CN112856554A

CN112856554A - Remote control method and control equipment for electric fireplace

Info

Publication number: CN112856554A
Application number: CN202011520052.3A
Authority: CN
Inventors: 陈永涛
Original assignee: Lida Electric Jiangsu Co ltd
Current assignee: Lida Electric Jiangsu Co ltd
Priority date: 2020-12-21
Filing date: 2020-12-21
Publication date: 2021-05-28

Abstract

The invention discloses a remote control method and control equipment for an electric fireplace, wherein an upper shell and a lower shell of a control assembly are rotatably connected, a mounting plate is arranged on one side of the lower shell, a supporting rod and a control panel are arranged on the lower shell through the supporting rod, an external interface is arranged on one side of the lower shell, a heat insulation layer of a heat dissipation assembly is arranged in the lower shell, two circulating fans are arranged in the lower shell, two heat dissipation fences and heat dissipation pipes are connected and arranged on one side of the circulating fans, an extension pipe of a refrigeration assembly is communicated with the heat dissipation pipes, the circulation pumps are used for controlling cooling liquid to flow, and the refrigeration fans are arranged in the refrigeration shell for dissipating. The control panel generates heat, makes hot-air insufflate the cooling fence through circulating fan, and the coolant liquid heat absorption and the circulation inflow extension pipe in the cooling tube, and the refrigeration fan blows to the extension pipe, brings external cold air into and dispels the heat to the coolant liquid to can dispel the heat to the control panel alone, make can normal operating, improve the life.

Description

Remote control method and control equipment for electric fireplace

Technical Field

The invention relates to the field of control systems, in particular to a remote control method and control equipment for an electric fireplace.

Background

In cold winter, especially in northern areas of china, a large number of heating tools are required. The electric fireplace is taken as a novel heating tool and is popular once being on the market. Compared with wood-burning and gas-burning fireplaces, the electric fireplace has the advantages that the electric fireplace has the characteristics of cleanness, sanitation, safety, reliability, convenience in loading and unloading, high burning utilization rate and the like, and has no difficultly-prevented ash, strange odor and noise generated during flame burning; the electric fireplace can not only save the heating cost, but also bring elegant ornamental effect. Safe and convenient to enjoy the warmth and comfort brought by the electric fireplace.

The existing electric fireplace control equipment is arranged in the electric fireplace, and the electric fireplace generates heat, so that the control equipment is poor in heat dissipation condition and easy to damage.

Disclosure of Invention

The invention aims to provide a remote control method and control equipment for an electric fireplace, and aims to solve the problem that the existing control equipment is arranged in the electric fireplace, and is poor in heat dissipation condition and easy to damage.

In order to achieve the above objects, in a first aspect, the present invention provides an electric fireplace remote control apparatus, comprising a control assembly, a heat dissipation assembly and a cooling assembly, wherein the control assembly comprises an upper housing, a lower housing, a mounting plate, a support bar, a control plate and an external interface, the lower housing has a first through hole, the upper housing is rotatably connected with the lower housing and is located at one side of the lower housing, the mounting plate is fixedly connected with the lower housing and is located at one side of the lower housing, the support bar is fixedly connected with the lower housing and is located in the lower housing, the control plate is fixedly connected with the support bar and is located at one side of the support bar, the external interface is electrically connected with the control plate and penetrates through the lower housing, the heat dissipation assembly comprises a heat insulation layer, two circulation fans, two heat dissipation fences and a heat dissipation pipe, the cooling tube with casing fixed connection down, and be located in the first through-hole, two the heat dissipation fence with cooling tube fixed connection, and be located the both sides of control panel, two the circulation fan with casing fixed connection down, and be located two respectively one side of heat dissipation fence, the insulating layer with go up the casing with casing fixed connection down, and be located go up the casing with one side of casing down, the refrigeration subassembly includes circulating pump, refrigeration fan, extension pipe and refrigeration shell, the extension pipe with refrigeration shell fixed connection, and with the cooling tube intercommunication, the circulating pump with refrigeration shell fixed connection, and with the extension pipe with the cooling tube intercommunication, the refrigeration fan with refrigeration shell fixed connection, and be located one side of extension pipe.

The upper shell is provided with a sealing ring, and the sealing ring is positioned between the upper shell and the lower shell.

The control panel comprises a support plate, a wireless module, a data receiving module, a data processing module, a fan driving module and an adjusting module, wherein the wireless module, the data receiving module, the data processing module, the fan driving module and the adjusting module are fixedly connected with the support plate and are positioned on one side of the support plate.

The control panel further comprises a radiating fin, and the radiating fin is fixedly connected with the supporting plate and is positioned on one side, far away from the upper shell, of the supporting plate.

The heat dissipation assembly further comprises a temperature sensor, wherein the temperature sensor is fixedly connected with the lower shell and is positioned in the lower shell.

In a second aspect, the invention provides a remote control method for an electric fireplace, which comprises the following steps: receiving internal operating parameters of the electric fireplace; receiving an external control signal; converting the external control signal to obtain a motor driving signal and a parameter control signal; driving the fan to rotate based on the motor driving signal; the circuit operating parameters are adjusted based on the parameter control signal.

The invention relates to a remote control method and control equipment for an electric fireplace, wherein an upper shell is rotatably connected with a lower shell, the lower shell is used for installing a control assembly, the lower shell is closed through the upper shell to isolate the exchange of internal heat and external heat, an installation plate is fixedly connected with the lower shell, the lower shell can be connected with the electric fireplace through the installation plate, a support rod is fixedly connected with the lower shell, a control panel is fixedly connected with the support rod, the control panel can be lifted to a certain height through the support rod, so that the control panel can fully guide out the heat, an external interface is electrically connected with the control panel, the external interface is connected with an external circuit through the external interface to supply power and transmit data, a radiating pipe is fixedly connected with the lower shell, and cooling liquid flows through the radiating pipe, the heat dissipation structure comprises a lower shell, two heat dissipation fences, two circulating fans, two cooling pipes, a circulating pump and a cooling shell, wherein the lower shell is fixedly connected with the cooling pipes, the heat dissipation fences can better transfer heat in the lower shell to the cooling pipes, the two circulating fans are fixedly connected with the lower shell, the two circulating fans rotate to form a heat dissipation circulation in the lower shell, the circulation speed of air is increased, and therefore the heat dissipation effect is enhanced, the heat insulation layer is fixedly connected with the upper shell and the lower shell and is arranged to further enhance the heat insulation effect, the extension pipe is fixedly connected with the cooling shell, cooling liquid flows to the extension pipe after absorbing heat through the cooling pipes, the circulating pump is fixedly connected with the cooling shell, the heat dissipation effect is executed through the circulating pump, the cooling fan is fixedly connected with the cooling shell, and the cooling fan is used for blowing the extension pipe, thereby bring external cold air into and dispel the heat to the coolant liquid, thereby can be alone right the control panel dispels the heat for can normal operating, improve the operation life-span, thereby solve current controlgear setting and do not easily damage the problem in the inside heat dissipation condition of electricity fireplace.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

FIG. 1 is a front structural view of an electric fireplace remote control apparatus of the present invention;

FIG. 2 is a schematic sectional view of an electric fireplace remote control apparatus of the present invention;

FIG. 3 is a rear structural view of an electric fireplace remote control apparatus of the present invention;

FIG. 4 is a partial enlarged view A of FIG. 2;

FIG. 5 is a flow chart of a method of remotely controlling an electric fireplace of the present invention.

1-control component, 2-heat dissipation component, 3-refrigeration component, 11-upper shell, 12-lower shell, 13-mounting plate, 14-supporting rod, 15-control plate, 16-external interface, 21-heat insulation layer, 22-circulating fan, 23-heat dissipation fence, 24-heat dissipation pipe, 25-temperature sensor, 26-sealing frame, 31-circulating pump, 32-refrigeration fan, 33-extension pipe, 34-refrigeration shell, 35-exchange sheet, 111-sealing ring, 121-first through hole, 141-rod body, 142-sliding rod, 143-pressing spring, 151-supporting plate, 152-wireless module, 153-data receiving module, 154-data processing module, 155-fan driving module, 153-data receiving module, 156-adjusting module, 157-heat sink.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the drawings are illustrative and intended to be illustrative of the invention and are not to be construed as limiting the invention.

In the description of the present invention, it is to be understood that the terms "length", "width", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on the orientations or positional relationships illustrated in the drawings, and are used merely for convenience in describing the present invention and for simplicity in description, and do not indicate or imply that the devices or elements referred to must have a particular orientation, be constructed in a particular orientation, and be operated, and thus, are not to be construed as limiting the present invention. Further, in the description of the present invention, "a plurality" means two or more unless specifically defined otherwise.

Referring to fig. 1 to 4, the present invention provides a remote control apparatus for an electric fireplace, comprising:

control assembly 1, radiator unit 2 and refrigeration unit 3, control assembly 1 includes casing 11, lower casing 12, mounting panel 13, bracing piece 14, control panel 15 and external interface 16, casing 12 has first through-hole 121 down, go up casing 11 with casing 12 rotates to be connected down, and lie in one side of casing 12 down, mounting panel 13 with casing 12 fixed connection down, and lie in one side of casing 12 down, bracing piece 14 with casing 12 fixed connection down, and lie in casing 12 down, control panel 15 with bracing piece 14 fixed connection, and lie in one side of bracing piece 14, external interface 16 with control panel 15 is electric is connected, and passes casing 12 down, radiator unit 2 includes insulating layer 21, two circulating fan 22, two heat dissipation fences 23 and cooling tube 24, the heat dissipation pipe 24 is fixedly connected to the lower housing 12 and located in the first through hole 121, the two heat dissipation fences 23 are fixedly connected to the heat dissipation pipe 24 and located at two sides of the control board 15, the two circulation fans 22 are fixedly connected to the lower housing 12 and located at one side of the two heat dissipation fences 23, respectively, the heat insulation layer 21 is fixedly connected to the upper housing 11 and the lower housing 12 and located at one side of the upper housing 11 and the lower housing 12, the refrigeration assembly 3 includes a circulation pump 31, a refrigeration fan 32, an extension pipe 33 and a refrigeration shell 34, the extension pipe 33 is fixedly connected to the refrigeration shell 34 and communicated with the heat dissipation pipe 24, the circulation pump 31 is fixedly connected to the refrigeration shell 34 and communicated with the extension pipe 33 and the heat dissipation pipe 24, the refrigeration fan 32 is fixedly connected to the refrigeration shell 34, and is located at one side of the extension pipe 33.

In this embodiment, the control assembly 1 includes an upper housing 11, a lower housing 12, a mounting plate 13, a support rod 14, a control board 15 and an external interface 16, the lower housing 12 has a first through hole 121, the upper housing 11 is rotatably connected with the lower housing 12 and is located at one side of the lower housing 12, the lower housing 12 is used for mounting the control assembly 1 and is used for closing the lower housing 12 through the upper housing 11 to isolate the heat exchange inside and outside, the mounting plate 13 is fixedly connected with the lower housing 12 and is located at one side of the lower housing 12, the lower housing 12 can be connected with an electric fireplace through the mounting plate 13, the support rod 14 is fixedly connected with the lower housing 12 and is located in the lower housing 12, the control board 15 is fixedly connected with the support rod 14 and is located at one side of the support rod 14, the control board 15 can be lifted to a certain height through the support rod 14, so that the control board 15 can sufficiently conduct heat, the external connector 16 is electrically connected to the control board 15, passes through the lower case 12, and is connected to an external circuit through the external connector 16 for power supply and data transmission, the heat dissipation assembly 2 includes an insulating layer 21, two circulation fans 22, two heat dissipation fences 23, and a heat dissipation pipe 24, the heat dissipation pipe 24 is fixedly connected to the lower case 12 and is located in the first through hole 121, a cooling fluid flows through the heat dissipation pipe 24, and can dissipate heat from the inside of the lower case 12, the two heat dissipation fences 23 are fixedly connected to the heat dissipation pipe 24 and are located at both sides of the control board 15, heat in the lower case 12 can be better transferred to the heat dissipation pipe 24 through the heat dissipation fences 23, and the two circulation fans 22 are fixedly connected to the lower case 12, and are respectively located at one side of two said heat dissipation fences 23, two said circulation fans 22 rotate, namely a heat dissipation circulation is formed in said lower housing 12, and the circulation speed of air is increased, thereby enhancing the heat dissipation effect, said thermal insulation layer 21 is fixedly connected with said upper housing 11 and said lower housing 12, and is located at one side of said upper housing 11 and said lower housing 12, said thermal insulation layer 21 is supported by asbestos material, said thermal insulation layer 21 is provided to further enhance the thermal insulation effect, said refrigeration assembly 3 comprises a circulation pump 31, a refrigeration fan 32, an extension pipe 33 and a refrigeration shell 34, said extension pipe 33 is fixedly connected with said refrigeration shell, and is communicated with said heat dissipation pipe 24, the cooling liquid flows to said extension pipe 33 after absorbing heat through said heat dissipation pipe 24, said circulation pump 31 is fixedly connected with said refrigeration shell 34, and is communicated with said extension pipe 33 and said heat dissipation pipe 24, through circulating pump 31 carries out the radiating effect, refrigeration fan 32 with refrigeration shell 34 fixed connection, and be located one side of extension pipe 33, refrigeration fan 32 is used for right extension pipe 33 blows to bring external cold air into and dispel the heat to the coolant liquid, thereby can be alone right control panel 15 dispels the heat, makes can normal operating, improves the running life, thereby solves the problem that current controlgear setting is not good easy to damage in the inside heat dissipation condition of electricity fireplace.

Further, the upper housing 11 has a seal ring 111, and the seal ring 111 is located between the upper housing 11 and the lower housing 12.

In the present embodiment, the packing 111 increases a sealing performance between the upper case 11 and the lower case 12, thereby improving a heat insulation effect.

Further, the supporting rod 14 includes a rod 141, a sliding rod 142 and a pressing spring 143, the sliding rod 142 is slidably connected to the rod 141 and located at one side of the rod 141, and the pressing spring 143 is fixedly connected to the sliding rod 142 and located between the sliding rod 142 and the lower housing 12.

In this embodiment, the sliding rod 142 can slide relative to the rod body 141, and the pressing spring 143 can pull the sliding rod 142, so that the supporting plate 151 connected to the sliding rod 142 can be tightly attached to the heat dissipation pipe 24, thereby improving the heat dissipation efficiency.

Further, the control board 15 includes a support plate 151, a wireless module 152, a data receiving module 153, a data processing module 154, a fan driving module 155 and an adjusting module 156, wherein the wireless module 152, the data receiving module 153, the data processing module 154, the fan driving module 155 and the adjusting module 156 are fixedly connected to the support plate 151 and are located at one side of the support plate 151.

In this embodiment, the supporting plate 151 is used for mounting other circuit modules, and the wireless module 152 is used for receiving an external control signal; the data receiving module 153 is used for receiving the internal operation parameters of the electric fireplace; the data processing module 154 is configured to perform conversion processing on an external control signal to obtain a motor driving signal and a parameter control signal; the fan driving module 155 drives the fan to rotate based on the motor driving signal; the adjusting module 156 adjusts the operation parameters of the circuit cloth based on the parameter control signal, so that the heat dissipation and the operation parameters of the electric fireplace can be conveniently and remotely controlled.

Further, the control board 15 further includes a heat sink 157, and the heat sink 157 is fixedly connected to the support plate 151 and is located on a side of the support plate 151 away from the upper housing 11.

In this embodiment, the heat sink 157 is disposed at one side of the supporting plate 151, and is used for conducting heat on the supporting plate 151, thereby improving heat dissipation efficiency.

Further, the heat dissipation assembly 2 further includes a temperature sensor 25, and the temperature sensor 25 is fixedly connected to the lower housing 12 and is located in the lower housing 12.

In the present embodiment, the temperature sensor 25 may be of a type such that the PT100 detects the temperature inside the lower case 12, thereby facilitating adjustment of the operation power of the circulation fan 22.

Further, the heat dissipation assembly 2 further includes a sealing frame 26, wherein the sealing frame 26 is fixedly connected to the lower housing 12 and is located at a connection position of the heat dissipation pipe 24 and the lower housing 12.

In this embodiment, the sealing frame 26 is disposed at the heat pipe 24 and the lower case 12 to seal the gap at the joint, thereby preventing heat from being introduced from the gap and improving the heat insulation effect.

Further, the refrigeration assembly 3 further includes an exchange sheet 35, and the exchange sheet 35 is fixedly connected to the extension pipe 33 and is located on one side of the extension pipe 33 close to the refrigeration fan 32.

In the present embodiment, the heat in the extension pipe 33 can be conducted out by the exchange fin 35, and the heat radiation effect can be enhanced.

In a second aspect, referring to fig. 5, the invention further provides a remote control method for an electric fireplace, which includes:

s101, receiving internal operation parameters of the electric fireplace;

the electric fireplace receives parameters such as operating temperature, displaying light color and the like in the electric fireplace, so as to facilitate output, viewing and control.

S102, receiving an external control signal;

the external signal can be received through the wireless module 152 and can be propagated through wifi or bluetooth.

S103, converting the external control signal to obtain a motor driving signal and a parameter control signal;

through processing the external control signal, two driving signals, namely a motor driving signal and a parameter control signal can be obtained, wherein the motor driving signal acts on the control equipment to adjust the cooling fan so as to save energy sources when necessary, and then the parameter control signal can control the operation parameters of the electric fireplace.

S104, driving the fan to rotate based on the motor driving signal;

s105, adjusting the circuit operation parameters based on the parameter control signal.

While the invention has been described with reference to a preferred embodiment, it will be understood by those skilled in the art that various changes in form and detail may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

Claims

1. A remote control device of an electric fireplace is characterized in that,

comprises a control component, a heat radiation component and a refrigeration component, wherein the control component comprises an upper shell, a lower shell, a mounting plate, a support rod, a control plate and an external interface, the lower shell is provided with a first through hole, the upper shell is rotationally connected with the lower shell and is positioned on one side of the lower shell, the mounting plate is fixedly connected with the lower shell and is positioned on one side of the lower shell, the support rod is fixedly connected with the lower shell and is positioned in the lower shell, the control plate is fixedly connected with the support rod and is positioned on one side of the support rod, the external interface is electrically connected with the control plate and penetrates through the lower shell, the heat radiation component comprises a heat insulation layer, two circulating fans, two heat radiation fences and a heat radiation pipe, the radiation pipe is fixedly connected with the lower shell and is positioned in the first through hole, and the two heat radiation fences are fixedly connected with the radiation pipe, and be located the both sides of control panel, two circulation fan with casing fixed connection down, and be located two respectively one side of heat dissipation fence, the insulating layer with go up casing with casing fixed connection down, and be located go up the casing with one side of casing down, refrigeration subassembly includes circulating pump, refrigeration fan, extension pipe and refrigeration shell, the extension pipe with refrigeration shell fixed connection, and with the cooling tube intercommunication, the circulating pump with refrigeration shell fixed connection, and with the extension pipe with the cooling tube intercommunication, the refrigeration fan with refrigeration shell fixed connection, and be located one side of extension pipe.

2. The electric fireplace remote control apparatus as claimed in claim 1,

3. The electric fireplace remote control apparatus as claimed in claim 2,

the support rod comprises a rod body, a sliding rod and a compression spring, the sliding rod is connected with the rod body in a sliding mode and is located on one side of the rod body, and the compression spring is fixedly connected with the sliding rod and is located between the sliding rod and the lower shell.

4. The electric fireplace remote control apparatus as claimed in claim 1,

5. The electric fireplace remote control apparatus as claimed in claim 4,

the control panel also comprises a radiating fin which is fixedly connected with the supporting plate and is positioned on one side of the supporting plate far away from the upper shell.

6. The electric fireplace remote control apparatus as claimed in claim 5,

7. A remote control method of an electric fireplace is characterized in that,

the method comprises the following steps: receiving internal operating parameters of the electric fireplace; receiving an external control signal; converting the external control signal to obtain a motor driving signal and a parameter control signal; driving the fan to rotate based on the motor driving signal; the circuit operating parameters are adjusted based on the parameter control signal.