CN215175962U - Energy-saving heater - Google Patents

Abstract

The utility model provides an energy-saving heater, including shell, first pipeline, second pipeline and multiunit heating element, multiunit heating element all is parallel with first pipeline and around first pipeline circumference equipartition, is equipped with on the second pipeline and encircles the chamber, and first pipeline and multiunit heating element all partially accept in encircles the intracavity, and second pipeline head and the tail both ends all switch on with first pipeline, and first pipeline, second pipeline and multiunit heating element all fix and accept in the shell, and multiunit heating element both ends all stand out outside the shell; when heating water, multiunit heating element generates heat simultaneously, with the water heating in the first pipeline, then the second pipeline is then with the water ring after the part heating around wrapping up first pipeline and multiunit heating element to the circulation flows, has played the effect of an absorption waste heat promptly for hydrothermal heated area grow has reduced heating element and has outwards lost the heat at the during operation, and then reduces energy resource consumption.

Description

Energy-saving heater

Technical Field

The utility model belongs to the technical field of the firing equipment technique and specifically relates to an energy-saving heater.

Background

With the continuous development of industrial production and the increasing living standard of people, the technical requirements on heating equipment used for heating and water circulation devices and the like are higher and higher.

Current heater generally is die-casting aluminium and water pipe and heating tube integrated into one piece structure, and the heating tube is then buried between main water pipe and spiral pipe, when the heating, the heating tube generates heat and transmits the heat to the water pipe through die-casting aluminium, at this moment, the die-casting aluminium temperature that uses the heating tube as the center then can reduce along with the distance of keeping away from the center, it is inhomogeneous then to be heated to be in the peripheral water pipe of heating tube, and simultaneously, die-casting aluminium outlying heat is also at the loss, and the heat of loss then can compensate by the electric energy, be unfavorable for the energy saving.

For this reason, it is necessary to provide an energy-saving heater to solve the above problems.

SUMMERY OF THE UTILITY MODEL

In order to solve the above problems, the present invention provides an energy saving heater to solve the above problems.

The utility model discloses a following technical scheme realizes:

the utility model provides an energy-saving heater, including shell, first pipeline, second pipeline and multiunit heating element, the multiunit heating element all with first pipeline is parallel and centers on first pipeline circumference equipartition, be equipped with on the second pipeline and encircle the chamber, first pipeline and multiunit heating element all part accept in encircle the intracavity, second pipeline head and the tail both ends all with first pipeline switches on, first pipeline second pipeline and multiunit heating element all fixes accept in the shell, the multiunit heating element both ends all outstanding in outside the shell.

Further, the first pipeline is a straight pipe.

Further, the second pipeline is a spiral pipe.

Furthermore, a first interface is arranged on the first pipeline, a second interface is arranged on the second pipeline, and the first interface is connected with and conducted with the second interface.

Furthermore, a third interface is arranged on the first pipeline, the third interface is far away from the first interface, a fourth interface is arranged on the second pipeline, the fourth interface is far away from the second interface, and the third interface is connected with the fourth interface and is conducted.

Furthermore, the heating assembly comprises a plurality of heating tubes, and the plurality of heating tubes are arranged in sequence.

Further, the shell is provided with an installation position for installing external temperature control switch light.

Furthermore, the shell, the first pipeline, the second pipeline and the multiple groups of heating assemblies are all integrally formed structures.

The utility model has the advantages that:

the utility model provides an energy-saving heater, including shell, first pipeline, second pipeline and multiunit heating element, multiunit heating element all is parallel with first pipeline and around first pipeline circumference equipartition, is equipped with on the second pipeline and encircles the chamber, and first pipeline and multiunit heating element all partially accept in encircles the intracavity, and second pipeline head and the tail both ends all switch on with first pipeline, and first pipeline, second pipeline and multiunit heating element all fix and accept in the shell, and multiunit heating element both ends all stand out outside the shell; when heating water, multiunit heating element generates heat simultaneously, with the water heating in the first pipeline, then the second pipeline is then with the water ring after the part heating around wrapping up first pipeline and multiunit heating element to the circulation flows, has played the effect of an absorption waste heat promptly for hydrothermal heated area grow has reduced heating element and has outwards lost the heat at the during operation, and then reduces energy resource consumption.

Drawings

Fig. 1 is an exploded view of an energy-saving heater according to the present invention;

fig. 2 is a cross-sectional view of the energy-saving heater provided by the present invention;

fig. 3 is an overall schematic view of the energy-saving heater provided by the present invention;

fig. 4 is an overall schematic view of the energy-saving heater according to the present invention after the outer shell is removed.

Detailed Description

For a more clear and complete description of the technical solution of the present invention, the following description is made with reference to the accompanying drawings.

Referring to fig. 1-4, the present invention provides an energy-saving heater, which includes a housing 1, a first pipeline 2, a second pipeline 3 and a plurality of groups of heating assemblies 4, wherein the groups of heating assemblies 4 are all parallel to the first pipeline 2 and are circumferentially and uniformly distributed around the first pipeline 2, a surrounding cavity 31 is provided on the second pipeline 3, the first pipeline 2 and the groups of heating assemblies 4 are all partially accommodated in the surrounding cavity 31, the head and tail ends of the second pipeline 3 are all connected with the first pipeline 2, the second pipeline 3 and the groups of heating assemblies 4 are all fixedly accommodated in the housing 1, and the two ends of the groups of heating assemblies 4 are all protruded out of the housing 1; the first pipeline 2 is provided with a first interface 21, the second pipeline 3 is provided with a second interface 32, and the first interface 21 is connected and communicated with the second interface 32; the first pipeline 2 is provided with a third interface 22, the third interface 22 is far away from the first interface 21, the second pipeline 3 is provided with a fourth interface 33, the fourth interface 33 is far away from the second interface 32, and the third interface 22 is connected with and communicated with the fourth interface 33.

In the present embodiment:

the shell 1 is die-cast aluminum, and shell 1 and first pipeline 2, second pipeline 3 and multiunit heating element 4 are the integrated into one piece structure, and the integrated into one piece structure makes and does not have the space between heating element 4 and first pipeline 2 and the second pipeline 3, and aluminum alloy's heat conduction effect is good, has increased heat-conduction effectively.

The first pipeline 2 is a straight pipe, the straight pipe reduces the resistance of water circulation, reduces the generation of scale and can quickly take away heat;

the first interface 21 is used for providing a flowing water interface for the first pipeline 2 to be connected with the second pipeline 3;

the third port 22 is used for providing a flowing water port for the first pipeline 2 to be connected with the second pipeline 3;

the second pipeline 3 is a spiral pipe, and the second pipeline 3 is spirally wound around the periphery of the plurality of groups of heating assemblies 4, so that the heat dissipation efficiency of the energy-saving heater is effectively reduced;

the surrounding cavity 31 is used for providing a placing space for the first pipeline 2 and the plurality of groups of heating assemblies 4, and when the shell 1 is subjected to die-casting, the surrounding cavity 31 is filled with die-casting aluminum alloy;

the second port 32 is used to provide a structure for the second pipe 3 to be connected to the first pipe 2;

the fourth port 33 is used to provide a structure for the second pipe 3 to be connected to the first pipe 2;

the heating components 4 are 3 groups in total and are all used for heating the first pipeline 1;

specifically, when water is heated, the multiple groups of heating assemblies 4 simultaneously generate heat to heat the water in the first pipeline 2, then the second pipeline 3 surrounds and wraps the first pipeline 2 and the multiple groups of heating assemblies 4 with part of the heated water, and the heated water circularly flows, namely the second pipeline 3 plays a role in absorbing waste heat, so that the heated area of the hot water is enlarged, the heat loss of the heating assemblies 4 to the outside during working is reduced, and the energy consumption is further reduced;

to sum up, the energy-saving heater can improve the heating efficiency of hot water and reduce energy consumption at the same time.

Further, the heating assembly 4 includes a plurality of heating tubes 41, and the plurality of heating tubes 41 are arranged in sequence.

In the present embodiment:

the heating tubes 41 in one group of heating assemblies 4 are 4 in total.

Further, the housing 1 is provided with a mounting location 11 for mounting an external temperature controlled switching light.

In the present embodiment:

the mounting position 11 is used for providing a mounting and fixing position for an external temperature control switch.

Of course, the present invention can also have other various embodiments, and based on the embodiments, those skilled in the art can obtain other embodiments without any creative work, and all of them belong to the protection scope of the present invention.

Claims (8)

1. The utility model provides an energy-saving heater, its characterized in that includes shell, first pipeline, second pipeline and multiunit heating element, the multiunit heating element all with first pipeline parallel and around first pipeline circumference equipartition, be equipped with on the second pipeline and encircle the chamber, first pipeline and multiunit heating element all part accept in encircle the intracavity, second pipeline head and the tail both ends all with first pipeline switches on, first pipeline, second pipeline and multiunit heating element all fixed accept in the shell, multiunit heating element both ends all outstanding outside the shell.

2. The economizer heater of claim 1 wherein the first conduit is a straight conduit.

3. The economizer heater of claim 1 wherein the second conduit is a threaded tube.

4. The energy-saving heater according to claim 1, wherein a first connector is disposed on the first pipe, a second connector is disposed on the second pipe, and the first connector is connected to and conducted with the second connector.

5. The energy-saving heater according to claim 4, wherein a third port is disposed on the first pipe, the third port is far from the first port, a fourth port is disposed on the second pipe, the fourth port is far from the second port, and the third port is connected to and conducted with the fourth port.

6. The economizer heater of claim 1 wherein the heating assembly comprises a plurality of heating tubes, the plurality of heating tubes being arranged in series.

7. The economizer heater of claim 1 wherein the housing is provided with mounting locations for mounting external temperature controlled switching lights.

8. The economizer heater of claim 1 wherein the housing is of unitary construction with the first conduit, the second conduit and the plurality of sets of heating elements.

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