, sidewall heat container, this mode of heating heating power is higher, potential safety hazard is larger, calorifier container volume and weight are comparatively large simultaneously, owing to containing heating electrical component in container, also inconvenient when cleaning.

Another is Electromagnetic Heating, and traditional electromagnetic heating power is difficult to reach more than 2000W, is difficult to continue to improve, although more very fast than the time to boil water of contact heating, is still difficult to meet the rhythm of life day by day accelerated now.

Utility model content

In order to overcome above-mentioned technical problem, the purpose of this utility model is to provide the calorifier that a kind of clean container is convenient, efficiency to boil water is high.

The technical scheme that the utility model adopts is:

A kind of calorifier, comprise container and base, heater is provided with in described base, the bottom of described container is contained in base, described heater comprises Electromagnetic Heating parts and contacts heater block, described container bottom has the heating material supporting with Electromagnetic Heating parts, and described contact heater block fits tightly the heat conduction sidewall of container bottom.

As further improvement of the utility model, the contact surface of described contact heater block and heat conduction sidewall is inclined-plane or cambered surface.

As further improvement of the utility model, described contact heater block comprises conducting strip and heating circle, and described heating circle connects conducting strip, and described conducting strip fits tightly heat conduction sidewall.

As further improvement of the utility model, the middle part of described container bottom end face caves inward formation heating surface, and described heating material is the magnetic fluid coating being coated in heating surface.

As further improvement of the utility model, described heating material is metal magnetic conducting material, and described metal magnetic conducting material forms the bottom face of container.

As further improvement of the utility model, be provided with control device in described base, described control device comprises the control circuit board be electrically connected with heater.

As further improvement of the utility model, described control device comprises the temperature detection part of inspection instrument temperature and the adjustment member of adjustment heating devices heat amount, and described temperature detection part and adjusting device are electrically connected control circuit board respectively.

As further improvement of the utility model, described temperature detection part comprises the temperature sensor of thermal contact conductance sidewall, one end of described temperature sensor container dorsad is connected to spring, and the end of described spring is relative with base fixing, thus makes temperature sensor apical grafting at container outer wall.

As further improvement of the utility model, described base is provided with display screen, and described display screen and control circuit board are electrically connected.

As further improvement of the utility model, described Electromagnetic Heating parts comprise micro-crystal plate, magnet exciting coil, drive circuit module and fan, described micro-crystal plate support vessels bottom, described magnet exciting coil to be positioned at below micro-crystal plate and to be electrically connected with drive circuit module, the heat of magnet exciting coil is discharged base by described fan, is connected to fuse between described magnet exciting coil and micro-crystal plate.

The beneficial effects of the utility model are: the utility model utilizes Electromagnetic Heating parts to container Electromagnetic Heating, and adopt contact heater block to container transmission of heat by contact, two kinds of mode of heatings are combined and can greatly improve efficiency to boil water, and cleaning container is convenient.

Accompanying drawing explanation

Below in conjunction with drawings and embodiments, the utility model is further illustrated.

Fig. 1 is the decomposing schematic representation of calorifier;

Fig. 2 is the generalized section of calorifier first embodiment;

Fig. 3 is the enlarged diagram of part A in Fig. 2;

Fig. 4 is the enlarged diagram of part B in Fig. 2;

Fig. 5 is the structural representation of container in the first embodiment;

Fig. 6 is the structural representation of container in the second embodiment.

Detailed description of the invention

Calorifier as shown in Figure 1, comprises container 1 and base 2.The open top of container 1 is covered with container cover 12, and the outer wall in the middle part of container 1 is connected to handle 13.Base 2 comprises a shell 21, is provided with a cavity in the middle part of shell 21, can be contained in this cavity and to be laterally positioned, also upwards can take out from cavity bottom container 1.

As shown in Figure 2, be provided with the heater of container 1 in base 2, described heater at least comprises Electromagnetic Heating parts 3 and contacts heater block 4.Electromagnetic Heating parts 3 pass through the method for Electromagnetic Heating to the heating liquid in container 1, and corresponding, container 1 bottom also has the heating material supporting with Electromagnetic Heating parts 3.Contact heater block 4 fits tightly the heat conduction sidewall 11 bottom container 1, and himself can generate heat, and heat is passed to the liquid in heat conduction sidewall 11 and heating container 1.

Owing to being provided with two kinds of heater blocks in base 2, can Electromagnetic Heating being carried out to container 1 simultaneously and contact heating, thus substantially increase efficiency to boil water, and, container bottom and sidewall two place are heated simultaneously, makes temperature more even, also can be more accurate to the thermometric of liquid in container.

In addition, the heater of embodiment is all arranged in base 2 and to be positioned at container 1 outside, and the components and parts of container 1 inside not heating, make its easy to clean.

As shown in Figure 1, Figure 2 and Figure 3, above-mentioned contact heater block 4 comprises the conducting strip in the form of a ring 41 and heating circle 42 that are arranged on shell 21 cavity outer wall, and heating circle 42 connects conducting strip 41, and conducting strip 41 fits tightly and around heat conduction sidewall 11.Can generate heat rapidly after heating circle 42 is energized, heat is transferred uniformly on container 1 after being passed to conducting strip 41 again.Preferably, conducting strip 41 is inclined-plane or cambered surface with the contact surface of heat conduction sidewall 11, this inclined-plane or cambered surface from the bottom to top in outer expanding shape, convenient container 1 putting into from top to bottom on the one hand, container 1 can be good with conducting strip 41 on the other hand " coincideing ".

Above-mentioned Electromagnetic Heating parts 3 comprise micro-crystal plate 31, magnet exciting coil 32, drive circuit module 33 and fan 34, and micro-crystal plate 31 connected with outer casing 21 is also positioned at bottom cavity, for saturating magnetic, heat insulation and support vessels 1.Magnet exciting coil 32 to be positioned at below micro-crystal plate 31 and to be electrically connected with drive circuit module 33, and it produces magnetic field, thus coordinates with the heating material of container 1 bottom.Fan 34 is same in base 2, and the heat of magnet exciting coil 32, just to the louvre bottom shell 21, is discharged base 2, the sidewall of shell 21 is provided with louvre 211 equally by its outlet.Fuse 35 is also connected between magnet exciting coil 32 and micro-crystal plate 31.

In embodiment, supportingly in base 2 be provided with control device 5, described control device 5 comprises control circuit board 51, temperature detection part 52, adjustment member 53.Control circuit board 51 is electrically connected temperature detection part 52, adjustment member 53, heating circle 42 and drive circuit module 33 respectively.

As shown in Figure 4, temperature detection part 52 is for the temperature of inspection instrument 1, it comprises temperature sensor 521, the probe segment of temperature sensor 521 front end is from laterally passing conducting strip 41 and thermal contact conductance sidewall 11, the rear end of its container 1 is dorsad connected to spring 522, and the end of spring 522 is connected on the support 523 fixing with base 2, thus make temperature sensor 521 under the effect of elastic force apical grafting at heat conduction sidewall 11, the tightness degree kept in touch, guarantees that temperature survey accurately, reliably.

Adjustment member 53 adds heat for what adjust heater, and its cardinal principle is the power of regulation heating circle 42 and the power of magnet exciting coil 32, and it is also higher that larger its of power produces heat.Adjustment member 53 is at least the adjusting knob that is arranged on shell 21 outer wall.

In addition, with reference to figure 1 and Fig. 2, shell 21 outer wall is also provided with a display screen 6, and display screen 6 and control circuit board 51 are electrically connected, and at least can show the temperature of container 1, the frequency of Electromagnetic Heating parts 3 and the setting value for above-mentioned parameter, heating circle caloric value of user.

When needing to accelerate process to boil water, user adjusts adjusting knob to heighten the power of heating circle 42 and magnet exciting coil 32, and concrete numerical value can reflect in display screen 6; Temperature sensor 521 constantly feeds back the temperature of container 1 and liquid, and after container 1 and liquid reach design temperature, control circuit board 51 cuts off the power supply of heating circle 42 and magnet exciting coil 32 to stop heating.

According to above-mentioned principle, user also can turn the power of heating circle 42 and magnet exciting coil 32 down, to extend duration to boil water.

Foregoing describes only Electromagnetic Heating parts 3 and the situation contacting heater block 4 and be combined, now the efficiency of heating surface is high, the temperature of heating also evenly.But both also can separately use, such as independent Electromagnetic Heating or carry out separately contact heating, just now the efficiency of heating surface obviously reduces, obvious increase consuming time.

By above-mentioned control device 5, calorifier can also realize heat insulation function.Temperature detection part 52 detects that in container 1, water temperature feeds back to control circuit board 51 lower than after insulation setting value, and at least one control in Electromagnetic Heating parts 3, contact heater block 4 of control circuit board 51 starts, until container 1 water temperature stops after reaching setting value.

As in first embodiment of Fig. 5, container 1 entirety is made up of glass.The middle part of container 1 bottom face caves inward formation heating surface, and described heating material is the magnetic fluid coating 101 being coated in heating surface, and the surrounding of heating surface is the support ring 14 be placed on micro-crystal plate 31, conducting strip 41 and glass contact.

As in second embodiment of Fig. 6, container 1 is made up of glass.Be covered with layer of metal bottom container 1, this metal can magnetic conduction, and this layer of metal also constitutes heat conduction sidewall 11, and conducting strip is close on this layer of metal, and the bottom face of container 1 entirety is plane and is made up of this layer of metal simultaneously.

In another not illustrated embodiment, integral container is made up of glass.Container bottom end face is plane, is only covered with metal magnetic conducting material in this plane bottom, conducting strip and glass contact.

The above be the utility model preferred embodiment, it does not form the restriction to the utility model protection domain.

Claims

1. a calorifier, comprise container and base, heater is provided with in described base, it is characterized in that: the bottom of described container is contained in base, described heater comprises Electromagnetic Heating parts and contacts heater block, described container bottom has the heating material supporting with Electromagnetic Heating parts, and described contact heater block fits tightly the heat conduction sidewall of container bottom.

2. calorifier according to claim 1, is characterized in that: the contact surface of described contact heater block and heat conduction sidewall is inclined-plane or cambered surface.

3. calorifier according to claim 2, is characterized in that: described contact heater block comprises conducting strip and heating circle, and described heating circle connects conducting strip, and described conducting strip fits tightly heat conduction sidewall.

4. calorifier according to claim 3, is characterized in that: the middle part of described container bottom end face caves inward formation heating surface, and described heating material is the magnetic fluid coating being coated in heating surface.

5. calorifier according to claim 3, is characterized in that: described heating material is metal magnetic conducting material, and described metal magnetic conducting material forms the bottom face of container.

6. calorifier according to any one of claim 1 to 5, is characterized in that: be provided with control device in described base, and described control device comprises the control circuit board be electrically connected with heater.

7. calorifier according to claim 6, it is characterized in that: described control device comprises the temperature detection part of inspection instrument temperature and the adjustment member of adjustment heating devices heat amount, and described temperature detection part and adjusting device are electrically connected control circuit board respectively.

8. calorifier according to claim 7, it is characterized in that: described temperature detection part comprises the temperature sensor of thermal contact conductance sidewall, one end of described temperature sensor container dorsad is connected to spring, the end of described spring is relative with base fixing, thus makes temperature sensor apical grafting at heat conduction sidewall.

9. calorifier according to claim 6, is characterized in that: described base is provided with display screen, and described display screen and control circuit board are electrically connected.

10. calorifier according to any one of claim 1 to 5, it is characterized in that: described Electromagnetic Heating parts comprise micro-crystal plate, magnet exciting coil, drive circuit module and fan, described micro-crystal plate support vessels bottom, described magnet exciting coil to be positioned at below micro-crystal plate and to be electrically connected with drive circuit module, the heat of magnet exciting coil is discharged base by described fan, is connected to fuse (35) between described magnet exciting coil and micro-crystal plate.