CN219640439U - Water pipe heating element and heating system - Google Patents

Abstract

The utility model relates to a water pipe heating assembly and a heating device. The first heat exchange module comprises a first heating module, a first heat exchange coil and a first die casting body; the second heat exchange module comprises a second heating module, a second heat exchange plate and a second die casting body. The first heat exchange module is connected with a solar power supply and is a photovoltaic power supply heating module; the second heat exchange module is connected with the mains supply and is used for alternating current power supply and heating. The heat exchange coil is heated by adopting the two modes, and the heated water flows into the heat dissipation device after flowing through the circulating water pump, so that the heat is transferred to the space to be heated by the heat dissipation device. Compared with the direct heating of the water tank by the heating device, the utility model only heats the water flowing into the heat exchange coil pipe instead of the whole water tank, thereby reducing heat loss and reducing energy consumption.

Description

Water pipe heating element and heating system

Technical Field

The utility model relates to the technical field of water pipe heating, in particular to a water pipe heating assembly and a heating device.

Background

The existing water storage type hot water heating device generally comprises a water storage tank, a heating device, a power supply, a heat dissipation device and a circulating water pump. When heating is needed, the heating module heats the water storage tank to enable the water temperature to rise to a fixed temperature, and hot water flows into the heat dissipation module through the circulating water pump to transfer heat to a space to be heated.

But the heating module is utilized to continuously heat the water tank, so that higher energy consumption can be caused, and the utilization rate of heat energy is lower.

Disclosure of Invention

Therefore, the utility model aims to solve the technical problem of high energy consumption in the prior art of heating the water storage tank by using the heating device.

In order to solve the technical problems, the utility model provides a water pipe heating assembly and a heating device.

In one embodiment of the present utility model, a water tube heating assembly includes:

a first heat exchange module comprising:

at least one set of first heating modules comprising at least one first heating tube;

the first heat exchange coil is wound on the first heat exchange module in a serpentine manner;

a first die casting body poured on the first heating module and the first heat exchange coil, wherein the first die casting body completely covers the overlapped part of the first heating module and the first heat exchange coil, so that the first heating module and the first heat exchange coil form an integral module;

a second heat exchange module comprising:

at least one group of second heating modules comprising at least two second heating pipes;

the second heat exchange coil is wound on the second heat exchange module in a serpentine shape;

a second die casting body poured on the second heating module and the second heat exchange coil, wherein the second die casting body completely covers the overlapped part of the second heating module and the second heat exchange coil, so that the second heating module and the second heat exchange coil form an integral module;

the first heat exchange module is connected with a solar power supply and is a photovoltaic power supply heating module; the second heat exchange module is connected with the mains supply and is an alternating current power supply heating module.

Preferably, two ends of the first heating pipe are provided with guide rods, the first ends of the guide rods extend into the first heating pipe to a fixed position, resistance wires are arranged in the first heating pipe, and two ends of the resistance wires are wound at the first ends of the guide rods.

Preferably, two ends of the second heating pipe are provided with guide rods, the first ends of the guide rods extend into the second heating pipe to a fixed position, resistance wires are arranged in the second heating pipe, and two ends of the resistance wires are wound at the first ends of the guide rods.

Preferably, the water outlet pipe of the first heat exchange coil is connected with the water inlet of the second heat exchange coil, so that the first heat exchange module is in waterway communication with the second heat exchange module.

Preferably, the maximum heating power of the first heating pipe is smaller than the maximum heating power of the second heating pipe.

Preferably, the heating power of the first heating pipe is 8-10Kw, and the heating power of the second heating pipe is 12-24Kw.

Preferably, the first end and the second end of the first heating module are respectively provided with a terminal plate, and the terminal plates at the second end of the first heating module are commonly connected, so that the first heating module has selectable heating power.

Preferably, the first end and the second end of the second heating module are respectively provided with a terminal plate, and the terminal plates at the second end of the second heating module are commonly connected, so that the second heating module has selectable heating power.

In another embodiment of the utility model, a heating apparatus includes at least one heat dissipating assembly, a circulating water pump, a power module, and a hot water pipe heating assembly of any of the above.

Preferably, the heat dissipation module is disposed in a space to be heated, at least one heat conduction water pipe is disposed in the heat dissipation module, the heat conduction water pipe is uniformly distributed in the heat dissipation module, and a water inlet of the heat dissipation module is connected with a water outlet of the water pipe heating assembly.

Compared with the prior art, the technical scheme of the utility model has the following advantages:

the heating assembly and the heating device are used for supplying power to heat the heat exchange coil pipe through a solar power supply and an alternating current commercial power supply, and heated water flows into the heat dissipation device after passing through the circulating water pump, and the heat dissipation device is used for transferring heat to a space to be heated. Compared with the direct heating of the water tank by using the heating device, the utility model only heats the water flowing through the heat exchange coil pipe instead of the whole water tank, thereby reducing heat loss and reducing energy consumption.

Drawings

In order that the utility model may be more readily understood, a more particular description of the utility model will be rendered by reference to specific embodiments thereof that are illustrated in the appended drawings, in which

Fig. 1 is a front view structural diagram of a first heat exchange module of the present utility model.

Fig. 2 is a side view structural diagram of a first heat exchange module of the present utility model.

Fig. 3 is a front view of the first heat exchange module of the present utility model after casting.

Fig. 4 is a side view structural diagram of the first heat exchange module of the present utility model after casting.

Fig. 5 is a front view structural diagram of a second heat exchange module of the present utility model.

Fig. 6 is a front view of the construction of the second heat exchange module of the present utility model after casting.

Fig. 7 is a front view of the heat dissipating module of the present utility model.

Description of the specification reference numerals: 1. a first heating module; 2. a first heat exchange coil; 3. a first die-cast body; 4. a second heating module; 5. a second heat exchange coil; 6. a second die-cast body; 7. a guide bar; 8. a terminal plate; 9. a heat dissipation module; 101. a first heating pipe; 401. a second heating pipe; 901. and a heat conducting water pipe.

Detailed Description

The present utility model will be further described with reference to the accompanying drawings and specific examples, which are not intended to be limiting, so that those skilled in the art will better understand the utility model and practice it.

Referring to fig. 1-6, a water tube heating assembly of the present utility model includes:

a first heat exchange module comprising:

at least one set of first heating modules 1 comprising at least one first heating tube 101;

the first heat exchange coil pipe 2 is wound on the first heat exchange module in a serpentine shape;

the first die casting body 3 is poured on the first heating module 1 and the first heat exchange coil pipe 2, the first die casting body 3 completely covers the overlapped part of the first heating module 1 and the first heat exchange coil pipe 2, so that the first heating module 1 and the first heat exchange coil pipe 2 form an integral module, at least two groups of screw posts are arranged on the first surface of the first die casting body, and the screw posts are respectively connected with the temperature control device and the temperature limiting device;

a second heat exchange module comprising:

at least one set of second heating modules 4 comprising at least one second heating tube 401;

a second heat exchange coil 5, which is wound on the second heat exchange module 4 in a serpentine shape;

the second die casting body 6 is poured on the second heating module 4 and the second heat exchange coil 5, the second die casting body 6 completely covers the overlapped part of the second heating module 4 and the second heat exchange coil 5, so that the second heating module 4 and the second heat exchange coil 5 form an integral module, at least two groups of screw posts are arranged on the first surface of the first die casting body, and the screw posts are respectively connected with the temperature control device and the temperature limiting device;

the first heat exchange module is connected with a solar power supply and is a photovoltaic power supply heating module, and the second heat exchange module is connected with a commercial power and is an alternating current power supply heating module.

Further, two ends of the first heating pipe 101 are provided with guide rods 7, the first ends of the guide rods 7 extend into the first heating pipe 101 to a fixed position, resistance wires are arranged inside the first heating pipe 101, two ends of each resistance wire are wound on the first ends of the guide rods 7, and the inside of the first heating pipe 101 is filled with heat conducting magnesium powder.

Further, two ends of the second heating pipe 401 are both provided with a guiding rod 7, a first end of the guiding rod 7 stretches into the second heating pipe 401 to a fixed position, a resistance wire is arranged inside the second heating pipe 401, two ends of the resistance wire are wound on the first end of the guiding rod 7, and the inside of the second heating pipe 401 is filled with heat conducting magnesium powder.

Further, the water outlet pipe of the first heat exchange coil pipe 2 is connected with the water inlet of the second heat exchange coil pipe 5, so that the first heat exchange module is in waterway communication with the second heat exchange module.

Further, the maximum heating power of the first heat exchange module 1 is smaller than the maximum heating power of the second heat exchange module 4.

Further, the heating power of the first heat exchange module 1 is 8-10Kw, and the heating power of the second heat exchange module 4 is 12-24Kw.

Further, the first end and the second end of the first heating module 1 are respectively provided with a terminal plate 8, and the terminal plates 8 at the second end of the first heating module 1 are commonly connected, so that the first heating module 1 has selectable heating power. If the temperature of the heating assembly is required to quickly rise, the terminal piece 8 at the second end of the first heating module 1 can be connected to the power module; if it is desired to control the temperature ramp rate of the heating assembly, one or more sets of first end terminal strips 8 may be selectively connected to the power module.

Further, the first end and the second end of the second heating module 4 are respectively provided with a terminal plate 8, and the terminal plates 8 at the second end of the second heating module 4 are commonly connected, so that the second heating module 4 has selectable heating power. If the temperature of the heating assembly is required to quickly rise, the terminal piece 8 at the second end of the second heating module 2 can be connected to the power module; if it is desired to control the temperature ramp rate of the heating assembly, one or more sets of first end terminal strips 8 may be selectively connected to the power module.

In an alternative embodiment, a heating apparatus includes at least one heat dissipating assembly, a circulating water pump, a power module, and a water line heating assembly of any of the above.

Further, referring to fig. 7, the heat dissipation module 9 is disposed in a space to be heated, at least one heat conduction water pipe 901 is disposed in the heat dissipation module, the heat conduction water pipe is uniformly distributed in the heat dissipation module, and a water inlet of the heat dissipation module is connected with a water outlet of the water pipe heating assembly.

When heating is needed, the power supply module is connected, at this time, the first heating module 1 and the second heating module 4 respectively convert electric energy into heat energy, and the heat energy is respectively transferred to the first heat exchange coil 2 and the second heat exchange coil 5, so that water in the heat exchange coils is heated, and after flowing through the circulating water pump, the hot water flows into the heat dissipation device 9, and the heat is transferred to a space to be heated by the heat dissipation device 9.

It is apparent that the above examples are given by way of illustration only and are not limiting of the embodiments. Other variations and modifications of the present utility model will be apparent to those of ordinary skill in the art in light of the foregoing description. It is not necessary here nor is it exhaustive of all embodiments. And obvious variations or modifications thereof are contemplated as falling within the scope of the present utility model.

Claims (10)

1. A water tube heating assembly, characterized in that:

a first heat exchange module comprising:

at least one set of first heating modules comprising at least one first heating tube;

the first heat exchange coil is wound on the first heat exchange module in a serpentine manner;

the first die casting body is poured on the first heating module and the first heat exchange coil, and the first die casting body completely covers the overlapped part of the first heating module and the first heat exchange coil, so that the first heating module and the first heat exchange coil form an integral module;

a second heat exchange module comprising:

at least one set of second heating modules comprising at least one second heating tube;

the second heat exchange coil is wound on the second heat exchange module in a serpentine shape;

the second die casting body is poured on the second heating module and the second heat exchange coil, and the second die casting body completely covers the overlapping part of the second heating module and the second heat exchange coil, so that the second heating module and the second heat exchange coil form an integral module;

the first heat exchange module is connected with a solar power supply and is a photovoltaic power supply heating module; the second heat exchange module is connected with the mains supply and is an alternating current power supply heating module.

2. A water tube heating assembly as set forth in claim 1 wherein: the electric resistance heating device is characterized in that guide rods are arranged at two ends of the first heating pipe, the first ends of the guide rods extend into the first heating pipe to a fixed position, resistance wires are arranged inside the first heating pipe, and two ends of the resistance wires are wound at the first ends of the guide rods.

3. A water tube heating assembly as set forth in claim 1 wherein: the two ends of the second heating pipe are respectively provided with a guide rod, the first ends of the guide rods extend into the second heating pipe to a fixed position, resistance wires are arranged in the second heating pipe, and the two ends of the resistance wires are wound at the first ends of the guide rods.

4. A water tube heating assembly as set forth in claim 1 wherein: the water outlet pipe of the first heat exchange coil is connected with the water inlet of the second heat exchange coil, so that the first heat exchange module is communicated with the water channel of the second heat exchange module.

5. A water tube heating assembly as set forth in claim 1 wherein: the maximum heating power of the first heating pipe is smaller than that of the second heating pipe.

6. A water tube heating assembly as set forth in claim 3 wherein: the heating power of the first heating pipe is 8-10Kw, and the heating power of the second heating pipe is 12-24Kw.

7. A water tube heating assembly as set forth in claim 1 wherein: the first end and the second end of the first heating module are respectively provided with a terminal plate, and the terminal plates at the second end of the first heating module are connected together, so that the first heating module has selectable heating power.

8. A water tube heating assembly as set forth in claim 1 wherein: the first end and the second end of the second heating module are respectively provided with a terminal plate, and the terminal plates at the second end of the second heating module are connected together, so that the second heating module has selectable heating power.

9. A heating apparatus, characterized in that: comprising at least one heat-dissipating assembly, a circulating water pump, a power module and a water pipe heating assembly according to any one of claims 1 to 8.

10. A heating apparatus according to claim 9, wherein: the heat dissipation assembly is arranged in a space to be heated, at least one heat conduction water pipe is arranged in the heat dissipation assembly, the heat conduction water pipes are uniformly distributed in the heat dissipation assembly, and a water inlet of the heat dissipation assembly is connected with a water outlet of the water pipe heating assembly.