CN207196904U - Electromagnetic heater - Google Patents

Abstract

It the utility model is related to a kind of electromagnetic heater；The electromagnetic heater includes：Container, heater, coil, said vesse wall are provided with water inlet, and tangential direction of the water inlet along the medial surface of container imports current；The utility model solves that the existing efficiency of heating surface is not high, and product does not adapt to demand of the different scales family to heat supply, it is also difficult to adapts to such changeable demand including current, leaving water temperature etc..

Description

Electromagnetic heater

Technical field

It the utility model is related to electromagnetic heater, and in particular to a kind of Electromagnetic Heating water installations.

Background technology

With the development of the society, pursuit of the people to quality of the life also more improves, people are more next to the demand of water consumption Bigger, for this, immediately heating water heater was widely used in the last few years.

Main more be used as using traditional electrically heated boiler or the electromagnetic heating tube of Electric radiant Heating Film of immediately heating water heater is generated heat Body, its electromagnetic heating tube heat generation density is big, and hot water supply is fast；But also due to heat exchanger time is short, immediately heating water heater must have A standby good heat exchange structure ensures that the water for flowing through heater can sponge the heat of heater.

Current immediately heating water heater has using disc, therefore is often difficult to fully around hair using S-shaped pipe loop Hot body causes the drawbacks such as the not high water temperature deficiency of heat exchanger effectiveness so as to utilize its heat energy；Also have using cylindrical shape heater, adopt Water body to be heated is resolved into several parts with multiple columnar heaters while heating is to improve firing rate, still It can so cause heater length or volume excessive.At present all kinds of household size conditions are not quite similar, and even exist sometimes Very big difference, the family of different scales is also different to the demand of heat supply, existing product be difficult in adapt to it is such including current, go out water temperature The changeable demand of degree etc., therefore it is not met by the various different clients of in the market and the needs of the consumer group.

Utility model content

Therefore, the utility model is exactly and made in view of the above problems, and the purpose of this utility model is to propose one kind Electromagnetic heater, it can make full use of the heat energy of heater, and strengthen the convection current of water itself, so as to rapidly and uniformly add Hot water stream.

Technical teaching for solving the problem was.

The utility model is specifically described below.

A kind of electromagnetic heater is the utility model is related to, it includes：

Container, the container are body of revolution, and wall of a container face is provided with water inlet, and the water inlet is along the medial surface of container Tangential direction imports current；

Heater, the heater are cylindrical shape, and the wall of said vesse is run through at the end of heater second, stretches into said vesse Inside, the rotation axes of symmetry of the heater and the rotational symmetry overlapping of axles of said vesse, water pass through hair after flowing through heater heating The first end discharge container of hot body；

Coil, the coil are entwined along the outer side surface of said vesse, the rotation of the rotation axes of symmetry and container of the coil Turn symmetrical overlapping of axles.

In order to obtain more preferable heating effect, the water inlet of said vesse is set according to following directions, the direction and container Rotation axes of symmetry it is substantially perpendicular.

In order to obtain more uniform heating effect, said vesse is cylindrical shape, and its is closed at both ends.

In order to obtain more uniform heating effect, the wall of said vesse first end is run through at the second end of above-mentioned heater Face, stretch into inside said vesse, extend proximate to the position of the end wall surface of said vesse second.

In order to obtain more preferable heating effect, the water inlet of said vesse is disposed in proximity to the container side of container first end Wall.

In order to meet different urban water demands, the utility model also provides a kind of electromagnetic heating system, and it includes：It is multiple Above-mentioned electromagnetic heater, in parallel between multiple electromagnetic heaters, the water inlet water inlet in parallel of each electromagnetic heater, often The first end parallel connection draining of the heater of individual electromagnetic heater.

The utility model also provides a kind of electromagnetic heating system, and it includes：The above-mentioned electromagnetic heater of multiple series connection is more Connected in the following manner between individual electromagnetic heater, the first end of the heater of first electromagnetic heater and second The water inlet connection of electromagnetic heater, the first end of the heater of second electromagnetic heater and the 3rd Electromagnetic Heating dress The water inlet connection put, by that analogy.

According to the program, following effect is obtained：

First, current tangentially enter in container, are rotated around heater, enter at the end of heater second inside heater, Discharged through the end of heater second, the path length of current, add the heat time of current, improve heating effect.

2nd, current tangentially enter in container, are rotated around heater, enter at the end of heater second inside heater, Current still keep rotation status, are discharged through the end of heater second；It is hot beneficial to current are destroyed because eddy flow state is presented in Water-flow whole-course Water and cold water laminar condition, strengthen the convection current of current internal hot-water and cold water, so as to accelerate the heating of current.

3rd, it is in parallel by multiple above-mentioned electromagnetic heaters, can meet the needs of different water consumptions, and in production, peace It is more economical and convenient in dress, maintenance process.

4th, connected by multiple above-mentioned electromagnetic heaters, the different demands to water temperature can be met, and in production, peace It is more economical and convenient in dress, maintenance process.

Brief description of the drawings

Fig. 1 is stereogram of the present utility model；

Fig. 2 is diagrammatic cross-section of the present utility model；

Fig. 3 is the sectional view in Fig. 2 A-A directions；

Fig. 4 is electromagnetic heater parallel connection schematic diagram of the present utility model；

Fig. 5 is electromagnetic heater of the present utility model series connection schematic diagram.

Embodiment

With reference to the accompanying drawings, various embodiments of the present utility model are discussed in detail.

Fig. 1 is that Fig. 1 is stereogram of the present utility model, and Fig. 2 is diagrammatic cross-section of the present utility model, and Fig. 3 is Fig. 2 A- The sectional view in A directions；

As shown in Fig. 1 to Fig. 3；

Label 1 represents electromagnetic heater of the present utility model, and label 10 represents container, and label 11 represents water inlet, mark Numbers 20 represent heaters, and label 30 represents coil.

As shown in figure 1, electromagnetic heater 1 includes：Cylindrical vessel 10, heater 20, coil 30；

Cylindrical vessel 10 is closed at both ends；The first end of heater 20 stretches into cylinder through one end of cylindrical vessel 10 and described Inside device 10, the rotation axes of symmetry of heater 20 and the rotational symmetry overlapping of axles of cylindrical vessel 10；Coil 30 is arranged at cylinder The side outer side surface of device 10 is described, is entwined around cylindrical vessel 10.

As shown in Fig. 2 the first end of heater 20 stretches into the interior of cylindrical vessel 10 through one end of cylindrical vessel 10 Portion, and close on the wall of the other end of cylindrical vessel 10.

As shown in Figures 2 and 3, the side wall of cylindrical vessel 10 is provided with water inlet 11, and the water inlet 11 closes on heating Second end of body 20, water inlet 11 imports current along the interior sidewall surface tangential direction of cylindrical vessel 10, and the direction is perpendicular to circle The rotation axes of symmetry of drum ladle 10.

The course of work of above-mentioned electromagnetic heater 1 is as follows：

As Figure 1-3, the water inlet 11 of electromagnetic heater 1 can connect with power set（Such as：Water pump etc.）, electricity The coil 30 and electric device of magnetic heater 1（High frequency alternating current is provided）Connection, coil 30 produce high-frequency alternating magnetic field；Root According to electromagnetic induction principle, heater 20, which produces to be vortexed, simultaneously to generate heat, and current are by water inlet 11 along the internal face of cylindrical vessel 10 Tangential direction enters inside cylindrical vessel 10, and current are rotated around the heater 20, and current reach the of heater 20 The internal face that cylindrical vessel 10 is collided during one end springs back into the inside of heater 20, and rotates second by heater 20 End discharge.

Using electromagnetic heater configured as described, then following such effect is obtained：

1. current tangentially enter in container, rotate around heater, enter in heater first end inside heater, warp The end of heater second is discharged, the path length of current, adds the heat time of current, improves heating effect.

2. current tangentially enter in container, rotate, enter in heater first end inside heater, water around heater Stream still keeps rotation status, is discharged through the end of heater second；Because eddy flow state is presented in Water-flow whole-course, beneficial to destruction current hot water With cold water laminar condition, strengthen the convection current of current internal hot-water and cold water, so as to accelerate the heating of current.

Composed in parallel as shown in figure 4, the utility model provides a kind of electromagnetic heating system by multiple electromagnetic heaters；

Label 1,2,3, N represent electromagnetic heater, and label 11 represents water inlet, and label 20 represents heater；

Electromagnetic heater 1, electromagnetic heater 2, electromagnetic heater 3 and electromagnetic heater N water inlet are in parallel Connect water inlet pipe, electromagnetic heater 1, electromagnetic heater 2, electromagnetic heater 3 and electromagnetic heater N water inlet simultaneously Connection connection outlet pipe；

Using electromagnetic heating system configured as described, then following such effect is obtained：

1. it is in parallel by multiple above-mentioned electromagnetic heaters, can meet the needs of different water consumptions；

2. the electromagnetic heater of constant power can be produced during production, during specific implementation can according to user it is different use water Amount demand, the parallel combination of multiple electromagnetic heaters is carried out, is easily installed, and do not influenceed during the damage of some electromagnetic heater The operation of other electromagnetic heaters, replaces the electromagnetic heater of damage when safeguarding, maintenance cost is low.

It is composed in series as shown in figure 5, the utility model provides a kind of electromagnetic heating system by multiple electromagnetic heaters；

Label 1,2,3, N represent electromagnetic heater, and label 11 represents water inlet, and label 20 represents heater；

Second end of the heater of electromagnetic heater 1 connects with outlet pipe, and the water inlet of electromagnetic heater 1 passes through water Pipe connects with the second end of the heater of electromagnetic heater 2, and the water inlet of electromagnetic heater 1 passes through water pipe and Electromagnetic Heating The second end connection of the heater of device 3, the heating that the water inlet of electromagnetic heater 3 passes through water pipe and electromagnetic heater N The second end connection of body, electromagnetic heater N water inlet connect with water inlet pipe；

Using electromagnetic heating system configured as described, then following such effect is obtained：

Connected by multiple above-mentioned electromagnetic heaters, be advantageous to Electromagnetic Heating dress of rationally being arranged according to space in force Put, while meet the different demands to water temperature, and it is more economical and convenient in production, installation, maintenance process.

Claims (7)

1. a kind of electromagnetic heater, it includes：

Container, the container are body of revolution, and wall of a container face is provided with water inlet, tangent line of the water inlet along the medial surface of container Direction imports current；

Heater, the heater are cylindrical shape, and the wall of said vesse is run through at the end of heater second, stretches into said vesse Portion, the rotation axes of symmetry of the heater and the rotational symmetry overlapping of axles of said vesse；

Coil, the coil are entwined along the outer side surface of said vesse, the rotation pair of the rotation axes of symmetry and container of the coil Claim overlapping of axles.

2. electromagnetic heater as claimed in claim 1, it is characterised in that：The water inlet of the container is set according to following directions Put, the rotation axes of symmetry of the direction and container is substantially perpendicular.

3. electromagnetic heater as claimed in claim 2, it is characterised in that：The container is cylindrical shape, and its is closed at both ends.

4. electromagnetic heater as claimed in claim 3, it is characterised in that：The container is run through at second end of the heater The wall of first end, stretch into inside the container, and extend proximate to the position of the end wall surface of container second.

5. electromagnetic heater as claimed in claim 4, it is characterised in that：The water inlet of the container is disposed in proximity to described On the wall of the container side of container first end.

6. a kind of electromagnetic heating system, it is characterised in that the electromagnetic heating system includes：

Multiple electromagnetic heaters, the electromagnetic heater include：Cylindrical vessel, the cylindrical vessel is closed at both ends, its side The position that wall closes on the cylindrical vessel first end is provided with water inlet, and the water inlet is along the cylindrical vessel medial surface Tangential direction imports fluid, and the direction is perpendicular to the rotation axes of symmetry of the cylindrical vessel；Heater, the heater are circle Tubular, the end of heater second are run through the wall of said vesse first end, stretched into inside said vesse, and extend proximate to described The position of the end wall surface of container second, the rotation axes of symmetry of the heater and the rotational symmetry overlapping of axles of said vesse；Coil, the line Circle is entwined along the outer side surface of said vesse, the rotation axes of symmetry of the coil and the rotational symmetry overlapping of axles of container；

Outlet pipe, the outlet pipe connect with the first end of the heater of above-mentioned electromagnetic heater；

Water inlet pipe, the water inlet pipe connect with the water inlet of above-mentioned electromagnetic heater.

7. a kind of electromagnetic heating system, it is characterised in that the electromagnetic heating system includes：

Multiple electromagnetic heaters, the electromagnetic heater include：Cylindrical vessel, the cylindrical vessel is closed at both ends, its side The position that wall closes on the cylindrical vessel first end is provided with water inlet, and the water inlet is along the cylindrical vessel medial surface Tangential direction imports fluid, and the direction is perpendicular to the rotation axes of symmetry of the cylindrical vessel；Heater, the heater are circle Tubular, the end of heater second are run through the wall of said vesse first end, stretched into inside said vesse, and extend proximate to described The position of the end wall surface of container second, the rotation axes of symmetry of the heater and the rotational symmetry overlapping of axles of said vesse；Coil, the line Circle is entwined along the outer side surface of said vesse, the rotation axes of symmetry of the coil and the rotational symmetry overlapping of axles of container；

The water inlet of first above-mentioned electromagnetic heater of water inlet pipe, the water inlet pipe and upstream side connects；

The first end of the heater of last above-mentioned electromagnetic heater in outlet pipe, the outlet pipe and downstream connects；

Except first above-mentioned electromagnetic heater positioned at upstream, the water inlet of other above-mentioned electromagnetic heaters and its upstream The first end connection of the heater of the electromagnetic heater closed on.