CN218884269U - Wall-mounted furnace - Google Patents

Abstract

The utility model relates to a wall-mounted furnace, which comprises a heating water inlet, a first heat exchange module, a heating water outlet, a gas heating module, a first electric heating module, a main control circuit board and a time detection piece, wherein the heating water inlet is communicated with the inflow end of the gas heating module, the outflow end of the gas heating module is communicated with the inflow end of the electric heating module, the outflow end of the electric heating module is communicated with the inflow end of a first heat exchange pipeline, and the outflow end of the first heat exchange pipeline is communicated with the heating water outlet; the main control circuit board is respectively and electrically connected with the gas heating module, the first electric heating module and the time detection piece, and controls the gas heating module and/or the first electric heating module to perform heating operation according to time information detected by the time detection piece. The technical scheme effectively solves the technical problems that heating noise is generated in the traditional night working process due to combustible gas combustion, fan operation and the like, and the use experience of users is reduced.

Description

Wall-mounted furnace

Technical Field

The utility model relates to a heating technical field especially relates to a hanging stove.

Background

The basic working principle of the heating furnace is that the combustible gas is combusted to heat heating hot water, the hot water circularly flows inside a space to be heated and between the wall-mounted furnaces, the heat of the heating hot water is released to the surrounding space, and heat is provided for a living space.

In the related art, the wall-mounted boiler mostly heats and supplies heat by using combustible gas. When heating night, because combustible gas burning and fan operation can bring certain heating noise in the hanging stove, influence the user and have a rest, reduce user's use and experience and feel.

SUMMERY OF THE UTILITY MODEL

The utility model provides a hanging stove to solve traditional hanging stove and produce the heating noise because combustible gas burning and fan operation etc. in the working process at night, reduce the technical problem that the user used experience and felt.

Therefore, the wall-mounted furnace comprises a heating water inlet, a first heat exchange module, a heating water outlet, a gas heating module, a first electric heating module, a main control circuit board and a time detection piece, wherein the heating water inlet is communicated with the inflow end of the gas heating module; the main control circuit board is respectively and electrically connected with the gas heating module, the first electric heating module and the time detection piece, and controls the gas heating module and/or the first electric heating module to perform heating operation according to time information detected by the time detection piece.

In a possible embodiment, the first electrical heating module comprises:

a heating body having a liquid flow passage;

the inlet end cover is sleeved at the inflow end of the heating body;

and the outlet end cover is sleeved at the outflow end of the heating body.

In one possible embodiment, the first electric heating module further comprises a first seal member disposed between the inlet end cap and the heating body; and/or the presence of a gas in the gas,

the first electric heating module further comprises a second sealing member, and the second sealing member is arranged between the outlet end cover and the heating body.

In one possible embodiment, in the extending direction of the liquid flow passage, the liquid flow passage is in any one of a spiral shape, a curved shape, a wave shape, an arc shape, or a broken line shape; and/or the presence of a gas in the gas,

the heating body is any one of a rare earth thick film heating body, a cast aluminum heating body, a bare wire heating body, a quartz tube heating body, a graphite electrode heating body, a magnetic pole heating body or a PTC heating body.

In a possible implementation manner, the wall-mounted furnace further comprises a first temperature detection piece and a second temperature detection piece, wherein the first temperature detection piece is arranged at the heating water inlet and is used for detecting the temperature at the heating water inlet; the second temperature detection piece is arranged at the heating water outlet and used for detecting the temperature at the heating water outlet.

In a possible embodiment, the wall-mounted boiler further comprises a heating water inlet pipe, a heating water outlet pipe, a bathroom water inlet pipe, a second heat exchange module and a bathroom water outlet pipe, wherein the outflow end of the bathroom water inlet pipe is communicated with the inflow end of the second heat exchange module, and the outflow end of the second heat exchange module is communicated with the inflow end of the bathroom water outlet pipe; the outflow end of the heating water inlet pipeline is communicated with the inflow end of the second heat exchange module, and the outflow end of the second heat exchange module is communicated with the inflow end of the heating water outlet pipeline.

In a possible embodiment, the wall-hanging stove further comprises a second electric heating module, and the second electric heating module is arranged on the bathroom water inlet pipeline.

In a possible embodiment, the wall-hanging stove further includes a third temperature detection element, and the third temperature detection element is disposed on the bathroom outlet pipe and is configured to detect a temperature at the bathroom outlet pipe.

In one possible embodiment, the wall-hanging stove further comprises a water circulating pump connected between the gas heating module and the first electric heating module.

In a possible embodiment, the wall-hanging stove further comprises an expansion tank connected between the heating water inlet and the air heating module.

The wall-mounted furnace comprises a heating water inlet, a first heat exchange module, a heating water outlet, a gas heating module, a first electric heating module, a main control circuit board and a time detection piece, wherein the heating water inlet is communicated with an inflow end of the gas heating module; the main control circuit board is respectively and electrically connected with the gas heating module, the first electric heating module and the time detection piece, and controls the gas heating module and/or the first electric heating module to perform heating operation according to time information detected by the time detection piece. This disclosed technical scheme sets up the concrete structure of hanging stove through optimizing to improve the selection variety of hanging stove heating method, thereby make the hanging stove can select the heating method according to real-time live time, for example, when heating at night, select first electric heating module to heat the heating, so, also adopt gas combustion noise and fan operation noise that the heating of gas heating module brought at night in order to avoid traditional hanging stove. Particularly, configure the hanging stove into the heating water inlet that includes at least, gas heating module, first electric heating module, first heat exchange module, the time detects the piece, the combined member of main control circuit board and heating delivery port, this time detects the real-time live time that the piece is used for detecting the hanging stove, this main control circuit board is used for the heating mode according to real-time live time control hanging stove, thus, with select first electric heating module heating at night, select gas heating module heating at daytime, the heating mode flexibility of hanging stove has been improved, and, because use first electric heating module heating at night, avoided traditional hanging stove and also adopted gas combustion noise and fan operation noise that gas heating module heating brought at night, user's service environment has effectively been optimized, be favorable to improving user experience. In addition, this disclosure is favorable to reducing hanging stove's use cost at night through arranging the at least two kinds of heating modes of gas heating module and first electric heating module to save user's use cost.

Drawings

In order to more clearly illustrate the embodiments or technical solutions in the prior art of the present disclosure, the drawings used in the description of the embodiments or prior art will be briefly described below, and it is obvious for those skilled in the art that other drawings can be obtained according to the drawings without inventive exercise. Further, in the drawings, like parts are denoted by like reference numerals, and the drawings are not drawn to actual scale.

Fig. 1 is a schematic structural view of a wall-hanging stove provided in an embodiment of the present disclosure;

fig. 2 is a schematic structural diagram of a first electrical heating module provided in an embodiment of the present disclosure;

fig. 3 is a schematic structural view of a wall-hanging stove according to another embodiment of the present disclosure.

Description of reference numerals:

101. a heating water inlet; 102. a heating water outlet;

110. a first heat exchange module; 120. a gas heating module; 130. a first electrical heating module; 131. heating the body; 132. an inlet end cap; 133. an outlet end cap; 134. a first seal member; 135. a second seal member; 140. a main control circuit board; 150. a first temperature detection member; 160. a second temperature detection member; 170. a heating water inlet pipeline; 180. a heating water outlet pipeline; 191. a water circulating pump; 192. an expansion tank;

210. a bathroom water inlet pipeline; 220. a second heat exchange module; 230. a bathroom outlet conduit; 240. a second electric heating module; 250. and a third temperature detection member.

Detailed Description

To make the objects, technical solutions and advantages of the embodiments of the present disclosure more clear, the technical solutions of the embodiments of the present disclosure will be described clearly and completely with reference to the drawings in the embodiments of the present disclosure, and it is obvious that the described embodiments are some embodiments of the present disclosure, but not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments disclosed herein without making any creative effort, shall fall within the protection scope of the present disclosure.

Referring to fig. 1, the embodiment of the present disclosure provides a wall-mounted furnace, which includes a heating water inlet 101, a first heat exchange module 110, a heating water outlet 102, a gas heating module 120, a first electric heating module 130, a main control circuit board 140, and a time detection component (not shown in the figure), wherein the heating water inlet 101 is communicated with an inflow end of the gas heating module 120, an outflow end of the gas heating module 120 is communicated with an inflow end of the electric heating module, an outflow end of the electric heating module is communicated with an inflow end of a first heat exchange pipeline, and an outflow end of the first heat exchange pipeline is communicated with the heating water outlet 102; the main control circuit board 140 is electrically connected to the gas heating module 120, the first electric heating module 130, and the time detecting element, respectively, and controls the gas heating module 120 and/or the first electric heating module 130 to perform heating operation according to the time information detected by the time detecting element.

In this embodiment, through the concrete structure of optimizing setting hanging stove to improve hanging stove heating mode's selection variety, thereby make the hanging stove can select the heating mode according to real-time live time, for example, when heating at night, select first electric heating module 130 to heat the heating, so, also adopt gas combustion noise and fan operation noise that gas heating module 120 heating brought at night with avoiding traditional hanging stove.

Specifically, the wall-mounted boiler is configured to be a combined component including at least a heating water inlet 101, a gas heating module 120, a first electric heating module 130, a first heat exchange module 110, a time detection part, a main control circuit board 140 and a heating water outlet 102, wherein the time detection part is used for detecting the real-time service time of the wall-mounted boiler, the main control circuit board 140 is used for controlling a heating mode of the wall-mounted boiler according to the real-time service time, so that the first electric heating module 130 is selected for heating at night, the gas heating module 120 is selected for heating at daytime, the flexibility of the heating mode of the wall-mounted boiler is improved, and the first electric heating module 130 is used for heating at night, so that gas combustion noise and fan operation noise caused by the conventional wall-mounted boiler that also adopts the gas heating module 120 for heating at night are avoided, the service environment of a user is effectively optimized, and the improvement of user experience is facilitated. In addition, the present disclosure is also beneficial to reduce the night use cost of the wall-hanging stove by arranging at least two heating modes of the gas heating module 120 and the first electric heating module 130, thereby saving the use cost of the user.

In one example, the wall-hanging stove further includes a heating water inlet pipe 170 and a heating water outlet pipe 180, wherein the heating water inlet 101, the gas heating module 120 and the first electric heating module 130 are disposed on the heating water inlet pipe 170, and an outflow end of the heating water inlet pipe 170 is communicated with an inflow end of the first heat exchange module 110; the heating water outlet 102 is disposed on a heating water outlet pipe 180, and an inflow end of the heating water outlet pipe 180 is communicated with an outflow end of the first heat exchange module 110. Of course, in still another embodiment, the first electric heating module 130 may be disposed on the heating water outlet pipe.

In one example, the first heat exchange module 110 is a tube and tube heat exchanger. The time detection member is a time sensor.

Referring to fig. 2, in one possible embodiment, the first electrical heating module 130 comprises:

a heating body 131 having a liquid flow passage;

an inlet end cap 132 sleeved on the inflow end of the heating body 131;

and an outlet end cap 133 sleeved on the outflow end of the heating body 131.

In the present embodiment, the specific configuration of the first electric heating module 130 is provided. Specifically, the first electric heating module 130 is configured as a combined member including at least a heating body 131, an inlet end cap 132, and an outlet end cap 133. The inlet end cap 132 has a through liquid inlet channel, the outlet end cap 133 has a through liquid outlet channel, and when the inlet end cap 132 and the outlet end cap 133 are respectively sleeved on the inflow end and the outflow end of the heating body 131, the liquid inlet channel, the liquid flow channel and the liquid outlet channel are communicated to form a through liquid passage.

In one example, to improve the connection tightness between the inlet end cap 132 and the outlet end cap 133 and the heating inlet pipe 170, an external thread is further provided on an outer side wall of one end of the inlet end cap 132 away from the heating body 131, and an external thread is provided on an outer side wall of one end of the outlet end cap 133 away from the heating body 131, so as to achieve a threaded connection with the heating inlet pipe 170 through the external thread.

Referring to fig. 2, in one possible embodiment, the first electric heating module 130 further comprises a first seal 134, the first seal 134 being provided between the inlet end cap 132 and the heating body 131; and/or the presence of a gas in the gas,

the first electric heating module 130 further comprises a second seal 135, the second seal 135 being provided between the outlet end cap 133 and the heating body 131.

In the present embodiment, the specific configuration of the first electric heating module 130 is provided. Specifically, a first sealing member 134 is disposed between the inlet end cover 132 and the heating body 131 to improve the sealing performance of the inlet end cover 132 and the heating body 131 at the connection therebetween, and reduce the heat energy loss. The first sealing element 134 is disposed at an outer side of the inflow end of the heating body 131, and the inlet end cap 132 is disposed at an outer side of the first sealing element 134. For example, but not limiting of, the first seal 134 is a gasket or a silicone gasket.

In one example, a second seal 135 is provided between the outlet end cap 133 and the heating body 131 to improve the sealing performance of the outlet end cap 133 and the heating body 131 at the connection therebetween and reduce the heat energy loss. The second sealing member 135 is sleeved outside the outflow end of the heating body 131, and the outlet end cap 133 is sleeved outside the second sealing member 135. For example, but not limited to, the second seal 135 is a gasket or a silicone gasket.

In one possible embodiment, the liquid flow path has any one of a spiral shape, a curved shape, a wavy shape, an arc shape, or a zigzag shape in an extending direction of the liquid flow path.

In this embodiment, the liquid flow channel of the heating body 131 is configured to extend the flow path of the liquid in the heating body 131, increase the heating time of the liquid in the heating body 131, and improve the heating efficiency of the first electric heating module 130. For example, but not limited to, the liquid flow path shape of the heating body 131 is a spiral shape.

In one possible embodiment, the heating body 131 is any one of a rare earth thick film heating body 131, a cast aluminum heating body 131, a bare wire heating body 131, a quartz tube heating body 131, a graphite electrode heating body 131, a magnetic pole heating body 131, or a PTC heating body 131. For example, but not limiting of, the heating body 131 is a rare earth thick film heating body 131.

Referring to fig. 1 and 3, in a possible embodiment, the wall-hanging stove further includes a first temperature detection member 150 and a second temperature detection member 160, the first temperature detection member 150 is provided at the heating water inlet 101 for detecting the temperature at the heating water inlet 101; the second temperature detector 160 is disposed at the heating water outlet 102, and is configured to detect a temperature at the heating water outlet 102.

In this embodiment, the concrete structure of hanging stove sets up. Specifically, the wall-mounted furnace is configured to be a combined component at least comprising a heating water inlet 101, a gas heating module 120, a first electric heating module 130, a first heat exchange module 110, a time detection piece, a main control circuit board 140, a heating water outlet 102, a first temperature detection piece 150 and a second temperature detection piece 160, wherein the first temperature detection piece 150 is used for detecting the temperature at the heating water inlet 101, and the second temperature detection piece 160 is used for detecting the temperature at the heating water outlet 102, so that the heating heat value of the wall-mounted furnace is obtained according to the temperature difference at the heating water inlet and outlet of the wall-mounted furnace, and the heating of the wall-mounted furnace is regulated and controlled in real time. For example, but not limiting of, the first temperature detecting member 150 and the second temperature detecting member 160 are both temperature sensors.

Referring to fig. 1 and 3, in a possible embodiment, the wall-hanging stove further includes a heating water inlet pipe 170, a heating water outlet pipe 180, a bathroom water inlet pipe 210, a second heat exchange module 220, and a bathroom water outlet pipe 230, wherein an outflow end of the bathroom water inlet pipe 210 is communicated with an inflow end of the second heat exchange module 220, and an outflow end of the second heat exchange module 220 is communicated with an inflow end of the bathroom water outlet pipe 230; the outflow end of the heating water inlet pipe 170 is communicated with the inflow end of the second heat exchange module 220, and the outflow end of the second heat exchange module 220 is communicated with the inflow end of the heating water outlet pipe 180.

In this embodiment, the specific structure of the wall-hanging stove is set so that heating and bathing of the wall-hanging stove can be performed simultaneously. Specifically, the wall-mounted furnace is configured to be a combined component at least comprising a heating water inlet 101, a gas heating module 120, a first electric heating module 130, a first heat exchange module 110, a time detection piece, a main control circuit board 140, a heating water outlet 102, a heating water inlet pipe 170, a heating water outlet pipe 180, a bathroom water inlet pipe 210, a second heat exchange module 220 and a bathroom water outlet pipe 230, wherein the heating water inlet pipe 170 and the bathroom water inlet pipe 210 are respectively communicated with an inlet end of the second heat exchange module 220, the heating water outlet pipe 180 and the bathroom water outlet pipe 230 are respectively communicated with an outlet end of the second heat exchange module 220, so that high-heat liquid entering the second heat exchange module 220 from the heating water inlet pipe 170 and low-heat liquid entering the second heat exchange module 220 from the bathroom water inlet pipe 210 exchange heat in the second heat exchange module 220; then, the liquid flows out of the heating outlet pipe 180 and the sanitary outlet pipe 230, respectively, and at this time, the liquid flowing out of the heating outlet pipe 180 has a low heat value and the liquid flowing out of the sanitary outlet pipe 230 has a high heat value.

In one example, the second heat exchange module 220 is a plate heat exchanger.

Referring to fig. 3, in one possible embodiment, the wall-hanging stove further includes a second electric heating module 240, and the second electric heating module 240 is provided on the sanitary water inlet pipe 210.

In this embodiment, the specific structure of the wall-hanging stove is set. Specifically, the wall-mounted furnace is configured to be a combined component at least comprising a heating water inlet 101, a gas heating module 120, a first electric heating module 130, a first heat exchange module 110, a time detection piece, a main control circuit board 140, a heating water outlet 102, a heating water inlet pipe 170, a heating water outlet pipe 180, a bathroom water inlet pipe 210, a second heat exchange module 220, a bathroom water outlet pipe 230 and a second electric heating module 240, and the second electric heating module 240 is configured on the bathroom water inlet pipe 210, so that when a user opens a bathing mode, liquid in the bathroom water inlet pipe 210 can be heated in advance through the second electric heating module 240, so that bathing heating time is shortened, inconvenience that the waiting time of the user is long is reduced, and user experience is improved.

Referring to fig. 1 and 3, in a possible embodiment, the fireplace further includes a third temperature detecting element 250, and the third temperature detecting element 250 is disposed on the bathroom outlet pipe 230 for detecting a temperature at the bathroom outlet pipe 230.

In this embodiment, the specific structure of the wall-hanging stove is set. Specifically, the wall-mounted boiler is configured as a combination member at least including a heating water inlet 101, a gas heating module 120, a first electric heating module 130, a first heat exchange module 110, a time detector, a main control circuit board 140, a heating water outlet 102, a heating water inlet pipe 170, a heating water outlet pipe 180, a bathroom water inlet pipe 210, a second heat exchange module 220, a bathroom water outlet pipe 230, and a third temperature detector 250, and the third temperature detector 250 is configured on the bathroom water outlet pipe 230. For example, but not limiting of, the third temperature sensing member 250 is a temperature sensor.

Referring to fig. 1 and 3, in one possible embodiment, the wall-hanging stove further includes a water circulating pump 191, and the water circulating pump 191 is connected between the gas heating module 120 and the first electric heating module 130.

In this embodiment, the specific structure of the wall-hanging stove is set. Specifically, the wall-mounted boiler is configured to be a combined component at least comprising a heating water inlet 101, a gas heating module 120, a first electric heating module 130, a first heat exchange module 110, a time detection piece, a main control circuit board 140, a heating water outlet 102 and a circulating water pump 191, and the circulating water pump 191 is configured between the gas heating module 120 and the first electric heating module 130 to provide circulating power for water in a pipeline and ensure that the water circulates in the system at a required flow rate.

Referring to fig. 1 and 3, in one possible embodiment, the wall-hanging stove further includes an expansion tank 192, the expansion tank 192 being connected between the heating water inlet 101 and the air heating module 120.

In this embodiment, the specific structure of the wall-hanging stove is set. Specifically, the wall-mounted boiler is configured to be a combined component at least comprising a heating water inlet 101, a gas heating module 120, a first electric heating module 130, a first heat exchange module 110, a time detection piece, a main control circuit board 140, a heating water outlet 102 and an expansion water tank 192, and the expansion water tank 192 is configured between the heating water inlet 101 and the heating module 120 to reduce the air pressure in the heating water inlet pipe 170, so that the heating water inlet pipe 170 is prevented from bursting due to high pressure inside the pipe, and the service life of the wall-mounted boiler is effectively prolonged.

It is noted that, in this document, relational terms such as "first" and "second," and the like, may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising a … …" does not exclude the presence of another identical element in a process, method, article, or apparatus that comprises the element.

The foregoing are merely exemplary embodiments of the present disclosure, which enable those skilled in the art to understand or practice the present disclosure. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the disclosure. Thus, the present disclosure is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (10)

1. A wall-mounted furnace is characterized by comprising a heating water inlet, a first heat exchange module, a heating water outlet, a gas heating module, a first electric heating module, a main control circuit board and a time detection piece, wherein the heating water inlet is communicated with an inflow end of the gas heating module; the main control circuit board is respectively and electrically connected with the gas heating module, the first electric heating module and the time detection piece, and controls the gas heating module and/or the first electric heating module to perform heating operation according to time information detected by the time detection piece.

2. The wall hanging stove according to claim 1, wherein the first electric heating module comprises:

a heating body having a liquid flow passage;

the inlet end cover is sleeved at the inflow end of the heating body;

and the outlet end cover is sleeved at the outflow end of the heating body.

3. The wall hanging stove of claim 2, wherein the first electrical heating module further comprises a first seal disposed between the inlet end cap and the heating body; and/or the presence of a gas in the gas,

the first electric heating module further comprises a second seal member disposed between the outlet end cap and the heating body.

4. The wall hanging stove according to claim 2, wherein the liquid flow passage is shaped in any one of a spiral shape, a curved shape, a wavy shape, an arc shape, or a broken line shape in an extending direction of the liquid flow passage; and/or the presence of a gas in the atmosphere,

the heating body is any one of a rare earth thick film heating body, a cast aluminum heating body, a bare wire heating body, a quartz tube heating body, a graphite electrode heating body, a magnetic pole heating body or a PTC heating body.

5. The wall hanging stove of claim 1, further comprising a first temperature detection member and a second temperature detection member, the first temperature detection member being provided at the heating water inlet for detecting a temperature at the heating water inlet; the second temperature detection piece is arranged at the heating water outlet and used for detecting the temperature at the heating water outlet.

6. The fireplace of claim 1, further comprising a heating inlet pipe, a heating outlet pipe, a bathroom inlet pipe, a second heat exchange module, and a bathroom outlet pipe, wherein an outlet end of the bathroom inlet pipe is connected to an inlet end of the second heat exchange module, and an outlet end of the second heat exchange module is connected to an inlet end of the bathroom outlet pipe; the outflow end of the heating water inlet pipeline is communicated with the inflow end of the second heat exchange module, and the outflow end of the second heat exchange module is communicated with the inflow end of the heating water outlet pipeline.

7. The wall hanging stove of claim 6, further comprising a second electrical heating module disposed on the bathroom water intake conduit.

8. The fireplace of claim 6, further comprising a third temperature detector disposed on the bathroom outlet conduit for detecting a temperature of the bathroom outlet conduit.

9. The wall hanging stove of claim 1, further comprising a circulating water pump connected between the gas heating module and the first electric heating module.

10. The wall hanging stove of claim 1, further comprising an expansion tank connected between the heating water inlet and the gas heating module.

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