CN117653914B - Integrated baking lamp and early warning method thereof - Google Patents

Abstract

The invention discloses an integrated baking lamp and an early warning method thereof, comprising the following steps: s1: setting a baking lamp operation mode and starting the baking lamp; s2: monitoring environmental information in the baking lamp and the curtain; s3: based on the baking lamp matching environment threshold information, an early warning scheme is obtained based on the environment information and the environment threshold information; s4: and carrying out early warning and switching the operation mode of the baking lamp based on the early warning scheme. The invention has the beneficial effects that: the environment information of the baking lamp in use can be monitored and displayed, and the running mode of the baking lamp is controlled and early warning is carried out according to the environment information.

Description

Integrated baking lamp and early warning method thereof

Technical Field

The invention relates to the technical field of baking lamps, in particular to an integrated baking lamp and an early warning method thereof.

Background

The baking lamp belongs to an infrared electronic physiotherapy lamp, and can be used for irradiation treatment aiming at common cervical spondylosis, scapulohumeral periarthritis, lumbar disc herniation and other diseases, and the clinical effect is quite good at present. The effects of warming channels, dispelling cold, promoting blood circulation, removing blood stasis, relieving swelling and pain can be achieved by the aid of the warm nature and electromagnetic wave effect of electromagnetic waves and the heat treatment on local irradiation, the circulation of local tissue blood can be promoted by the aid of the heat radiation principle, the absorption of local skin inflammatory exudation can be promoted, congestion and edema of local nerves can be reduced, healing of damaged tissues can be promoted, and the like.

In the prior art, the baking lamp is usually moved in the layout area by setting the fixed sliding rail, and the temperature of the baking lamp during working is monitored manually, so that whether the baking lamp works abnormally or not is judged, and the problems that the environment information during use of the baking lamp cannot be monitored, the running mode of the baking lamp cannot be controlled according to the environment information, and early warning is carried out exist.

For example, the invention disclosed in the Chinese patent literature as a sliding infrared baking lamp, the publication number of which is CN107774542A, the application date of which is 2017, 11 and 30, comprises a sliding rail arranged on the wall of a baking room, a baking lamp mounting frame and a baking lamp plate connected to the baking lamp mounting frame; the front surface of the baking lamp panel is concavely provided with a containing cavity, a baking lamp tube is arranged in the containing cavity, and the containing cavity is covered by a transparent cover plate; one end of the baking lamp mounting frame is provided with a sliding block which is connected on the sliding rail in a sliding way. The sliding type infrared baking lamp can slide along the wall of the baking room, so that all parts of a vehicle body are baked, and the number of infrared baking lamps in the baking room is reduced. However, the roast lamp cannot be moved to other rooms, and there are problems in that environmental information when the roast lamp is used cannot be monitored, an operation mode of the roast lamp cannot be controlled according to the environmental information, and early warning is performed.

Disclosure of Invention

Aiming at the defects that the prior art cannot monitor the environment information of the baking lamp in use and cannot control the operation mode of the baking lamp and perform early warning according to the environment information, the application provides the integrated baking lamp and the early warning method thereof, which can monitor and display the environment information of the baking lamp in use and control the operation mode of the baking lamp and perform early warning according to the environment information.

The following is the technical scheme of the invention, the early warning method of the integral baking lamp, comprising the following steps:

s1: setting a baking lamp operation mode and starting the baking lamp;

s2: monitoring environmental information in the baking lamp and the curtain;

S3: based on the baking lamp matching environment threshold information, an early warning scheme is obtained based on the environment information and the environment threshold information; s4: and carrying out early warning and switching the operation mode of the baking lamp based on the early warning scheme.

In S2, the environmental information includes a first real-time temperature, a second real-time temperature, a radiation value, and an illumination intensity.

S3, matching environment threshold information based on the baking lamp, comprising the following steps:

s31: configuring environment threshold information based on the type information of the roast lamp;

s32: the type information of the baking lamp transmitted by the first temperature detector;

S33: the environmental threshold information is matched based on the type information of the roast lamp.

S3, the early warning scheme comprises the following steps:

The first early warning scheme comprises the steps that the first real-time temperature is larger than a first temperature threshold value, and the second real-time temperature, the radiation value and the illumination intensity are smaller than or equal to corresponding threshold values;

The second real-time temperature is larger than a second temperature threshold value, and the first real-time temperature, the radiation value and the illumination intensity are smaller than or equal to corresponding threshold values;

The radiation value of the third early warning scheme is larger than the radiation threshold, and the first real-time temperature, the second real-time temperature and the illumination intensity are smaller than or equal to the corresponding thresholds;

The illumination intensity of the fourth early warning scheme is larger than an illumination intensity threshold value, and the first real-time temperature, the second real-time temperature and the radiation value are smaller than or equal to corresponding threshold values;

And a fifth early warning scheme, wherein the first real-time temperature is greater than a first temperature threshold, the second real-time temperature is greater than a second temperature threshold, and the radiation value and the illumination intensity are both smaller than or equal to corresponding thresholds.

Early warning is carried out based on an early warning scheme, and the method comprises the following steps:

The early warning scheme is a first early warning scheme, a second early warning scheme, and the color of the indicator lamp is a first color when the third early warning scheme or the fourth early warning scheme is adopted, and the flicker period is 0.1 to 0.5 seconds;

When the early warning scheme is a fifth early warning scheme, the color of the indicator lamp is a second color, and the flicker period is 0.6 to 1 second;

wherein the first color and the second color are different colors.

And S4, if and only if the early warning scheme is a fifth early warning scheme, switching the operation mode of the baking lamp to the off mode.

An integral baking lamp, comprising: the mobile module is connected with the height adjusting module, the height adjusting module is connected with the direction adjusting module and the display module, the direction adjusting module is connected with the baking lamp module, the baking lamp module is connected with the lampshade module, the sensing module, the control module and the display module, the lampshade module is connected with the sensing module, the sensing module is connected with the analysis module and the display module, and the analysis module is connected with the configuration module, the early warning module and the control module.

The direction adjusting module comprises a first connecting part, connecting strips, a second connecting part and a sleeve, wherein the connecting strips are fixedly connected with the first connecting part and the second connecting part, the first connecting part, the connecting strips and the second connecting part are arranged inside the sleeve, the first connecting part is fixedly connected with the height adjusting module, and the second connecting part is fixedly connected with the baking lamp module.

The lamp shade module comprises a curtain, an annular expansion bracket and a supporting frame, wherein the middle part of the annular expansion bracket is fixedly connected with the lamp baking module, the annular structure of the annular expansion bracket is fixedly connected with one end of the supporting frame, and the curtain is arranged on the outer surfaces of the annular expansion bracket and the supporting frame;

the other end of the supporting frame is the same as the light direction of the baking lamp module.

The sensing module comprises a first temperature detector, a second temperature detector, a radiation detector and an illumination detector, wherein the first temperature detector is arranged in the baking lamp module, and the second temperature detector, the radiation detector and the illumination detector are arranged on the curtain or the support frame;

wherein, the distance between the illumination detector and the first temperature detector is greater than the distance between the radiation detector and the first temperature detector, and the distance between the radiation detector and the first temperature detector is greater than the distance between the second temperature detector and the first temperature detector.

The beneficial effects of the invention are as follows:

1. The baking lamp is moved, height adjusted and direction adjusted through the moving module, the height adjusting module and the direction adjusting module, so that the baking lamp can meet different use scenes, and the applicability of the baking lamp is improved;

2. The equipment information, the operation information and the environment information of the baking lamp module are displayed through the display module, so that the equipment information and the environment information of the baking lamp during working can be visually referred, and the safety of the baking lamp is improved;

3. The environmental information is analyzed through the analysis module to obtain an early warning scheme, the early warning is carried out according to the early warning scheme, the operation mode of the baking lamp is switched, and possible dangers of the baking lamp can be found in time and avoided, so that the safety of the baking lamp is improved.

Drawings

FIG. 1 is a schematic view of an integrated baking lamp according to the present invention;

FIG. 2 is a flow chart of an integral baking lamp early warning method of the invention;

In the figure:

1-a mobile module; 2-a height adjustment module; 3-a direction adjustment module; 4-baking a lamp module; 5-a lampshade module; 6-a sensing module; 7-an analysis module; 8-configuring a module; 9-an early warning module; 10-a control module; 11-display module.

Detailed Description

In order to make the technical problems solved by the present invention, the technical solutions adopted and the technical effects achieved more clear, the technical solutions of the embodiments of the present invention will be described in further detail below with reference to the accompanying drawings, and it is obvious that the described embodiments are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

In the description of the present invention, unless explicitly stated and limited otherwise, the terms "connected," "connected," and "fixed" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally formed; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communicated with the inside of two elements or the interaction relationship of the two elements. The specific meaning of the above terms in the present invention will be understood in specific cases by those of ordinary skill in the art.

In the present invention, unless expressly stated or limited otherwise, a first feature "above" or "below" a second feature may include both the first and second features being in direct contact, as well as the first and second features not being in direct contact but being in contact with each other through additional features therebetween. Moreover, a first feature being "above," "over" and "on" a second feature includes the first feature being directly above and obliquely above the second feature, or simply indicating that the first feature is higher in level than the second feature. The first feature being "under", "below" and "beneath" the second feature includes the first feature being directly under and obliquely below the second feature, or simply means that the first feature is less level than the second feature.

Example 1

As shown in fig. 1, the integral baking lamp includes:

a moving module 1 for moving the integrated roast lamp so that the roast lamp can be arranged at a target position, and connected with a height adjusting module 2;

the height adjusting module 2 is used for adjusting the height of the baking lamp module 4 so that the baking lamp module 4 is arranged at a proper height for irradiation, and is connected with the direction adjusting module 3 and the moving module 1;

A direction adjusting module 3 for adjusting the direction of the roast lamp module 4 so that the direction of the roast lamp module 4 is changed when the direction of the moving module 1 is not adjusted or rotated, and connecting the height adjusting module 2 and the roast lamp module 4;

The baking lamp module 4 is used for emitting heat radiation and connecting the direction adjusting module 3 and the lampshade module 5;

the lamp shade module 5 is used for limiting or bundling the heat radiation emitted by the baking lamp module 4, so that the heat radiation of the baking lamp module 4 is locally irradiated and is connected with the baking lamp module 4;

The sensing module 6 is used for monitoring the environment information and transmitting the environment information to the analysis module 7, and is connected with the baking lamp module 4, the lampshade module 5 and the analysis module 7;

the analysis module 7 is used for obtaining an early warning scheme based on environmental information analysis and connecting the sensing module 6 and the configuration module 8;

The configuration module 8 is used for configuring corresponding early warning schemes in different environment information and is connected with the analysis module 7;

The early warning module 9 is used for acquiring an early warning scheme of the analysis module 7 and carrying out early warning according to the early warning scheme, and is connected with the analysis module 7;

The control module 10 is used for controlling the operation mode of the baking lamp module 4 and switching the operation mode of the baking lamp module 4 according to the early warning scheme of the analysis module 7, and connecting the baking lamp module 4 and the analysis module 7;

The display module 11 is used for displaying the baking lamp information of the baking lamp module 4 and the environment information of the surrounding environment of the lampshade module 5 and the baking lamp module 4, and is connected with the height adjusting module 2, the sensing module 6 and the baking lamp module 4.

The mobile module 1 is used for moving the integrated baking lamp, so that the baking lamp can be arranged at a target position, and is connected with the height adjusting module 2. The mobile module 1 comprises a base, a rolling device and a locking device, wherein the rolling device comprises a connecting rod, a roller and a protective cover, the connecting rod is communicated with the protective cover and connected with the roller, the connecting rod is fixedly connected with the bottom of the base, the roller moves an integrated baking lamp to a target position through rolling on the ground, the locking device is fixedly connected with the protective cover, the locking device comprises a rotating rod, a threaded rod and a locking cap, the upper end of the threaded rod is connected with the rotating rod, the lower end of the threaded rod is connected with the locking cap, the threaded rod is in threaded connection with the protective cover, the distance between the locking cap and the roller is adjusted through the rotating rod, and the roller is kept locked when the locking cap is contacted with the roller, so that the mobile device is fixed at the target position.

The height adjusting module 2 is used for adjusting the height of the baking lamp module 4, so that the baking lamp module 4 is arranged at a proper height for irradiation, and is connected with the direction adjusting module 3 and the moving module 1. The height adjusting module 2 is a plurality of telescopic rods sleeved with each other, the diameter of the outer telescopic rod is larger than that of the inner telescopic rod, and the height of the baking lamp module 4 is adjusted by drawing out the plurality of inner telescopic rods. The outermost telescopic link fixed connection is in the removal module 1, and the innermost telescopic link fixed connection is in direction adjustment module 3.

The direction adjusting module 3 is used for adjusting the direction of the baking lamp module 4, so that the direction of the baking lamp module 4 is changed when the direction of the moving module 1 is not adjusted or rotated, and the height adjusting module 2 and the baking lamp module 4 are connected. The direction adjustment module 3 comprises a first connecting portion, connecting strips, a second connecting portion and a sleeve, wherein a plurality of connecting strips are connected to the first connecting portion and the second connecting portion, the first connecting portion, the connecting strips and the second connecting portion are arranged inside the sleeve, the first connecting portion is fixedly connected with the height adjustment module 2, and the second connecting portion is fixedly connected with the baking lamp module 4. In a preferred embodiment of the present embodiment, the connecting strip is a mechanical connector, which may be a hinge or other mechanism that connects two different parts and provides a rotatable joint between them, such that the direction is adjusted by turning the second connecting part.

The baking lamp module 4 may be an infrared baking lamp or other baking lamps, and is used for emitting heat radiation, and is connected with the direction adjusting module 3 and the lampshade module 5. The roast lamp acts through heat radiation, accelerating local blood circulation. The irradiation to the local can make subcutaneous tissue and muscle produce heat effect, accelerate local blood circulation loop, increase metabolism, and play a role in diminishing inflammation and relieving pain. For the wound which is not healed, the microcirculation can be improved by using the infrared baking lamp to irradiate, the epithelial cell proliferation is promoted, and the wound healing is facilitated. The baking lamp can promote blood circulation, restore cells to be young, improve anemia, and has important effects in accelerating local blood circulation.

The lamp shade module 5 is used for limiting or bundling the heat radiation emitted by the baking lamp module 4, so that the heat radiation of the baking lamp module 4 is locally irradiated and is connected with the baking lamp module 4. The lamp shade module 5 includes curtain, annular expansion bracket and support frame, and annular expansion bracket middle part fixed connection toasts lamp module 4, and the one end fixed connection of support frame is the same in the peripheral and the other end of support frame and roast lamp module 4 light direction of annular expansion bracket, and the curtain sets up in the surface of annular expansion bracket and support frame, and the curtain has opacity and radiation protection nature, keeps apart roast lamp module 4 and external environment through the curtain. In the preferred proposal of the embodiment, the supporting frame can be a supporting rod with fixed length or a telescopic rod with telescopic function, the length of the telescopic rod can be adjusted by using the telescopic rod, thereby the curtain with long distance can be supported,

The sensing module 6 is used for monitoring the environmental information and transmitting the environmental information to the analysis module 7, and is connected with the baking lamp module 4, the lampshade module 5 and the analysis module 7. The sensing module 6 comprises a temperature detector, a radiation detector and an illumination detector, wherein the first temperature detector is arranged in the baking lamp module 4 and is used for monitoring the first real-time temperature of the baking lamp module 4, and the first temperature detector is in information association with the baking lamp module 4, namely, the first temperature detector also transmits the type information of the baking lamp module 4 when transmitting the first real-time temperature; the second temperature detector is arranged on the curtain or the support rod near the treatment part of the user and is used for monitoring a second real-time temperature in the curtain; the radiation monitor is arranged on the curtain or the support rod near the treatment part of the user and is used for monitoring the radiation value in the curtain; the illumination detector is arranged on the curtain or the supporting rod and is close to the treatment position of the user and used for monitoring illumination intensity in the curtain, and the sensing module 6 transmits real-time environment information to the analysis module 7. The distance between the illumination detector and the first temperature detector is greater than the distance between the radiation detector and the first temperature detector, and the distance between the radiation detector and the first temperature detector is greater than the distance between the second temperature detector and the first temperature detector.

The configuration module 8 is used for configuring corresponding early warning schemes in different environment information and is connected with the analysis module 7. The configuration module 8 configures different environment threshold information according to the type of the baking lamp module 4, wherein the environment threshold information comprises a first temperature threshold, a second temperature threshold, a radiation threshold and an illumination intensity threshold, whether the temperature of the baking lamp module 4 is normal or not is judged through the comparison of the first real-time temperature and the first temperature threshold, whether the temperature in the curtain is normal or not is judged through the comparison of the second real-time temperature and the second temperature threshold, whether the radiation value in the curtain is normal or not is judged through the comparison of the radiation value and the radiation threshold, and whether the illumination intensity in the curtain is normal or not is judged through the comparison of the illumination intensity and the illumination intensity threshold. The configuration module 8 provides different environmental threshold information according to different baking lamp modules 4, so that early warning analysis of different baking lamp modules 4 can be met.

The analysis module 7 is used for obtaining an early warning scheme based on environmental information analysis and is connected with the sensing module 6 and the configuration module 8. The analysis module 7 obtains the environmental information from the sensing module 6 and obtains the kind of the roast lamp module 4 through the first temperature detector association, and extracts the environmental threshold information of the kind from the configuration module 8 based on the kind of the roast lamp module 4. Analyzing and obtaining a corresponding early warning scheme based on the environment information and the environment threshold information, and when the first real-time temperature is smaller than or equal to a first temperature threshold value, the second real-time temperature is smaller than or equal to a second temperature threshold value, the radiation value is smaller than or equal to a radiation threshold value, and the illumination intensity is smaller than or equal to an illumination intensity threshold value, the system normally operates; when the first real-time temperature is greater than a first temperature threshold, the second real-time temperature is less than or equal to a second temperature threshold, the radiation value is less than or equal to the radiation threshold, and the illumination intensity is less than or equal to the illumination intensity threshold, a first early warning scheme is executed, the temperature of the baking lamp is too high, the baking lamp is early warned, and the state of baking lamp equipment is checked; when the second real-time temperature is greater than a second temperature threshold, the first real-time temperature is less than or equal to a first temperature threshold, the radiation value is less than or equal to the radiation threshold, and the illumination intensity is less than or equal to the illumination intensity threshold, a second early warning scheme is executed, the environment temperature is too high, the environment is early warned, and the mobile curtain dissipates heat; when the radiation value is larger than the radiation threshold, the first real-time temperature is smaller than or equal to the first temperature threshold, the second real-time temperature is smaller than or equal to the second temperature threshold, and the illumination intensity is smaller than or equal to the illumination intensity threshold, a third early warning scheme is executed, and the radiation value is too high, so that the baking lamp module 4 and surrounding equipment need to be detected; when the illumination intensity is larger than the illumination intensity threshold, the first real-time temperature is smaller than or equal to the first temperature threshold, the second real-time temperature is smaller than or equal to the second temperature threshold, and the radiation value is smaller than or equal to the radiation threshold, a fourth early warning scheme is executed, and the state of the baking lamp module 4 and the shielding range of the curtain need to be detected; when the first real-time temperature is greater than the first temperature threshold and the second real-time temperature is greater than the second temperature threshold, executing a fifth early warning scheme, wherein the baking lamp module 4 may have abnormal equipment, and the state of the baking lamp module 4 needs to be detected in time.

The early warning module 9 acquires the early warning scheme of the analysis module 7 and carries out early warning according to the early warning scheme, and is connected with the analysis module 7. The warning module 9 is configured with an indicator light and a horn, and reports the warning scheme and the abnormal environmental information in the warning scheme through the horn, for example, the abnormal environmental information of the fourth warning scheme is illumination intensity. The emergency degree of the early warning scheme is represented through the lamplight color and the flashing period of the indicator lamp, for example, when the early warning scheme is a fifth early warning scheme, the indicator lamp is red, the flashing period is 0.3 seconds, and when the early warning schemes are a first early warning scheme to a fourth early warning scheme, the indicator lamp is yellow, and the flashing period is 0.8 seconds.

The control module 10 is used for controlling the operation mode of the baking lamp module 4, switching the operation mode of the baking lamp module 4 according to the early warning scheme of the analysis module 7 and connecting the baking lamp module 4 and the analysis module 7. When the baking lamp module 4 operates, the control module 10 controls the operation mode of the baking lamp module 4, and when the early warning scheme is a fifth early warning scheme, the control module 10 controls the baking lamp module 4 to be turned off.

The display module 11 is used for displaying the baking lamp information of the baking lamp module 4 and the environment information of the surrounding environment of the lampshade module 5 and the baking lamp module 4, and is connected with the height adjusting module 2, the sensing module 6 and the baking lamp module 4. The display module 11 includes a connection table fixedly connected to the height adjusting module 2, and a display screen fixedly connected to the connection table, the table surface of which is parallel to the ground. The display screen is in signal connection with the sensing module 6, and the sensing module 6 transmits environmental information to the display screen; the display screen signal connection roast lamp module 4, roast lamp module 4 transmits equipment information and operation to the display screen.

Example two

As shown in fig. 2, the early warning method of the integral baking lamp comprises the following steps:

s1: setting a baking lamp operation mode and starting the baking lamp;

s2: monitoring environmental information in the baking lamp and the curtain;

S3: based on the baking lamp matching environment threshold information, an early warning scheme is obtained based on the environment information and the environment threshold information;

s4: and carrying out early warning and switching the operation mode of the baking lamp based on the early warning scheme.

In step S1, a roast lamp operation mode is set and a roast lamp is started. Specifically, the operation mode of the baking lamp module 4 is determined based on the user condition, and after the user enters the curtain, the curtain is swung again so that the curtain can isolate the baking lamp module 4 from the external environment to a certain extent. After the curtain is arranged, the baking lamp module 4 is started by the control module 10, and the baking lamp module 4 works according to the set operation mode.

In step S2, environmental information in the baking lamp and the curtain is monitored. Specifically, environmental information is monitored through the sensing module 6, the sensing module 6 comprises a temperature detector, a radiation detector and an illumination detector, the first temperature detector is arranged in the baking lamp module 4, and the first real-time temperature of the baking lamp module 4 is monitored; the second temperature detector is arranged on the curtain close to the treatment part of the user and used for monitoring a second real-time temperature in the curtain; the radiation monitor is arranged on the curtain close to the treatment part of the user and used for monitoring the radiation value in the curtain; the illumination detector is arranged on the curtain close to the treatment position of the user and monitors the illumination intensity in the curtain.

In step S3, the pre-warning scheme is obtained based on the environment information and the environment threshold information based on the environment threshold information matched with the baking lamp. Based on the roast lamp matching environment threshold information, specifically, the environment information and the kind information of the roast lamp module 4 transmitted by the first temperature detector are acquired from the sensing module 6, and the kind of environment threshold information is acquired from the configuration module 8 according to the kind information. Obtaining an early warning scheme based on the environment information and the environment threshold information, specifically, respectively comparing a first real-time temperature with a first temperature threshold, a second real-time temperature with a second temperature threshold, a radiation value with a radiation threshold, and an illumination intensity with an illumination intensity threshold, wherein when the first real-time temperature is smaller than or equal to the first temperature threshold and the second real-time temperature is smaller than or equal to the second temperature threshold and the radiation value is smaller than or equal to the radiation threshold and the illumination intensity is smaller than or equal to the illumination intensity threshold, the system normally operates; when the first real-time temperature is larger than the first temperature threshold, the second real-time temperature is smaller than or equal to the second temperature threshold, the radiation value is smaller than or equal to the radiation threshold, and the illumination intensity is smaller than or equal to the illumination intensity threshold, the scheme is a first early warning scheme; when the second real-time temperature is greater than the second temperature threshold, the first real-time temperature is less than or equal to the first temperature threshold, the radiation value is less than or equal to the radiation threshold, and the illumination intensity is less than or equal to the illumination intensity threshold, the scheme is a second early warning scheme; when the radiation value is larger than the radiation threshold, the first real-time temperature is smaller than or equal to the first temperature threshold, and the second real-time temperature is smaller than or equal to the second temperature threshold, and the illumination intensity is smaller than or equal to the illumination intensity threshold, the scheme is a third early warning scheme; when the illumination intensity is larger than the illumination intensity threshold, the first real-time temperature is smaller than or equal to the first temperature threshold, and the second real-time temperature is smaller than or equal to the second temperature threshold, and the radiation value is smaller than or equal to the radiation threshold, the scheme is a fourth early warning scheme; when the first real-time temperature is greater than the first temperature threshold and the second real-time temperature is greater than the second temperature threshold, the scheme is a fifth pre-warning scheme.

In step S4, early warning and switching of the running mode of the baking lamp are carried out based on the early warning scheme. Specifically, the early warning module 9 acquires the early warning scheme of the analysis module 7 and performs early warning according to the early warning scheme, the early warning module 9 is configured with an indicator lamp and a horn, and the early warning scheme and abnormal environment information in the early warning scheme are broadcasted through the horn. The emergency degree of the early warning scheme is represented through the lamplight color and the flashing period of the indicator lamp, for example, when the early warning scheme is a fifth early warning scheme, the indicator lamp is red, the flashing period is 0.3 seconds, and when the early warning schemes are a first early warning scheme to a fourth early warning scheme, the indicator lamp is yellow, and the flashing period is 0.8 seconds. When the pre-warning scheme is the fifth pre-warning scheme, the control module 10 controls the baking lamp module 4 to switch the operation mode to the off mode.

The baking lamp is moved, height adjusted and direction adjusted through the moving module 1, the height adjusting module 2 and the direction adjusting module 3, so that the baking lamp can meet different use scenes, and the applicability of the baking lamp is improved; the equipment information, the operation information and the environment information of the baking lamp module 4 are displayed through the display module 11, so that the equipment information and the environment information of the baking lamp during working can be visually consulted, and the safety of the baking lamp is improved; the environmental information is analyzed through the analysis module 7 to obtain an early warning scheme, the early warning is carried out according to the early warning scheme, the operation mode of the baking lamp is switched, the possible danger of the baking lamp can be found in time and avoided, and therefore the safety of the baking lamp is improved.

It will be appreciated by those skilled in the art that embodiments of the present invention may be provided as a method, system, or computer program product. Accordingly, the present invention may take the form of an entirely hardware embodiment or an embodiment combining software and hardware aspects. Furthermore, the present invention may take the form of a computer program product embodied on one or more computer-usable storage media (including, but not limited to, disk storage, CD-ROM, optical storage, and the like) having computer-usable program code embodied therein.

The present invention is described with reference to flowchart illustrations and/or block diagrams of methods, apparatus (systems) and computer program products according to embodiments of the invention. It will be understood that each flow and/or block of the flowchart illustrations and/or block diagrams, and combinations of flows and/or blocks in the flowchart illustrations and/or block diagrams, can be implemented by computer program instructions. These computer program instructions may be provided to a processor of a general purpose computer, special purpose computer, embedded processor, or other programmable data processing apparatus to produce a machine, such that the instructions, which execute via the processor of the computer or other programmable data processing apparatus, create means for implementing the functions specified in the flowchart flow or flows and/or block diagram block or blocks.

These computer program instructions may also be stored in a computer-readable memory that can direct a computer or other programmable data processing apparatus to function in a particular manner, such that the instructions stored in the computer-readable memory produce an article of manufacture including instruction means which implement the function specified in the flowchart flow or flows and/or block diagram block or blocks.

These computer program instructions may also be loaded onto a computer or other programmable data processing apparatus to cause a series of operational steps to be performed on the computer or other programmable apparatus to produce a computer implemented process such that the instructions which execute on the computer or other programmable apparatus provide steps for implementing the functions specified in the flowchart flow or flows and/or block diagram block or blocks.

While preferred embodiments of the present invention have been described, additional variations and modifications in those embodiments may occur to those skilled in the art once they learn of the basic inventive concepts. It is therefore intended that the following claims be interpreted as including the preferred embodiments and all such alterations and modifications as fall within the scope of the invention.

It will be apparent to those skilled in the art that various modifications and variations can be made to the present invention without departing from the spirit or scope of the invention. Thus, it is intended that the present invention also include such modifications and alterations insofar as they come within the scope of the appended claims or the equivalents thereof.

Claims (9)

1. The integral baking lamp early warning method is characterized by comprising the following steps of:

s1: setting a baking lamp operation mode and starting the baking lamp;

s2: monitoring environmental information in the baking lamp and the curtain;

S3: based on the baking lamp matching environment threshold information, an early warning scheme is obtained based on the environment information and the environment threshold information;

s4: early warning and switching the operation mode of the baking lamp based on an early warning scheme;

The early warning scheme comprises the following steps: the first early warning scheme comprises the steps that the first real-time temperature is larger than a first temperature threshold value, and the second real-time temperature, the radiation value and the illumination intensity are smaller than or equal to corresponding threshold values;

The second real-time temperature is larger than a second temperature threshold value, and the first real-time temperature, the radiation value and the illumination intensity are smaller than or equal to corresponding threshold values;

The radiation value of the third early warning scheme is larger than the radiation threshold, and the first real-time temperature, the second real-time temperature and the illumination intensity are smaller than or equal to the corresponding thresholds;

The illumination intensity of the fourth early warning scheme is larger than an illumination intensity threshold value, and the first real-time temperature, the second real-time temperature and the radiation value are smaller than or equal to corresponding threshold values;

A fifth early warning scheme, wherein the first real-time temperature is greater than a first temperature threshold, the second real-time temperature is greater than a second temperature threshold, and the radiation value and the illumination intensity are both smaller than or equal to corresponding thresholds;

the first real-time temperature is the detection temperature of a first temperature detector in the baking lamp module, and the second real-time temperature is the detection temperature of a second temperature detector in the curtain.

2. The method of claim 1, wherein in S2, the environmental information includes a first real-time temperature, a second real-time temperature, a radiation value, and an illumination intensity.

3. The method for early warning of an integrated heat lamp according to claim 1 or 2, wherein in S3, based on heat lamp matching environment threshold information, the method comprises the steps of:

s31: configuring environment threshold information based on the type information of the roast lamp;

s32: the type information of the baking lamp transmitted by the first temperature detector;

S33: the environmental threshold information is matched based on the type information of the roast lamp.

4. The method of claim 1, wherein the pre-warning based on the pre-warning scheme comprises:

The early warning scheme is a first early warning scheme, a second early warning scheme, and the color of the indicator lamp is a first color when the third early warning scheme or the fourth early warning scheme is adopted, and the flicker period is 0.1 to 0.5 seconds;

When the early warning scheme is a fifth early warning scheme, the color of the indicator lamp is a second color, and the flicker period is 0.6 to 1 second;

wherein the first color and the second color are different colors.

5. The method of claim 1, wherein in S4, if and only if the pre-warning scheme is a fifth pre-warning scheme, the operation mode of the roast lamp is switched to the off mode.

6. The integral baking lamp suitable for the early warning method of the integral baking lamp as claimed in any one of claims 1 to 5, and is characterized by comprising: the mobile module is connected with the height adjusting module, the height adjusting module is connected with the direction adjusting module and the display module, the direction adjusting module is connected with the baking lamp module, the baking lamp module is connected with the lampshade module, the sensing module, the control module and the display module, the lampshade module is connected with the sensing module, the sensing module is connected with the analysis module and the display module, and the analysis module is connected with the configuration module, the early warning module and the control module.

7. The integrated roast lamp according to claim 6, wherein the direction adjusting module comprises a first connecting portion, connecting strips, a second connecting portion and a sleeve, the connecting strips are fixedly connected with the first connecting portion and the second connecting portion, the first connecting portion, the connecting strips and the second connecting portion are all arranged in the sleeve, the first connecting portion is fixedly connected with the height adjusting module, and the second connecting portion is fixedly connected with the roast lamp module.

8. The integrated baking lamp according to claim 6, wherein the lamp shade module comprises a curtain, an annular expansion bracket and a supporting frame, the middle part of the annular expansion bracket is fixedly connected with the baking lamp module, the annular structure of the annular expansion bracket is fixedly connected with one end of the supporting frame, and the curtain is arranged on the outer surfaces of the annular expansion bracket and the supporting frame;

the other end of the supporting frame is the same as the light direction of the baking lamp module.

9. The integrated baking lamp according to claim 6 or 8, wherein the sensing module comprises a first temperature detector, a second temperature detector, a radiation detector and an illumination detector, the first temperature detector is arranged in the baking lamp module, and the second temperature detector, the radiation detector and the illumination detector are arranged on the curtain or the support frame;

wherein, the distance between the illumination detector and the first temperature detector is greater than the distance between the radiation detector and the first temperature detector, and the distance between the radiation detector and the first temperature detector is greater than the distance between the second temperature detector and the first temperature detector.