CN108758783A - The temprature control method of spliced intelligent floor mat and spliced intelligent floor mat - Google Patents
The temprature control method of spliced intelligent floor mat and spliced intelligent floor mat Download PDFInfo
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- CN108758783A CN108758783A CN201810228694.2A CN201810228694A CN108758783A CN 108758783 A CN108758783 A CN 108758783A CN 201810228694 A CN201810228694 A CN 201810228694A CN 108758783 A CN108758783 A CN 108758783A
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- 238000010438 heat treatment Methods 0.000 claims abstract description 74
- 230000000694 effects Effects 0.000 abstract description 20
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- 230000006872 improvement Effects 0.000 description 4
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- 230000009286 beneficial effect Effects 0.000 description 2
- 230000036760 body temperature Effects 0.000 description 2
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24D—DOMESTIC- OR SPACE-HEATING SYSTEMS, e.g. CENTRAL HEATING SYSTEMS; DOMESTIC HOT-WATER SUPPLY SYSTEMS; ELEMENTS OR COMPONENTS THEREFOR
- F24D19/00—Details
- F24D19/10—Arrangement or mounting of control or safety devices
- F24D19/1096—Arrangement or mounting of control or safety devices for electric heating systems
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- H—ELECTRICITY
- H05—ELECTRIC TECHNIQUES NOT OTHERWISE PROVIDED FOR
- H05B—ELECTRIC HEATING; ELECTRIC LIGHT SOURCES NOT OTHERWISE PROVIDED FOR; CIRCUIT ARRANGEMENTS FOR ELECTRIC LIGHT SOURCES, IN GENERAL
- H05B1/00—Details of electric heating devices
- H05B1/02—Automatic switching arrangements specially adapted to apparatus ; Control of heating devices
- H05B1/0227—Applications
- H05B1/0252—Domestic applications
- H05B1/0275—Heating of spaces, e.g. rooms, wardrobes
- H05B1/0277—Electric radiators
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24D—DOMESTIC- OR SPACE-HEATING SYSTEMS, e.g. CENTRAL HEATING SYSTEMS; DOMESTIC HOT-WATER SUPPLY SYSTEMS; ELEMENTS OR COMPONENTS THEREFOR
- F24D2220/00—Components of central heating installations excluding heat sources
- F24D2220/04—Sensors
- F24D2220/046—Pressure sensors
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- General Engineering & Computer Science (AREA)
- Mattresses And Other Support Structures For Chairs And Beds (AREA)
- Central Heating Systems (AREA)
Abstract
The present embodiments relate to smart home field, a kind of temprature control method of spliced intelligent floor mat and spliced intelligent floor mat are disclosed.In the present invention, the temprature control method of this spliced intelligent floor mat, including:The current location of user in real;According to the user location currently got, the intelligently cushion block that user is currently located is determined;The intelligently cushion block heating that control user is currently located.According to user location, corresponding intelligently cushion block is obtained in real time, its fever is controlled, realizes real-time local heating, be conducive to improve user experience while reaching energy-saving effect.
Description
Technical Field
The embodiment of the invention relates to the field of intelligent home furnishing, in particular to a temperature control method of a spliced intelligent ground mat and the spliced intelligent ground mat.
Background
When the weather is cold or in cold areas, the floor surface of a common home can form a low temperature due to the influence of the weather, and when people walk or stay on the floor, the body temperature is easily absorbed from the sole of the foot by the cold floor, so that the body temperature is reduced and the people feel cold. Along with the improvement of people's quality of life, ground mat is more and more general in occasions such as family, hotel, wherein, but heating ground mat has satisfied the heating demand of people foot to a certain extent in the area that the weather is cold and do not have the heating installation because of its advantage that generates heat.
However, the inventors found that at least the following problems exist in the prior art: when the floor mat is controlled to generate heat, the floor mat is either completely hot or not, the area where the floor mat capable of generating heat is laid is usually large, all the floor mats generate heat, and energy waste to a large extent can be caused.
Disclosure of Invention
The embodiment of the invention aims to provide a temperature control method of a spliced intelligent floor mat and the spliced intelligent floor mat, so that a user can go to where to generate heat, the floor mat can be locally heated in a targeted manner, and the user experience is improved while the energy-saving effect is achieved.
In order to solve the technical problem, an embodiment of the present invention provides a temperature control method for a spliced intelligent floor mat, including: acquiring the current position of a user in real time; determining an intelligent ground cushion block where a user is currently located according to the currently acquired user position; and controlling the intelligent cushion block heating where the user is currently located.
The embodiment of the invention also provides a spliced intelligent floor mat, which comprises: at least one processor; and a memory communicatively coupled to the at least one processor; the memory stores instructions which can be executed by the at least one processor, and the instructions are executed by the at least one processor, so that the at least one processor can execute the temperature control method of the spliced intelligent floor mat.
Compared with the prior art, the method and the device for obtaining the current position of the user in real time; determining an intelligent ground cushion block where a user is currently located according to the currently acquired user position; and controlling the intelligent cushion block heating where the user is currently located. The area that the ground mat was laid usually is very big, and when normal use, not all places all need heat, consequently, according to user's real-time position, confirm the current intelligent ground cushion at place of user, pointed control ground mat heats, realize that the user steps on which hot effect of which piece, when realizing that the part generates heat, make the intelligence more that generates heat of intelligence ground mat, be favorable to improving user experience when reaching energy-conserving effect.
In addition, after the current position of the user is obtained in real time, the method further comprises the following steps: determining the current walking direction of the user according to the currently acquired user position and the user position acquired within the latest first preset time; acquiring M intelligent ground cushion blocks in the current walking direction, wherein M is a natural number greater than or equal to 1; after controlling the intelligent cushion block heating where the user is currently located, the method further comprises the following steps: and controlling the M intelligent cushion blocks to heat. The walking direction of the user is determined according to the currently acquired user position and the user position within the latest period of time, and the heating of the intelligent floor mats in the walking direction is controlled, so that the user experience is further improved.
In addition, control M intelligent ground cushion and begin to heat, specifically do: and respectively adjusting the temperatures of the M intelligent ground cushion blocks according to the distances between the centers of the M intelligent ground cushion blocks and the current position of the user, wherein the closer the intelligent ground cushion blocks are to the current position of the user, the higher the adjusted temperature is. The intelligent ground cushion block for controlling the walking direction of the user heats the ground cushion which is closer to the current position of the user, so that the user experience is improved, and the energy-saving effect is further achieved.
In addition, the current position of the user is obtained in real time, specifically: detecting the resistance values of the piezoresistors in real time, wherein the piezoresistors are uniformly arranged in the intelligent ground mat; when the resistance value of the piezoresistor is detected to become small, the position of the piezoresistor with the reduced resistance value is acquired, and the acquired position of the piezoresistor is determined as the current position of the user. The piezoresistors are uniformly arranged in the intelligent ground mat, and the current position of a user is determined through the resistance value change of the piezoresistors, so that the user can be accurately positioned.
In addition, after the intelligent cushion block where the user is currently located is determined, the method further comprises the following steps: detecting whether an intelligent floor cushion block meeting a first condition exists in the spliced intelligent floor mat; the first condition is that the intelligent cushion block is in a heating state and is not the intelligent cushion block where the user is currently located; if there is an intelligent mat that satisfies the first condition, the heating of the intelligent mat that satisfies the first condition is stopped. And the intelligent cushion block where the non-user is located is stopped heating, so that the energy-saving effect is further achieved.
In addition, after the intelligent cushion block where the user is currently located is determined, the method further comprises the following steps: detecting whether an intelligent floor cushion block meeting a second condition exists in the spliced intelligent floor mat; the second condition is that the intelligent cushion block is always in a heating state and is not a determined intelligent cushion block where the user is currently located within a second preset time period; if there is an intelligent mat that satisfies the second condition, the heating of the intelligent mat that satisfies the second condition is stopped. And the intelligent cushion block which is heated all the time but is not heated by the user is stopped to supply heat, so that the energy-saving effect is further achieved.
In addition, after controlling the heating of the intelligent floor mat block where the user is currently located, the method further comprises the following steps: and when the heating time of the intelligent cushion block where the user is currently located reaches a third preset time, stopping heating. When the time of a user on a certain intelligent cushion block exceeds a preset value, the heating of the intelligent cushion blocks is stopped, and the energy-saving effect is further achieved.
In addition, after the intelligent cushion block where the user is currently located is heated, the method further comprises the following steps: controlling P intelligent cushion blocks connected with the intelligent cushion block where the user is currently located to start heating, wherein P is a natural number greater than or equal to 1; the target temperature for heating the P intelligent floor cushion blocks is lower than the target temperature for heating the intelligent floor cushion block where the user is located currently. The intelligent cushion blocks around the position where the user is located are controlled to emit heat at low temperature, so that the user is guaranteed to be in a warm environment, and the user experience is further improved.
Drawings
One or more embodiments are illustrated by way of example in the accompanying drawings, which correspond to the figures in which like reference numerals refer to similar elements and which are not to scale unless otherwise specified.
Fig. 1 is a detailed flowchart of a temperature control method of a spliced intelligent floor mat according to a first embodiment of the invention;
FIG. 2 is a detailed flowchart of a temperature control method of a spliced intelligent floor mat according to a second embodiment of the invention;
fig. 3 is a detailed flowchart of a temperature control method of a spliced intelligent floor mat according to a third embodiment of the invention;
FIG. 4 is a detailed flowchart of a method for controlling the temperature of a spliced intelligent floor mat according to a fourth embodiment of the invention;
fig. 5 is a schematic structural diagram of a spliced intelligent floor mat according to a fifth embodiment of the invention.
Detailed Description
In order to make the objects, technical solutions and advantages of the embodiments of the present invention more apparent, embodiments of the present invention will be described in detail below with reference to the accompanying drawings. However, it will be appreciated by those of ordinary skill in the art that numerous technical details are set forth in order to provide a better understanding of the present application in various embodiments of the present invention. However, the technical solution claimed in the present application can be implemented without these technical details and various changes and modifications based on the following embodiments.
The first embodiment of the invention relates to a temperature control method of a spliced intelligent ground mat. The core of the embodiment lies in acquiring the current position of the user in real time; determining an intelligent ground cushion block where a user is currently located according to the currently acquired user position; and controlling the intelligent cushion block heating where the user is currently located. According to the position of a user, the corresponding intelligent ground cushion block is obtained in real time, heating of the intelligent ground cushion block is controlled, real-time local heating is achieved, and the energy-saving effect is achieved. The following describes the implementation details of the temperature control method of the intelligent floor mat according to the present embodiment in detail, and the following description is only provided for the convenience of understanding and is not necessary for implementing the present embodiment.
A specific flow of the temperature control method of the spliced intelligent floor mat in the embodiment is shown in fig. 1, and includes:
step 101: and acquiring the current position of the user in real time.
Specifically speaking, the user position can be obtained in real time in multiple modes, when the piezoresistors are uniformly arranged in the intelligent ground mat, the resistance values of the piezoresistors can be detected in real time, when the situation that the resistance values of the piezoresistors are reduced is detected, the positions of the piezoresistors with the reduced resistance values are obtained, and the obtained positions of the piezoresistors are determined as the current positions of the user. The piezoresistors are uniformly arranged in the intelligent ground mat, the current position of a user is determined through the resistance value change of the piezoresistors, and the real-time accurate positioning of the user is facilitated.
In addition, the current position of the user can also be acquired in real time through one of the following devices or any combination thereof: bluetooth equipment, infrared equipment, camera device. Adopt bluetooth equipment to acquire user's current position, for example, when the user wears the bluetooth bracelet, the intelligence ground mat pairs through bluetooth pairing mode and user's bracelet establishment, and the bluetooth bracelet is packed the positional information of oneself and is sent server or intelligent ground mat, then server or intelligent ground mat just can acquire current user's position. The current position of the user is obtained by adopting infrared equipment, for example, a plurality of infrared scanners are installed indoors, the intelligent floor mat area is scanned in real time, and when the outline of the user is scanned, the position of the outline is locked, so that the current position of the user is obtained. The current position of the user is obtained by the camera device, for example, a camera is installed indoors, a shot image of the intelligent floor mat is obtained in real time, and when the user is identified from the shot image, the user is locked, so that the current position of the user is obtained.
Step 102: and determining the intelligent cushion block where the user is currently located according to the currently acquired user position.
For example, the user position is obtained through the piezoresistor, the resistance value of the piezoresistor at the user position is reduced at the moment, and the floor mat block corresponding to the piezoresistor with the reduced resistance value is obtained according to the preset data, so that the intelligent floor mat block is determined to be the intelligent floor mat block where the user is currently located.
Step 103: and controlling the intelligent cushion block heating where the user is currently located.
For example, there are 9 intelligent cushion blocks, and after it is determined that the position of the user corresponds to the fifth intelligent cushion block, the intelligent floor mat automatically controls the fifth intelligent cushion block to heat.
It should be mentioned that, after controlling the heating of the intelligent floor mat where the user is currently located, the method further includes: and when the heating time of the intelligent cushion block where the user is currently located reaches a third preset time, stopping heating. For example, the third preset time period is 3 hours, and when the stay time of the user on a certain cushion block reaches 3 hours, the intelligent cushion block stops heating, so that the personal safety of the user and the safety of the intelligent floor mat are guaranteed. The third preset time period may be a preset value, or an average value updated according to actual conditions, and is not limited in detail here. When the time of a user on a certain intelligent cushion block exceeds a preset value, the heating of the intelligent cushion blocks is stopped, and the energy-saving effect is further achieved.
In addition, after the intelligent cushion block where the user is currently located is heated, the method further comprises the following steps: controlling P intelligent cushion blocks connected with the intelligent cushion block where the user is currently located to start heating, wherein P is a natural number greater than or equal to 1; the target temperature for heating the P intelligent floor cushion blocks is lower than the target temperature for heating the intelligent floor cushion block where the user is located currently. Assuming that the spliced intelligent floor mat has 9 intelligent floor mats, when the user is on the 5 th intelligent floor mat, the 2 nd, 4 th, 6 th and 8 th intelligent floor mats adjacent to the 5 th intelligent floor mat are controlled to be heated, assuming that the target temperature for heating the 5 th intelligent floor mat is 20 ℃, the target temperatures of the 2 nd, 4 th, 6 th and 8 th intelligent floor mats are 10 ℃, and the data is only exemplified, and in practical application, the adjustment is performed according to the actual situation. The intelligent cushion blocks around the position where the user is located are controlled to emit heat at low temperature, so that the user is guaranteed to be in a warm environment, and the user experience is further improved.
Compared with the prior art, the method and the device for obtaining the current position of the user in real time; determining an intelligent ground cushion block where a user is currently located according to the currently acquired user position; and controlling the intelligent cushion block heating where the user is currently located. The area that the ground mat was laid usually is very big, and when normal use, not all places all need heat, consequently, according to user's position, confirms specific intelligent ground cushion, and corresponding control ground mat heats, realizes that the user steps on which hot effect of which, realizes local heating promptly, is favorable to improving user's experience when reaching energy-conserving effect.
The second embodiment of the invention relates to a temperature control method of a spliced intelligent ground mat. The second embodiment is further improved on the basis of the first embodiment, and the main improvement is that: in the second embodiment of the present invention, after acquiring the current location of the user in real time, the method further includes: determining the current walking direction of the user according to the currently acquired user position and the user position acquired within the latest first preset time; acquiring M intelligent ground cushion blocks in the current walking direction, wherein M is a natural number greater than or equal to 1; after controlling the intelligent cushion block heating where the user is currently located, the method further comprises the following steps: and controlling the M intelligent cushion blocks to heat. According to several continuous positions, the walking direction of the user is determined, the heating of the intelligent floor mats in the walking direction is controlled, and the user experience is further improved.
A flow of a temperature control method of a spliced intelligent floor mat in this embodiment is shown in fig. 2, and specifically includes:
step 201: and acquiring the current position of the user in real time.
Step 202: and determining the intelligent cushion block where the user is currently located according to the currently acquired user position.
Step 203: and determining the current walking direction of the user according to the currently acquired user position and the user position acquired within the latest first preset time.
Specifically, when the user is currently on the 5 th intelligent mat and the user was on the 8 th intelligent mat in the previous 1 second, the walking direction of the user may be determined to be the vector direction from the 8 th intelligent mat to the 5 th intelligent mat.
Step 204: and acquiring M intelligent ground cushion blocks in the current walking direction.
Specifically, when the walking direction of the user is known as the vector direction from the 8 th intelligent cushion block to the 5 th intelligent cushion block, a plurality of intelligent cushion blocks in the direction are obtained, and here, the numbers of the plurality of intelligent cushion blocks are obtained. All the intelligent cushion block heat in the vector direction from the 8 th intelligent cushion block to the 5 th intelligent cushion block can be obtained, or the intelligent cushion blocks with fixed number in the direction can be obtained, and the serial numbers of the 3 intelligent cushion blocks in the due north direction of the user are obtained if the preset M is 3.
Step 205: and controlling the intelligent cushion block heating where the user is currently located.
Step 206: and controlling the M intelligent cushion blocks to heat.
Specifically, the intelligent cushion blocks can be controlled to be heated at the same temperature or different temperatures. Control M intelligent ground cushion and begin to heat, specifically do: and respectively adjusting the temperatures of the M intelligent ground cushion blocks according to the distances between the centers of the M intelligent ground cushion blocks and the current position of the user, wherein the closer the intelligent ground cushion blocks are to the current position of the user, the higher the adjusted temperature is. For example, if the current position of the user is a, 3 intelligent floor mats are arranged in the walking direction, and the distances a between the three intelligent floor mats are 10cm, 20cm and 30cm, the corresponding temperatures of the three intelligent floor mats are adjusted to 30 ℃, 20 ℃ and 10 ℃ respectively, which is convenient for explanation and distance explanation, and in practical application, the temperature adjustment is changed according to actual conditions. The intelligent ground cushion block for controlling the walking direction of the user is heated, and the ground cushion block closer to the current position of the user is hotter, so that the user experience is improved, and the energy-saving effect is further achieved.
Since steps 201-202 and 205 in this embodiment are substantially the same as steps 101 to 103 in the first embodiment, the description is omitted here for avoiding redundancy. In the second embodiment, the above steps are divided for clarity, and in actual implementation, the steps 202 to 206 may be sequentially adjusted according to actual situations.
Compared with the prior art, the method and the device for controlling the heating of the intelligent floor mat block determine the walking direction of the user according to the nearest continuous positions, control the heating of the intelligent floor mat block in the walking direction, and are beneficial to further improving the user experience. The intelligent ground mat that controls user walking direction heats soon, and the ground cushion that is nearer to user's current position is hotter, not only is favorable to improving user's experience, also is favorable to further reaching energy-conserving effect.
The third embodiment of the invention relates to a temperature control method of a spliced intelligent ground mat. The third embodiment is further improved on the basis of the first embodiment, and the main improvement is that: after the intelligent cushion block where the user is currently located is determined, the method further comprises the following steps: detecting whether an intelligent floor cushion block meeting a first condition exists in the spliced intelligent floor mat; the first condition is that the intelligent cushion block is in a heating state and is not the intelligent cushion block where the user is currently located; if there is an intelligent mat that satisfies the first condition, the heating of the intelligent mat that satisfies the first condition is stopped. And the intelligent cushion block where the user is not located is immediately stopped heating, so that the energy-saving effect is further achieved.
A flow of the temperature control method of the spliced intelligent floor mat in this embodiment is shown in fig. 3, and specifically includes:
step 301: and acquiring the current position of the user in real time.
Step 302: and determining the intelligent cushion block where the user is currently located according to the currently acquired user position.
Step 303: and detecting whether an intelligent cushion block meeting a first condition exists in the spliced intelligent ground mat, if so, entering a step 304, and otherwise, entering a step 305.
Specifically, the first condition is that the floor mat is in a heating state and is not the intelligent floor mat in which the user is currently located, and whether a floor mat in which the user is not located is in heating is detected, for example, 9 intelligent floor mats are detected, whether the intelligent floor mat in which the user is not located is in a heating state but is in a heating state is detected, if yes, step 304 is performed, otherwise, step 305 is performed.
Step 304: the heating of the intelligent mat satisfying the first condition is stopped.
For example, when the intelligent cushion block 5 is detected to be heating, but the intelligent cushion block 5 cannot detect a user, the intelligent cushion block 5 is controlled to stop heating, so that the situation that no one is still heating is avoided, and the effect of saving energy is achieved.
Step 305: and controlling the intelligent cushion block heating where the user is currently located.
Since steps 301-302 and 305 in this embodiment are substantially the same as steps 101-103 in the first embodiment, they are not described herein again to avoid repetition.
Compared with the prior art, the method and the device for detecting the heating of the intelligent floor mat have the advantages that whether the intelligent floor mat block where the non-user is located is heated or not is detected, if yes, the intelligent floor mat block where the non-user is located is stopped to be heated, namely, the heating of the floor mat block where the user is not located is immediately stopped, and the effect of saving energy is further achieved.
The fourth embodiment of the invention relates to a temperature control method of a spliced intelligent ground mat. The fourth embodiment is further improved on the basis of the first embodiment, and the main improvement is that: after the intelligent cushion block where the user is currently located is determined, the method further comprises the following steps: detecting whether an intelligent floor cushion block meeting a second condition exists in the spliced intelligent floor mat; the second condition is that the intelligent cushion block is always in a heating state and is not a determined intelligent cushion block where the user is currently located within a second preset time period; if there is an intelligent mat that satisfies the second condition, the heating of the intelligent mat that satisfies the second condition is stopped. The heat supply of the floor mat blocks which are heated all the time but are not located by the user is stopped, so that the energy-saving effect is further achieved.
A flow of the temperature control method of the spliced intelligent floor mat in this embodiment is shown in fig. 4, and specifically includes:
step 401: and acquiring the current position of the user in real time.
Step 402: and determining the intelligent cushion block where the user is currently located according to the currently acquired user position.
Step 403: and detecting whether the intelligent cushion block meeting the second condition exists in the spliced intelligent ground mat, if so, entering a step 404, and otherwise, entering a step 405.
Specifically, the second condition is that, within a second preset time period, the spliced intelligent floor mat is always in a heating state and is not always a certain intelligent floor mat in which the user is currently located, that is, whether the spliced intelligent floor mat is always heated for a period of time is detected, and no intelligent floor mat of the user exists in the period of time, for example, the 5 th intelligent floor mat is always heated within three minutes of leaving of the user, and the user is not detected within the three minutes, if the intelligent floor mat exists, the step 404 is entered, otherwise, the step 405 is entered.
Step 404: the heating of the intelligent mat satisfying the second condition is stopped.
Specifically speaking, the intelligent floor mat block which is always heated but does not detect the user stops heating within the detected period of time, so that the situation that the intelligent floor mat is always heated under the condition that no person exists is avoided, and the energy-saving effect is further favorably achieved.
Step 405: and controlling the intelligent cushion block heating where the user is currently located.
Since steps 401 to 402 and 405 in this embodiment are substantially the same as steps 101 to 103 in the first embodiment, the description is omitted here for avoiding redundancy.
Compared with the prior art, the embodiment of the invention detects whether the spliced intelligent floor mat is heated all the time but has no floor mat blocks of the user, controls the floor mat blocks to stop heating if the spliced intelligent floor mat exists, namely after the position where the user is absent is heated for a period of time, stops heating if the user is not detected, and is beneficial to achieving the energy-saving effect and further improving the user experience.
The steps of the above methods are divided for clarity, and the implementation may be combined into one step or split some steps, and the steps are divided into multiple steps, so long as the same logical relationship is included, which are all within the protection scope of the present patent; it is within the scope of the patent to add insignificant modifications to the algorithms or processes or to introduce insignificant design changes to the core design without changing the algorithms or processes.
A fifth embodiment of the present invention relates to a spliced intelligent floor mat, as shown in fig. 5, including: at least one processor 501; and a memory 502 communicatively coupled to the at least one processor 501; the memory 502 stores instructions executable by the at least one processor 501, and the instructions are executed by the at least one processor 501, so that the at least one processor 501 can execute the temperature control method of the spliced intelligent floor mat.
The memory 502 and the processor 501 are coupled by a bus, which may include any number of interconnected buses and bridges that couple one or more of the various circuits of the processor 501 and the memory 502 together. The bus may also connect various other circuits such as peripherals, voltage regulators, power management circuits, and the like, which are well known in the art, and therefore, will not be described any further herein. A bus interface provides an interface between the bus and the transceiver. The transceiver may be one element or a plurality of elements, such as a plurality of receivers and transmitters, providing a means for communicating with various other apparatus over a transmission medium. The data processed by the processor 501 is transmitted over a wireless medium through an antenna, which further receives the data and transmits the data to the processor 501.
The processor 501 is responsible for managing the bus and general processing and may also provide various functions including timing, peripheral interfaces, voltage regulation, power management, and other control functions. And memory 502 may be used to store data used by processor 501 in performing operations.
Those skilled in the art will understand that all or part of the steps in the method according to the above embodiments may be implemented by a program instructing related hardware to complete, where the program is stored in a storage medium and includes several instructions to enable a device (which may be a single chip, a chip, etc.) or a processor (processor) to execute all or part of the steps in the method according to the embodiments of the present application. And the aforementioned storage medium includes: a U-disk, a removable hard disk, a Read-only Memory (ROM), a Random Access Memory (RAM), a magnetic disk or an optical disk, and other various media capable of storing program codes.
It will be understood by those of ordinary skill in the art that the foregoing embodiments are specific examples for carrying out the invention, and that various changes in form and details may be made therein without departing from the spirit and scope of the invention in practice.
Claims (10)
1. A temperature control method of a spliced intelligent floor mat is characterized by comprising the following steps:
acquiring the current position of a user in real time;
determining an intelligent ground cushion block where a user is currently located according to the currently acquired user position;
and controlling the intelligent cushion block heating where the user is currently located.
2. The method for controlling the temperature of the spliced intelligent floor mat according to claim 1, wherein after acquiring the current position of the user in real time, the method further comprises:
determining the current walking direction of the user according to the currently acquired user position and the user position acquired within the latest first preset time;
acquiring M intelligent ground cushion blocks in the current walking direction, wherein M is a natural number greater than or equal to 1;
after the controlling the intelligent cushion block where the user is currently located to heat, the method further comprises the following steps:
and controlling the M intelligent floor mat blocks to heat.
3. The temperature control method of the spliced intelligent floor mat as claimed in claim 2, wherein the step of controlling the M intelligent floor mats to start heating comprises:
and respectively adjusting the temperatures of the M intelligent cushion blocks according to the distance between the centers of the M intelligent cushion blocks and the current position of the user, wherein the closer the intelligent cushion blocks are to the current position of the user, the higher the adjusted temperature is.
4. The temperature control method of the spliced intelligent floor mat according to claim 1, wherein the real-time acquisition of the current position of the user specifically comprises:
detecting the resistance values of the piezoresistors in real time, wherein the piezoresistors are uniformly arranged in the intelligent ground mat;
when the resistance value of the piezoresistor is detected to be reduced, the position of the piezoresistor with the reduced resistance value is obtained, and the obtained position of the piezoresistor is determined as the current position of the user.
5. The temperature control method of the spliced intelligent floor mat according to claim 1, wherein the real-time acquisition of the current position of the user specifically comprises: acquiring the current position of the user in real time through one of the following devices or any combination thereof:
bluetooth equipment, infrared equipment, camera device.
6. The method for controlling the temperature of the spliced intelligent floor mat according to claim 1, wherein after determining the intelligent floor mat where the user is currently located, the method further comprises:
detecting whether an intelligent floor cushion block meeting a first condition exists in the spliced intelligent floor mat; wherein the first condition is that the intelligent cushion block is in a heating state and is not the current position of the user;
and if the intelligent cushion block meeting the first condition exists, stopping heating the intelligent cushion block meeting the first condition.
7. The method for controlling the temperature of the spliced intelligent floor mat according to claim 1, wherein after determining the intelligent floor mat where the user is currently located, the method further comprises:
detecting whether an intelligent floor cushion block meeting a second condition exists in the spliced intelligent floor mat; the second condition is that the intelligent cushion block is always in a heating state and is not determined currently where the user is located within a second preset time period;
and if the intelligent cushion block meeting the second condition exists, stopping heating the intelligent cushion block meeting the second condition.
8. The method for controlling the temperature of the spliced intelligent floor mat according to claim 1, wherein after the intelligent floor mat controlling the current location of the user is heated, the method further comprises:
and when the heating time of the intelligent floor cushion block where the user is currently located reaches a third preset time, stopping heating.
9. The method for controlling the temperature of the spliced intelligent floor mat according to claim 1, further comprising, after the intelligent floor mat where the user is currently located is heated:
controlling P intelligent cushion blocks connected with the intelligent cushion block where the user is currently located to start heating, wherein P is a natural number greater than or equal to 1;
the target temperature for heating the P intelligent floor mats is lower than the target temperature for heating the intelligent floor mat where the user is currently located.
10. A spliced intelligent floor mat, comprising:
at least one processor; and the number of the first and second groups,
a memory communicatively coupled to the at least one processor; wherein,
the memory stores instructions executable by the at least one processor to enable the at least one processor to perform the method of controlling the temperature of a tiled intelligent floor mat according to any one of claims 1 to 9.
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