CN116379609B - Heat conversion system for wall-mounted furnace - Google Patents

Abstract

The invention provides a heat conversion system for a wall-mounted furnace, which is applied to the field of wall-mounted furnaces, and comprises: the heating system comprises a bottom plate, a main heating unit, a plate heat exchanger, a bathroom waterway and a heating waterway; the first heating water outlet pipe is arranged in the main heating unit, so that bath hot water can be rapidly supplied, and meanwhile, the effect of preheating the waterway environment can be achieved; the heating mode can be converted according to the application scene and the automatic execution mode of the control module by arranging the adjusting mechanism, so that the applicability and the reaction capability are strong; through the special heat conducting fins, more turbulence can be generated in the heating area between the heat conducting fins, the heat energy can be kept, the heat conversion efficiency of the wall-mounted furnace is improved, and the energy saving purpose is realized; by arranging the n-shaped heat conduction pipes, the space in the heat insulation box can be more fully utilized, more full surrounding heat absorption can be performed in less space, and meanwhile, the volume of the wall-mounted furnace is reduced.

Description

Heat conversion system for wall-mounted furnace

Technical Field

The invention relates to the field of wall-mounted furnaces, in particular to a heat conversion system for a wall-mounted furnace.

Background

The hanging stove has a powerful home central heating function, the hanging stove water path component generally has the function of providing heating and bathroom hot water, and the heating requirements of various application scenes can be met, so that the heat conversion efficiency and the pipeline design of the hanging stove are high, especially in winter, when the hanging stove is not used for a period of time and then is used for bathing, the hanging stove is often required to wait for a long time to enjoy the hot water supplied by the hanging stove, a lot of time and water resources are wasted in the process, the energy-saving effect is realized by improving the heat conversion efficiency, and meanwhile, the hanging stove is one of the main iteration upgrading directions of the hanging stove for realizing faster supply of the bathroom hot water to improve the use experience.

Disclosure of Invention

The invention aims to provide a heat conversion system for a wall-mounted furnace, aiming at the defects.

In order to overcome the defects in the prior art, the invention adopts the following technical scheme:

a wall-mounted boiler heat conversion system, comprising: the bottom plate and all set up main heating unit, plate heat exchanger, bathroom water route, heating water route, monitoring device and the control module on the bottom plate, wherein:

the main heating unit is used for burning fuel gas to heat water;

a plate heat exchanger for transferring heat energy of the water heated from the main heating unit to water of the bathroom waterway;

the monitoring device is used for monitoring the pipeline and the ambient temperature;

the control module is used for being in communication connection with the main heating unit, the plate heat exchanger, the bathroom waterway, the heating waterway and the monitoring device;

the main heating unit comprises a heat insulation box, a burner, an exchanger, an exhaust fan, a heating water inlet pipe, a first heating water outlet pipe and a second heating water outlet pipe, wherein the heat insulation box is connected with a bottom plate, the burner is used for burning fuel gas to provide heat energy, the exchanger is used for heating water input from the heating water inlet pipe, the exhaust fan is used for exhausting combustion waste gas, the heating water inlet pipe is communicated with a water inlet end of the exchanger, the first heating water outlet pipe and the second heating water outlet pipe are respectively communicated with a first water outlet end and a second water outlet end of the exchanger, and an electric control valve is arranged on the first heating water outlet pipe;

the burner comprises a mounting frame, a fire row unit, an igniter, an adjusting mechanism and a gas supply mechanism, wherein the fire row unit, the igniter, the adjusting mechanism and the gas supply mechanism are all arranged on the mounting frame, the mounting frame is connected with the bottom plate, the fire row unit comprises a fixed fire row, a first movable fire row and a second movable fire row, the adjusting mechanism is used for adjusting the nozzle angles of the first movable fire row and the second movable fire row, the igniter is used for igniting gas sprayed out of the fire row unit, and the gas supply mechanism is used for supplying gas.

Further, the first movable fire row has the same structure as the second movable fire row and comprises a fire row main body, a rotating shaft part and a driven gear which are sequentially connected, the first movable fire row is rotatably arranged on the mounting frame through the rotating shaft part, and the driven gear is fixedly arranged on the rotating shaft part.

Further, the heat exchanger comprises a heat conduction pipe and heat conduction fins, wherein the heat conduction pipe is connected with the heating water inlet pipe, the first heating water outlet pipe and the second heating water outlet pipe, and the heat conduction fins are arranged on the heat conduction pipe.

Further, the overall shape of the heat conduction pipe is n-shaped, and the heat conduction pipe sequentially comprises a first vertical section, a transverse section and a second vertical section along the water flow direction.

Further, the bathroom water path comprises a water supplementing valve, a Hall sensor, a bath water inlet pipe and a bath water outlet pipe, wherein the water supplementing valve is arranged on the bath water inlet pipe and used for controlling the connection and disconnection between the bath water inlet pipe and a heating water outlet pipe, the Hall sensor is arranged on the bath water inlet pipe and used for monitoring the water flow of the bath water inlet pipe, the bath water inlet pipe is also communicated with the bath water inlet end of the plate heat exchanger, and the bath water outlet pipe is respectively communicated with the bath water outlet end of the plate heat exchanger and the water outlet end of the first heating water outlet pipe.

Further, the heating waterway comprises a three-way valve, a heating water outlet pipe and a heating water return pipe, wherein the heating water outlet pipe is respectively communicated with the water outlet end of the second heating water outlet pipe and the heating water outlet end of the plate heat exchanger, the three-way valve is arranged on the heating water outlet pipe and used for controlling the water outlet flow direction of the heating water outlet pipe, and the heating water return pipe is respectively communicated with the heating water return end of the plate heat exchanger and the water inlet end of the heating water inlet pipe.

The beneficial effects obtained by the invention are as follows:

the first heating water outlet pipe is arranged in the main heating unit, so that bath hot water can be rapidly supplied, and meanwhile, the effect of preheating the waterway environment can be achieved;

the heating mode can be converted according to the application scene and the automatic execution mode of the control module by arranging the adjusting mechanism, so that the applicability and the reaction capability are strong;

through the special heat conducting fins, more turbulence can be generated in the heating area between the heat conducting fins, the heat energy can be kept, the heat conversion efficiency of the wall-mounted furnace is improved, and the wall-mounted furnace is more energy-saving and environment-friendly;

by arranging the n-shaped heat conduction pipes, the space in the heat insulation box can be more fully utilized, more full surrounding heat absorption can be performed in less space, and meanwhile, the volume of the wall-mounted furnace is reduced;

through setting up monitoring devices, can gather ambient temperature data and pipe wall temperature data to thereby carry out analysis use scene and carry out automatic regulation and control, intelligent degree is higher, further realizes quick response user's warm water user demand.

Drawings

The invention will be further understood from the following description taken in conjunction with the accompanying drawings. The components in the figures are not necessarily to scale, emphasis instead being placed upon illustrating the principles of the embodiments. Like reference numerals designate corresponding parts throughout the different views.

Fig. 1 is a schematic diagram of the overall structure of the present invention.

Fig. 2 is a schematic view of the plate heat exchanger and the bathroom waterway and heating waterway of the present invention.

Fig. 3 is a schematic structural view of the burner of the present invention.

FIG. 4 is a schematic view of another view of the burner of the present invention.

Fig. 5 is a partial structural schematic view of the burner of the present invention.

Fig. 6 is a schematic structural diagram of a heat pipe according to the present invention.

Fig. 7 is a schematic diagram of an arrangement relationship of heat conducting fins on a heat conducting pipe according to the present invention.

In the figure: the device comprises a main heating unit, an 11 heat insulation box, a 12 burner, a 121 mounting frame, a 122 fire row unit, a 123 adjusting mechanism, a 124 driving gear, a 125 first rack, a 126 second rack, a 13 exchanger, a 131 heat conduction pipe, a 132 heat conduction fin, a 14 exhaust fan, a 15 heating water inlet pipe, a 16 first heating water outlet pipe, a 17 second heating water outlet pipe, a 2 plate heat exchanger, a 3 bathroom waterway, a 31 water supplementing valve, a 32 Hall sensor, a 33 bath water inlet pipe, a 34 bath water outlet pipe, a 4 heating waterway, a 41 three-way valve, a 42 heating water outlet pipe, a 43 heating water return pipe, a 5 monitoring device and a 6 control module.

Detailed Description

The technical scheme and advantages of the present invention will become more apparent, and the present invention will be further described in detail with reference to the following examples thereof; it should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the invention. Other systems, methods, and/or features of the present embodiments will be or become apparent to one with skill in the art upon examination of the following detailed description. It is intended that all such additional systems, methods, features and advantages be included within this description, be within the scope of the invention, and be protected by the accompanying claims. Additional features of the disclosed embodiments are described in, and will be apparent from, the following detailed description.

The same or similar reference numbers in the drawings of embodiments of the invention correspond to the same or similar components; in the description of the present invention, it should be understood that, if there is an azimuth or positional relationship indicated by terms such as "upper", "lower", "left", "right", etc., based on the azimuth or positional relationship shown in the drawings, it is only for convenience of describing the present invention and simplifying the description, but it is not indicated or implied that the apparatus or component referred to must have a specific azimuth, construction and operation in which the term is described in the drawings is merely illustrative, and it is not to be construed that the term is limited to the patent, and specific meanings of the term may be understood by those skilled in the art according to specific circumstances.

Embodiment one.

As shown in fig. 1, a heat conversion system for a wall-hanging stove includes: the bottom plate and all set up main heating unit 1, plate heat exchanger 2, bathroom water route 3, heating water route 4, monitoring device 5 and control module 6 on the bottom plate, wherein:

a main heating unit 1 for heating water by burning fuel gas;

a plate heat exchanger 2 for transferring heat energy of the water heated from the main heating unit 1 to water of the bathroom waterway 3;

monitoring means 5 for monitoring the temperature of the pipeline and the environment;

the control module 6 is used for being in communication connection with the main heating unit 1, the plate heat exchanger 2, the bathroom waterway 3, the heating waterway 4 and the monitoring device 5;

the main heating unit 1 comprises a heat insulation box 11, a burner 12, an exchanger 13, an exhaust fan 14, a heating water inlet pipe 15, a first heating water outlet pipe 16 and a second heating water outlet pipe 17, wherein the heat insulation box 11 is connected with a bottom plate, the burner 12 is used for burning fuel gas to provide heat energy, the exchanger 13 is used for heating water input from the heating water inlet pipe, the exhaust fan 14 is used for discharging combustion waste gas, the heating water inlet pipe 15 is communicated with a water inlet end of the exchanger 13, the first heating water outlet pipe 16 and the second heating water outlet pipe 17 are respectively communicated with a first water outlet end and a second water outlet end of the exchanger 13, and an electric control valve is arranged on the first heating water outlet pipe 16;

the burner 12 comprises a mounting frame 121 and fire row units 122, an igniter, an adjusting mechanism 123 and a gas supply mechanism which are all arranged on the mounting frame 121, wherein the mounting frame 121 is connected with a bottom plate, the fire row units 122 comprise fixed fire rows, first movable fire rows and second movable fire rows, the adjusting mechanism 123 is used for adjusting the nozzle angles of the first movable fire rows and the second movable fire rows, the igniter is used for igniting gas sprayed by the fire row units 122, and the gas supply mechanism is used for supplying gas;

the first movable fire row has the same structure as the second movable fire row and comprises a fire row main body, a rotating shaft part and a driven gear which are sequentially connected, the first movable fire row is rotatably arranged on the mounting frame 121 through the rotating shaft part, and the driven gear is fixedly arranged on the rotating shaft part;

the first movable fire row and the second movable fire row are configured so that when the first movable fire row and the second movable fire row rotate, the positions of the air inlets of the fire rows are always matched with the air outlets of the air supply mechanism and are not deviated;

the adjusting mechanism 123 comprises a servo motor, a driving gear 124, a first rack 125 and a second rack 126, the servo motor is fixedly arranged on a mounting frame 121, the driving gear 124 is fixedly arranged on a main shaft of the servo motor, a sliding rail is arranged on the mounting frame 121, the first rack 125 and the second rack 126 are both slidably arranged on the sliding rail and are engaged with the driving gear 124, the first rack 125 is engaged with a driven gear of a first movable fire row, and the second rack 126 is engaged with a driven gear of a second movable fire row;

the heat exchanger 13 comprises a heat conducting pipe 131 and heat conducting fins 132, the heat conducting pipe 131 is connected with the heating water inlet pipe 15, the first heating water outlet pipe 16 and the second heating water outlet pipe 17, and the heat conducting fins 132 are arranged on the heat conducting pipe 131;

the overall shape of the heat conducting tube 131 is n-shaped, and the heat conducting tube 131 sequentially comprises a first vertical section, a horizontal section and a second vertical section along the water flow direction;

as shown in fig. 2, the bathroom waterway 3 comprises a water supplementing valve 31, a hall sensor 32, a bath water inlet pipe 33 and a bath water outlet pipe 34, wherein the water supplementing valve 31 is arranged on the bath water inlet pipe 33 and is used for controlling the connection and disconnection between the bath water inlet pipe 33 and a heating water outlet pipe 42, the hall sensor 32 is arranged on the bath water inlet pipe 33 and is used for monitoring the water flow of the bath water inlet pipe 33, the bath water inlet pipe 33 is also communicated with the bath water inlet end of the plate heat exchanger 2, and the bath water outlet pipe 34 is respectively communicated with the bath water outlet end of the plate heat exchanger 2 and the water outlet end of the first heating water outlet pipe 16;

the heating waterway 4 comprises a three-way valve 41, a heating water outlet pipe 42 and a heating water return pipe 43, the heating water outlet pipe 42 is respectively communicated with the water outlet end of the second heating water outlet pipe 17 and the heating water outlet end of the plate heat exchanger 2, the three-way valve 41 is arranged on the heating water outlet pipe 42 and is used for controlling the water outlet flow direction of the heating water outlet pipe 42, and the heating water return pipe 43 is respectively communicated with the heating water return end of the plate heat exchanger 2 and the water inlet end of the heating water inlet pipe 15.

Second embodiment, this embodiment is a further description of the foregoing embodiment, and it should be understood that this embodiment includes all the foregoing technical features and is further specifically described:

as further shown in connection with fig. 3, 4, 5, 6, and 7, the burner 12 further includes an ignition sensor for monitoring whether the igniter is successfully ignited,

the first movable fire row has the same structure as the second movable fire row and comprises a fire row main body, a rotating shaft part and a driven gear which are sequentially connected, the first movable fire row is rotatably arranged on the mounting frame 121 through the rotating shaft part, and the driven gear is fixedly arranged on the rotating shaft part;

the first movable fire row and the second movable fire row are configured so that when the first movable fire row and the second movable fire row rotate, the positions of the air inlets of the fire rows are always matched with the air outlets of the air supply mechanism and are not deviated;

the fixed fire row comprises a first fire row main body, a first limit convex part, a second limit convex part and a perforated convex part, the mounting frame 121 is provided with limit grooves matched with the first limit convex part, the second limit convex part and the perforated convex plate, and the perforated convex parts of each fixed fire row are fixed and connected through the inserted link;

the fixed fire bar is fixedly installed on the installation frame 121 by arranging the first limit convex part, the second limit convex part and the perforated convex part, and the installation can be completed by connecting the inserted link after the fixed fire bar is directly placed, so that the installation mode is simple;

the adjusting mechanism 123 comprises a servo motor, a driving gear 124, a first rack 125 and a second rack 126, the servo motor is fixedly arranged on a mounting frame 121, the driving gear 124 is fixedly arranged on a main shaft of the servo motor, a sliding rail is arranged on the mounting frame 121, the first rack 125 and the second rack 126 are both slidably arranged on the sliding rail and are engaged with the driving gear 124, the first rack 125 is engaged with a driven gear of a first movable fire row, and the second rack 126 is engaged with a driven gear of a second movable fire row;

the second rack 126 is configured in a "Z" shape, and is configured to drive the first rack 125 and the second rack 126 to move in opposite directions when the driving gear 124 rotates, so that the first movable fire row and the second movable fire row simultaneously rotate inwards or outwards;

the plane angle of the heat conducting fin 132 and the axis angle of the heat conducting tube 131 are set in an inclined manner, and the inclined angle is 30-45 degrees;

the heating return pipe 43 is also connected with a circulating water pump and an expansion tank, the circulating water pump is used for providing power for heating water, and the expansion tank is used for balancing the pressure of the heating waterway 4;

the monitoring device 5 comprises a mounting shell, a first sensor and a second sensor, wherein the mounting shell is arranged on the bath water outlet pipe 34, the first sensor and the second sensor are arranged on the mounting shell, the first sensor is configured to monitor the pipe wall temperature of the bath water outlet pipe 34, and the second sensor is configured to monitor the environmental temperature;

the first sensor and the second sensor are temperature sensors.

Therefore, the system can rapidly supply bath hot water and achieve the effect of preheating the waterway environment by arranging the first heating water outlet pipe 16 on the main heating unit 1; the heating mode can be switched according to the application scene and the automatic execution mode of the control module 6 by arranging the adjusting mechanism 123, so that the applicability and the reaction capability are strong; through the specially arranged heat conducting fins 132, more turbulence can be generated in the heating area between the heat conducting fins 132, the heat energy can be kept, and the heat conversion efficiency of the wall-mounted furnace is improved; through setting up monitoring device 5, can gather ambient temperature data and pipe wall temperature data to thereby carry out analysis use scene and carry out automatic regulation and control, further realize quick response user's warm water user demand.

Third embodiment, this embodiment is a further description of the above embodiment, and it should be understood that this embodiment includes all the foregoing technical features and is further specifically described:

fire gathering mode: the control module 6 controls the servo motor to execute a first stroke, the servo motor drives the driving gear 124 to rotate in a first direction, so that the meshed first rack 125 and second rack 126 are driven to slide in a close way in opposite directions, so that the driven gear meshed with the racks is driven to rotate, and finally, the nozzle directions of the first movable fire row and the second movable fire row are upwards aligned with the fixed fire row, so that the nozzle directions mainly face the transverse section of the heat guide pipe 131;

the fire discharging unit 122 mainly heats the transverse section of the heat conducting tube 131 in the fire focusing mode, so that the heating rate of the transverse section is faster;

flame splitting mode: the control module 6 controls the servo motor to execute a second stroke, so that the servo motor drives the driving gear 124 to rotate in a second direction, and drives the meshed first rack 125 and second rack 126 to deviate from and slide, and drives the driven gear meshed with the racks to rotate, and finally, the nozzle discharging directions of the first movable fire row and the second movable fire row are outwards ensured, and the nozzle directions of the two movable fire rows are respectively towards the first vertical section and the second vertical section of the heat guide pipe 131;

in the flame dividing mode, the first vertical section, the transverse section and the second vertical section of the heat conducting tube 131 are provided with flame rows for heating, so that the heating effect is more balanced, and the heat conversion is more sufficient;

control mode: the monitoring device 5 collects data in real time, and collects temperature values of the first sensor and the second sensor, thereby collecting the environmental heat ratio H _b ；

Wherein H is ₁ For the temperature value collected by the first sensor, H ₂ Temperature values collected for the second sensor;

when the Hall sensor monitors that bath use requirements exist and H _b When the temperature is smaller than the critical set value beta, the temperature is judged to be in a low temperature state, when the Hall sensor monitors that the bath water is required, the control module controls the fire discharging mode to be changed into the fire collecting mode, and simultaneously opens the electric control valve to enable hot water to flow out through the bath branch pipe and the bath water outlet pipe so as to provide bath water, and then after the set time, the control module controls the electric control valve to be gradually closed, so that heat conduction is conducted on the bath water through the plate heat exchanger again.

Wherein the critical set value beta is an empirical value obtained through multiple tests and practical application.

While the invention has been described above with reference to various embodiments, it should be understood that many changes and modifications can be made without departing from the scope of the invention. That is, the methods, systems and devices discussed above are examples. Various configurations may omit, replace, or add various procedures or components as appropriate. For example, in alternative configurations, the methods may be performed in a different order than described, and/or various components may be added, omitted, and/or combined. Moreover, features described with respect to certain configurations may be combined in various other configurations, such as different aspects and elements of the configurations may be combined in a similar manner. Furthermore, as the technology evolves, elements therein may be updated, i.e., many of the elements are examples, and do not limit the scope of the disclosure or the claims.

Specific details are given in the description to provide a thorough understanding of exemplary configurations involving implementations. However, configurations may be practiced without these specific details, e.g., well-known circuits, processes, algorithms, structures, and techniques have been shown without unnecessary detail in order to avoid obscuring configurations. This description provides only an example configuration and does not limit the scope, applicability, or configuration of the claims. Rather, the foregoing description of the configuration will provide those skilled in the art with an enabling description for implementing the described techniques. Various changes may be made in the function and arrangement of elements without departing from the spirit or scope of the disclosure.

It is intended that the foregoing detailed description be regarded as illustrative rather than limiting, and that it be understood that it is intended that it be regarded as illustrative rather than limiting. Various changes and modifications to the present invention may be made by one skilled in the art after reading the teachings herein, and such equivalent changes and modifications are intended to fall within the scope of the invention as defined in the appended claims.

Claims (1)

1. A heat conversion system for a wall-hanging stove, comprising: the bottom plate and all set up main heating unit, plate heat exchanger, bathroom water route, heating water route, monitoring device and the control module on the bottom plate, wherein:

the main heating unit is used for burning fuel gas to heat water;

a plate heat exchanger for transferring heat energy of the water heated from the main heating unit to water of the bathroom waterway;

the monitoring device is used for monitoring the pipeline and the ambient temperature;

the control module is used for being in communication connection with the main heating unit, the plate heat exchanger, the bathroom waterway, the heating waterway and the monitoring device;

the main heating unit comprises a heat insulation box, a burner, an exchanger, an exhaust fan, a heating water inlet pipe, a first heating water outlet pipe and a second heating water outlet pipe, wherein the heat insulation box is connected with a bottom plate, the burner is used for burning fuel gas to provide heat energy, the exchanger is used for heating water input from the heating water inlet pipe, the exhaust fan is used for exhausting combustion waste gas, the heating water inlet pipe is communicated with a water inlet end of the exchanger, the first heating water outlet pipe and the second heating water outlet pipe are respectively communicated with a first water outlet end and a second water outlet end of the exchanger, and an electric control valve is arranged on the first heating water outlet pipe;

the burner comprises a mounting frame, a fire row unit, an igniter, an adjusting mechanism and a gas supply mechanism, wherein the fire row unit, the igniter, the adjusting mechanism and the gas supply mechanism are all arranged on the mounting frame, the mounting frame is connected with the bottom plate, the fire row unit comprises a fixed fire row, a first movable fire row and a second movable fire row, the adjusting mechanism is used for adjusting the nozzle angles of the first movable fire row and the second movable fire row, the igniter is used for igniting gas sprayed out of the fire row unit, and the gas supply mechanism is used for supplying gas;

the first movable fire row and the second movable fire row have the same structure and comprise a fire row main body, a rotating shaft part and a driven gear which are sequentially connected, the first movable fire row is rotatably arranged on the mounting frame through the rotating shaft part, and the driven gear is fixedly arranged on the rotating shaft part;

the heat exchanger comprises a heat conduction pipe and heat conduction fins, wherein the heat conduction pipe is connected with the heating water inlet pipe, the first heating water outlet pipe and the second heating water outlet pipe, and the heat conduction fins are arranged on the heat conduction pipe;

the overall shape of the heat conduction pipe is n-shaped, and the heat conduction pipe sequentially comprises a first vertical section, a horizontal section and a second vertical section along the water flow direction;

the bathroom waterway comprises a water supplementing valve, a Hall sensor, a bath water inlet pipe and a bath water outlet pipe, wherein the water supplementing valve is arranged on the bath water inlet pipe and is used for controlling the connection and disconnection between the bath water inlet pipe and a heating water outlet pipe, the Hall sensor is arranged on the bath water inlet pipe and is used for monitoring the water flow of the bath water inlet pipe, the bath water inlet pipe is also communicated with the bath water inlet end of the plate heat exchanger, and the bath water outlet pipe is respectively communicated with the bath water outlet end of the plate heat exchanger and the water outlet end of the first heating water outlet pipe;

the heating waterway comprises a three-way valve, a heating water outlet pipe and a heating return pipe, wherein the heating water outlet pipe is respectively communicated with the water outlet end of the second heating water outlet pipe and the heating water outlet end of the plate heat exchanger, the three-way valve is arranged on the heating water outlet pipe and used for controlling the water outlet flow direction of the heating water outlet pipe, and the heating return pipe is respectively communicated with the heating return end of the plate heat exchanger and the water inlet end of the heating water inlet pipe.