CN209978348U - Far infrared light wave heating wall-mounted furnace - Google Patents

Abstract

A far infrared light wave heating wall hanging stove, a light wave heating device, including far infrared heating assembly, heating water tank and its water inlet, water outlet, the far infrared heating assembly is set in the heating water tank, the water inlet, water outlet communicate with water route of the far infrared heating assembly each other separately, the far infrared heating assembly includes more than one heating inner containers, there is far infrared heating pipe in each heating inner container, there is a joint pipe between each heating inner container, so as to make the water route between each heating inner container communicate each other, heating inner container and joint pipe each other are threaded connection, or weld; or the heating inner container and the connecting pipe are mutually spliced. The utility model discloses a be provided with far infrared heating element in heating water tank, cold water gets into heating water tank back in, and cold water and the mutual contact in the far infrared heating element outside, and cold water preheats after passing through the heat transfer, and cold water reenters far infrared heating element after preheating, reduces cold water heating time to reach energy-conserving effect.

Description

Far infrared light wave heating wall-mounted furnace

Technical Field

The utility model relates to a household appliance, in particular to a far infrared light wave heating wall-mounted furnace.

Background

Chinese patent No. CN108954835A to 2018.12.07 discloses a water tank device heated by light waves, which is formed by welding three or more metal independent water tanks after being processed by metal pipes, wherein water flows through the heating water tanks in sequence through metal pipes or multiple loops to be heated and then flows out, and the light wave pipe is a heating body of the water tank. Water enters the metal heating water tank from the metal pipeline for heating, then enters the metal heating water tank for heating through the metal pipeline, and finally enters the ground heating pipeline or the hot water pipeline through the metal pipeline. The metal pipe is formed by welding and combining after being processed, and the assembly efficiency is low. And thus, is in need of further improvement.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a simple structure is reasonable, and the cost of manufacture is lower, and the installation is nimble swift, and it is long effectively to solve hanging stove hot water heating time to and the problem that heating device assembly efficiency is low, improve the far infrared light wave heating hanging stove of hanging stove performance, in order to overcome the weak point among the prior art.

The light wave heating device comprises a far infrared heating component, a heating water tank, a water inlet and a water outlet of the heating water tank, wherein the far infrared heating component is sleeved in the heating water tank, the water inlet and the water outlet are respectively communicated with a water path of the far infrared heating component, the far infrared heating component comprises more than one heating inner container, a far infrared heating pipe is arranged in each heating inner container, a connecting pipe is arranged between the heating inner containers, so that the water paths between the heating inner containers are mutually communicated, and the heating inner containers and the connecting pipes are mutually in threaded connection or welded; or the heating inner container and the connecting pipe are mutually spliced. When the far infrared heating pipe works to generate heat, the heat of the far infrared heating pipe is radiated to the side wall of the heating inner container to cause the outer side of the heating inner container to generate heat, and when cold water sequentially enters the water inlet of the heating water tank and the far infrared heating assembly, the cold water flows out through the water outlet; before cold water enters the far infrared heating assembly, the cold water is contacted with the outer side of the far infrared heating assembly, and the cold water is preheated before being heated; the heating time of cold water is reduced, and the energy-saving effect is achieved.

The heating inner bag is including heating inner bag part A, and the water inlet setting is on heating water tank's side, and heating inner bag part A one side is provided with the cold water inlet, and cold water inlet one end is connected with the inlet tube, and the cold water inlet communicates each other through inlet tube and water inlet to make cold water get into in the heating inner bag part A. One end of the water inlet pipe extends to the top end close to the heating water tank, and cold water is effectively preheated before entering the water inlet pipe, so that the cold water preheating time is prolonged. The water inlet pipe is inserted into the heating inner container part A in a penetrating way.

The heating inner container also comprises a heating inner container part B which is mutually connected with the heating inner container part A, the other side of the heating inner container part A is provided with a heating water outlet, one side of the heating inner container part B is provided with a heating water inlet, and a connecting pipe is connected between the heating water outlet and the heating water inlet so as to mutually communicate the water paths between the heating inner container part A and the heating inner container part B; the heating inner container part B is also provided with a connecting end, and the water inlet pipe is inserted into the connecting end and is inserted into the heating inner container part B through the connecting end. After being heated in the heating inner container component A, the cold water enters the heating inner container component B and is heated. Cold water enters the heating inner container part A through the water inlet pipe, and the water inlet pipe sequentially penetrates through the heating inner container part B and the heating inner container part A. More than one heating water outlet and one heating water inlet are respectively arranged.

The heating water tank further comprises a water outlet arranged on one side of the heating water tank, a hot water outlet is arranged on the other side of the heating inner container component B, a connecting pipe is connected between the hot water outlet and the water outlet, and the hot water outlet and the water outlet are communicated with each other. After the cold water is heated into hot water, the hot water outlet of the inner container part B is heated, and finally the hot water flows out through the water outlet of the heating water tank. The heating inner container parts B are more than one, and each heating inner container part B is mutually connected through a connecting pipeline, so that the water ways between each heating inner container part B are mutually communicated.

The wall-mounted furnace designed according to the purpose comprises an outer box and the light wave heating device, wherein the heating water tank is arranged in the outer box, a hot water opening and a cold water opening are formed in the side surface of the outer box, and a connecting pipe is connected between the hot water opening and the water outlet; a connecting pipe is connected between the cold water inlet and the water inlet so as to enable the water paths between the outer box and the heating water tank to be mutually communicated; or the far infrared heating component also comprises a shell, the shell is sleeved in the outer box, the far infrared heating pipe is sleeved in the shell, the upper end and the lower end of the shell are respectively provided with an upper sealing piece and a lower sealing piece, one side of the upper sealing piece is provided with a hot water outlet end, and one side of the lower sealing piece is provided with a cold water inlet end; the hot water outlet end is communicated with the hot water port; the cold water inlet end and the cold water port are communicated with each other.

An upper connecting port for connecting a pipeline is arranged on the other side of the upper sealing piece; the other side of the lower sealing piece is provided with a lower connecting port for connecting a pipeline; the upper connecting port is communicated with the hot water outlet end; the lower connecting port is communicated with the cold water inlet end.

The infrared heating device is characterized by further comprising a main control board arranged on one side in the outer box, and the main control board is electrically connected with the far infrared heating component in the heating water tank.

Still including setting up the water pump in the outer container, water pump and main control board are each other to be connected electrically.

Still including setting up the expansion tank in the outer container, expansion tank one end is connected with the water pipe, water pipe one end and water pump interconnect, and the circulating water route of outer container leads to pipe and expansion tank intercommunication each other. The inside of expansion tank is divided into two, and half dress water, half dress nitrogen gas, when the temperature rose, its pressure also can follow the rising, and the effect of nitrogen gas is the pressure that consumes its temperature variation and produce among the expansion tank. The expansion tank is communicated with the circulating water path through a water pipe, the pressure of the expansion tank can rise along with the rise of the water temperature, and the expansion tank is used for consuming the pressure generated by the temperature change of the expansion tank.

The utility model discloses a be provided with far infrared heating element in heating water tank, cold water gets into heating water tank back in, and cold water and the mutual contact in the far infrared heating element outside, and cold water preheats after passing through the heat transfer, and cold water reenters far infrared heating element after preheating, reduces cold water heating time to reach energy-conserving effect.

Drawings

Fig. 1 is a schematic structural view of a light wave heating device according to a first embodiment of the present invention.

Fig. 2 is a schematic structural view of a heating liner according to a first embodiment of the present invention.

Fig. 3 is a schematic structural view of a heating water tank according to a first embodiment of the present invention.

Fig. 4 is a schematic view of the outer box structure of the wall-hanging stove according to the first embodiment of the present invention.

Fig. 5 is a schematic structural view of a far infrared heating assembly according to a second embodiment of the present invention.

Fig. 6 is a schematic view of another orientation structure of a far infrared heating assembly according to a second embodiment of the present invention.

Fig. 7 is a schematic view of an outer box structure of a wall-hanging stove according to a second embodiment of the present invention.

In the figure, 1 is a heating water tank, 1.1 is a water inlet 1.1, 1.2 is a water outlet, 1.3 is a positioning boss, 2 is a heating inner container, 2.1 is a heating inner container part a, 2.2 is a cold water inlet, 2.3 is a heating water outlet, 2.4 is a heating inner container part B, 2.5 is a heating water inlet, 2.6 is a hot water outlet, 2.7 is a connecting end, 3 is a far infrared heating pipe, 4 is a connecting pipe, 5 is a water inlet pipe, 6 is an outer container, 6.1 is a hot water port, 6.2 is a cold water port, 6.3 is a main control board, 6.4 is a water pump, 6.5 is an expansion water tank, 7 is a water pipe, 8 is a housing, 8.1 is an upper sealing member, 8.2 is a lower sealing member, 8.3 is a hot water outlet, 8.4 is a cold water inlet, 8.5 is an upper connecting port, and 8.6 is.

Detailed Description

The present invention will be further described with reference to the accompanying drawings and examples.

First embodiment

Referring to fig. 1-4, a light wave heating device comprises a far infrared heating assembly, a heating water tank 1, a water inlet 1.1 and a water outlet 1.2, wherein the far infrared heating assembly is sleeved in the heating water tank 1, the water inlet 1.1 and the water outlet 1.2 are respectively communicated with a water path of the far infrared heating assembly, the far infrared heating assembly comprises more than one heating inner containers 2, a far infrared heating pipe 3 is arranged in each heating inner container 2, a connecting pipe 4 is arranged between each heating inner container 2 so as to enable the water path between each heating inner container 2 to be communicated with each other, and the heating inner containers 2 and the connecting pipe 4 are in threaded connection or welded connection with each other; or the heating inner container 2 and the connecting pipe 4 are mutually inserted. A connector of an elbow is arranged between the heating inner container 2 and the connecting pipe 4 so as to connect the heating inner container 2 and the connecting pipe 4 with each other. The far infrared heating assembly of this embodiment is provided with a hot inner container part a 2.1 and two heating inner container parts B2.4.

Further, the heating inner container 2 comprises a heating inner container part A2.1, the water inlet 1.1 is arranged on the side surface of the heating water tank 1, a cold water inlet 2.2 is arranged on one side of the heating inner container part A2.1, one end of the cold water inlet 2.2 is connected with a water inlet pipe 5, and the cold water inlet 2.2 is communicated with the water inlet 1.1 through the water inlet pipe 5, so that cold water enters the heating inner container part A2.1. A positioning boss 1.3 is arranged in the heating water tank 1, the positioning boss 1.3 is internally of a concave structure, and the heating inner container 2 is positioned in the positioning boss 1.3. Or a positioning lug is arranged in the heating water tank 1, a limiting block is arranged on the outer side of the heating inner container 2, the limiting block and the positioning lug are matched with each other, and the limiting block and the positioning lug are in threaded connection with each other. The cold water flows as indicated by the arrows in figure 1.

Furthermore, the heating liner 2 further comprises a heating liner component B2.4 which is mutually connected with the heating liner component A2.1, the other side of the heating liner component A2.1 is provided with a heating water outlet 2.3, one side of the heating liner component B2.4 is provided with a heating water inlet 2.5, and a connecting pipe 4 is connected between the heating water outlet 2.3 and the heating water inlet 2.5, so that water paths between the heating liner component A2.1 and the heating liner component B2.4 are mutually communicated; the heating inner container part B2.4 is also provided with a connecting end 2.7, and the water inlet pipe 5 is inserted into the connecting end 2.7 and is inserted into the heating inner container part B2.4 through the connecting end 2.7.

Further, the heating water tank further comprises a water outlet 1.2 arranged on one side of the heating water tank 1, a hot water outlet 2.6 is arranged on the other side of the heating inner container component B2.4, a connecting pipe 4 is connected between the hot water outlet 2.6 and the water outlet 1.2, and the hot water outlet 2.6 is communicated with the water outlet 1.2.

Referring to fig. 4, the wall-mounted boiler comprises an outer box 6 and the light wave heating device, wherein a heating water tank 1 is arranged in the outer box 6, a hot water port 6.1 and a cold water port 6.2 are arranged on the side surface of the outer box 6, a connecting pipe 4 is connected between the hot water port 6.1 and a water outlet 1.2, and the connecting pipe 4 penetrates through the hot water port 6.1 and the water outlet 1.2; in addition, a connecting pipe 4 is connected between the cold water opening 6.2 and the water inlet 1.1, and the connecting pipe 4 penetrates through the cold water opening 6.2 and the water inlet 1.1, so that a water path between the outer box 6 and the heating water tank 1 is communicated with each other.

Further, still including setting up main control panel 6.3 in outer container 6 one side, main control panel 6.3 and the far infrared heating element in the heating water tank 1 are each other to be connected electrically.

Further, still include the water pump 6.4 of setting in outer case 6, water pump 6.4 and main control board 6.3 are each other to be connected electrically.

Further say, still including setting up expansion tank 6.5 in outer container 6, expansion tank 6.5 one end is connected with water pipe 7, and water pipe 7 one end and water pump 6.4 interconnect, and the circulating water route of outer container 6 leads to pipe and expansion tank 6.5 intercommunication each other.

Second embodiment

Referring to fig. 5 and 7, a wall-hanging stove is different from the first embodiment in that: the far infrared heating assembly further comprises a shell 8, the shell 8 is sleeved in the outer box 6, the far infrared heating pipe 3 is sleeved in the shell 8, an upper sealing piece 8.1 and a lower sealing piece 8.2 are respectively arranged at the upper end and the lower end of the shell 8, a hot water outlet end 8.3 is arranged at one side of the upper sealing piece 8.1, and a cold water inlet end 8.4 is arranged at one side of the lower sealing piece 8.2; the hot water outlet end 8.3 is communicated with the hot water port 6.1; the cold water inlet end 8.4 is communicated with the cold water port 6.2. Cold water directly enters the far infrared heating component for heating, and a preheating mode is cancelled. The cold water flow is shown by the arrows in figure 7. Or, a plurality of shells 8 with the far infrared heating pipes 3 are sleeved in the outer box 6, each shell 8 is connected with each other, and the water paths of each shell 8 are communicated with each other. The outer box 6 of this embodiment is provided with an outer casing 8 with a far infrared heating tube 3.

Furthermore, an upper connecting port 8.5 for connecting a pipeline is arranged at the other side of the upper sealing member 8.1; the other side of the lower sealing piece 8.2 is provided with a lower connecting port 8.6 for connecting a pipeline; the upper connecting port 8.5 is communicated with a hot water outlet end 8.3; the lower connecting port 8.6 is communicated with the cold water inlet end 8.4. The upper connector 8.5 and the lower connector 8.6 are both used for connecting electric heating equipment with larger heating power.

Further, an upper sealing member 8.1 and a lower sealing member 8.2 are fixed to the upper and lower ends of the outer shell of the heating inner container 2 by screws, respectively.

Other parts not described are the same as those of the first embodiment, and are not described in detail here.

The foregoing is a preferred embodiment of the present invention showing and describing the basic principles, main features and advantages of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are intended to illustrate the principles of the invention, and that various changes and modifications may be made without departing from the spirit and scope of the invention, and the scope of the invention is to be protected. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (9)

1. A light wave heating device comprises a far infrared heating assembly, a heating water tank (1), a water inlet (1.1) and a water outlet (1.2) of the heating water tank, and is characterized in that the far infrared heating assembly is sleeved in the heating water tank (1), the water inlet (1.1) and the water outlet (1.2) are respectively communicated with a water path of the far infrared heating assembly, the far infrared heating assembly comprises more than one heating inner container (2), a far infrared heating pipe (3) is arranged in each heating inner container (2), a connecting pipe (4) is arranged between each heating inner container (2) so that the water paths between each heating inner container (2) are communicated with each other, and the heating inner containers (2) and the connecting pipes (4) are in threaded connection or welded connection with each other; or the heating inner container (2) and the connecting pipe (4) are mutually inserted.

2. The light wave heating device according to claim 1, wherein the heating inner container (2) comprises a heating inner container component A (2.1), the water inlet (1.1) is arranged on the side surface of the heating water tank (1), a cold water inlet (2.2) is arranged on one side of the heating inner container component A (2.1), one end of the cold water inlet (2.2) is connected with a water inlet pipe (5), and the cold water inlet (2.2) is communicated with the water inlet (1.1) through the water inlet pipe (5) so as to enable cold water to enter the heating inner container component A (2.1).

3. The light wave heating device according to claim 2, wherein the heating liner (2) further comprises a heating liner component B (2.4) interconnected with the heating liner component A (2.1), the other side of the heating liner component A (2.1) is provided with a heating water outlet (2.3), one side of the heating liner component B (2.4) is provided with a heating water inlet (2.5), and a connecting pipe (4) is connected between the heating water outlet (2.3) and the heating water inlet (2.5) so as to communicate the water paths between the heating liner component A (2.1) and the heating liner component B (2.4); the heating inner container part B (2.4) is also provided with a connecting end (2.7), and the water inlet pipe (5) is inserted into the connecting end (2.7) and penetrates into the heating inner container part B (2.4) through the connecting end (2.7); the heating inner container parts B are more than one, and all the heating inner container parts B are connected with each other through connecting pipelines.

4. The lightwave heating device according to claim 3, further comprising a water outlet (1.2) disposed at one side of the heating water tank (1), a hot water outlet (2.6) disposed at the other side of the heating inner container component B (2.4), a connecting pipe (4) connected between the hot water outlet (2.6) and the water outlet (1.2), the hot water outlet (2.6) and the water outlet (1.2) being communicated with each other.

5. A wall hanging stove comprises an outer box (6) and the light wave heating device of claim 1, and is characterized in that the heating water tank (1) is arranged in the outer box (6), a hot water opening (6.1) and a cold water opening (6.2) are arranged on the side surface of the outer box (6), and a connecting pipe (4) is connected between the hot water opening (6.1) and the water outlet (1.2); a connecting pipe (4) is connected between the cold water port (6.2) and the water inlet (1.1) so as to enable the water paths between the outer box (6) and the heating water tank (1) to be communicated with each other; or the far infrared heating component also comprises a shell (8), the shell (8) is sleeved in the outer box (6), the far infrared heating pipe (3) is sleeved in the shell (8), the upper end and the lower end of the shell (8) are respectively provided with an upper sealing piece (8.1) and a lower sealing piece (8.2), one side of the upper sealing piece (8.1) is provided with a hot water outlet end (8.3), and one side of the lower sealing piece (8.2) is provided with a cold water inlet end (8.4); the hot water outlet end (8.3) is communicated with the hot water port (6.1); the cold water inlet end (8.4) is communicated with the cold water port (6.2).

6. The lightwave heating device according to claim 5, wherein the other side of the upper sealing member (8.1) is provided with an upper connecting port (8.5) for connecting a pipeline; the other side of the lower sealing piece (8.2) is provided with a lower connecting port (8.6) for connecting a pipeline; the upper connecting port (8.5) is communicated with a hot water outlet end (8.3); the lower connecting port (8.6) is communicated with the cold water inlet end (8.4).

7. The wall hanging stove according to claim 5, characterized in that the wall hanging stove further comprises a main control board (6.3) arranged at one side inside the outer box (6), and the main control board (6.3) and the far infrared heating component inside the heating water tank (1) are electrically connected with each other.

8. The wall hanging stove according to claim 7, characterized by further comprising a water pump (6.4) disposed in the outer box (6), wherein the water pump (6.4) and the main control board (6.3) are electrically connected with each other.

9. The wall hanging stove according to claim 8, characterized in that the wall hanging stove further comprises an expansion water tank (6.5) arranged in the outer box (6), one end of the expansion water tank (6.5) is connected with a water pipe (7), one end of the water pipe (7) is connected with a water pump (6.4), and a circulating water path of the outer box (6) is communicated with the expansion water tank (6.5) through the water pipe.

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