CN210292050U - Pressure power generation electromagnetic heating floor - Google Patents
Pressure power generation electromagnetic heating floor Download PDFInfo
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- CN210292050U CN210292050U CN201920540895.6U CN201920540895U CN210292050U CN 210292050 U CN210292050 U CN 210292050U CN 201920540895 U CN201920540895 U CN 201920540895U CN 210292050 U CN210292050 U CN 210292050U
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Abstract
The utility model belongs to the technical field of the floor technique and specifically relates to a pressure electricity generation electromagnetic heating floor. The floor comprises a floor layer, a heating module, a piezoelectric layer and an intelligent system installed indoors. The utility model discloses a mechanical energy conversion that the floor on the one hand can go people or thing through the floor is electric energy storage and gets up to utilize, and on the other hand can carry out intelligent heating to the floor through the electromagnetic induction effect, makes the utility model discloses a floor heating is fast, efficient, the use is got up safely relieved, also can make the energy recycle simultaneously, and is energy-concerving and environment-protective.
Description
Technical Field
The utility model belongs to the technical field of the floor technique and specifically relates to a pressure electricity generation electromagnetic heating floor.
Background
Heating floor has been commonly used in family life at present, but present heating floor carries out the bulk heating to the floor through the heating resistor silk, and the life of heating resistor silk is short, very easily damages, and heating efficiency is low, heats slowly. On the contrary, the electromagnetic induction heating device is heated by the electromagnetic induction effect, has high heating speed and high heating efficiency, and is safe and reliable to use.
Piezoelectric ceramics are information functional materials that interconvert mechanical energy and electrical energy. When an external force is applied to the piezoelectric ceramic, the piezoelectric material generates an induced charge and an output voltage due to the positive piezoelectric effect. And the piezoelectric material is not influenced by a magnetic field and can be well combined with electromagnetic induction heating.
SUMMERY OF THE UTILITY MODEL
The utility model aims to solve the technical problem that a pressure electricity generation electromagnetic heating floor is provided, the utility model discloses a mechanical energy conversion that the floor was gone through to people or thing on the one hand can be stored for the electric energy and utilizes, and on the other hand can carry out intelligent heating to the floor through the electromagnetic induction effect, makes the utility model discloses a floor heating is fast, efficient, also can make the energy recycle simultaneously, and is energy-concerving and environment-protective.
In order to solve the technical problem, the technical scheme of the utility model is so realized:
a pressure power generation electromagnetic heating floor comprises a floor layer, a heating module, a piezoelectric layer and an intelligent system arranged indoors, wherein the floor layer is arranged on the floor layer;
the floor comprises a floor layer, and the bottom surface of the floor layer is fixedly connected with the heating module;
the heating module comprises a heating layer, the bottom surface of the heating layer is fixedly connected with a first heat insulation layer, the bottom surface of the first heat insulation layer is fixedly connected with an electrified layer, the electrified layer comprises a supporting plate, the supporting plate is a hollow cube, wire holes are respectively formed in the left frame and the right frame of the supporting plate, a first insulation pad is fixed on the upper plate surface in the supporting plate, a second insulation pad is fixed on the lower plate surface, a round iron column is arranged between the first insulation pad and the second insulation pad and fixedly connected to the left frame and the right frame of the supporting plate, an electrified wire is wound on the iron column, and the bottom surface of the electrified layer is fixedly connected with the second;
the piezoelectric layer is fixedly connected to the bottom surface of the second heat insulation layer, and a plurality of piezoelectric ceramics are embedded in the piezoelectric layer;
the intelligent system comprises a rectifier, a storage battery, a controller, a temperature sensor and an inverter which are installed indoors.
Furthermore, the piezoelectric ceramic is connected to the input end of a rectifier arranged indoors through a lead, and the output end of the rectifier is connected to the storage battery through a lead.
Furthermore, the live wire in the live layer is connected with a controller arranged in a room, a temperature sensor arranged in the room transmits room temperature information to the controller through a lead, the commercial power is connected with the controller through the lead, the output end of the storage battery is connected with an inverter arranged in the room through the lead, and the output end of the inverter is also connected into the controller through the lead.
Further, the heating layer is made of stainless steel materials.
The utility model discloses compare prior art's beneficial effect:
the utility model discloses installed heating module and piezoelectric material additional on the floor, can go the mechanical energy conversion that passes through the floor with people or thing on the one hand and get up the utilization for the electric energy storage, on the other hand can carry out intelligent heating to the floor through the electromagnetic induction effect, makes the utility model discloses a floor heating is fast, efficient, also can make the energy recycle simultaneously, energy-concerving and environment-protective. Specifically, the method comprises the following steps:
1. the floor of the utility model has simple structure, the heating device is durable and not easy to damage;
2. the floor of the utility model can convert the mechanical energy of people or objects running through the floor into electric energy for storage and utilization, so that the energy can be efficiently utilized, and the floor is a novel energy-saving and environment-friendly new energy power generation facility;
3. the utility model discloses a floor adopts electromagnetic induction effect heating, and the heating is fast and heating efficiency is high, and the use is got up needn't worry like the production of the spontaneous combustion phenomenon of resistance wire heating, and the use is got up safely and is relieved.
Drawings
Fig. 1 is a schematic view of the overall structure of the present invention.
Fig. 2 is a plan view of the heating module of fig. 1.
Fig. 3 is a flowchart of the present invention.
In the figure: 1-floor layer; 2-a heating module; 3-a piezoelectric layer; 4-a rectifier; 5-a storage battery; 6-a controller; 7-a temperature sensor; 8-an inverter; 21-heating layer; 22-a first insulating layer; 23-an electrified layer; 24-a second insulating layer; 31-piezoelectric ceramics; 231-a support plate; 232-wire guide holes; 233 — first insulating pad; 234-a second insulating pad; 235-iron column; 236-live line.
Detailed Description
The invention is described in further detail with reference to the following specific examples:
as shown in fig. 1 and 2, the pressure power generation electromagnetic heating floor comprises a floor layer 1, a heating module 2, a piezoelectric layer 3 and an intelligent system installed indoors;
the floor comprises a floor layer 1, and the bottom surface of the floor layer 1 is fixedly connected with a heating module 2;
the heating module 2 comprises a heating layer 21, the bottom surface of the heating layer 21 is fixedly connected with a first heat insulation layer 22, the bottom surface of the first heat insulation layer 22 is fixedly connected with an electrifying layer 23, the electrifying layer 23 comprises a supporting plate 231, the supporting plate 231 is a hollow cube, wire holes 232 are respectively formed in the left frame and the right frame of the supporting plate 231, a first insulation pad 233 is fixed on the upper plate surface in the supporting plate 231, a second insulation pad 234 is fixed on the lower plate surface, a round iron column 235 is arranged between the first insulation pad 233 and the second insulation pad 234 and fixedly connected to the left frame and the right frame of the supporting plate 231, an electrifying wire 236 is wound on the iron column 235, and the bottom surface of the electrifying layer 23 is fixedly connected;
the piezoelectric layer 3 is fixedly connected to the bottom surface of the second heat insulation layer 24, and a plurality of piezoelectric ceramics 31 are embedded in the piezoelectric layer 3;
the intelligent system comprises a rectifier 4, a storage battery 5, a controller 6, a temperature sensor 7 and an inverter 8 which are installed indoors.
The piezoelectric ceramic 31 is connected to the input end of a rectifier 4 installed indoors through a lead, and the output end of the rectifier 4 is connected to the storage battery 5 through a lead.
The electrified wire 236 in the electrified layer 23 is connected to the indoor controller 6, the indoor temperature sensor 7 transmits the room temperature information to the controller 6 through a wire, the commercial power is connected to the controller 6 through a wire, the output end of the storage battery 5 is connected to the indoor inverter 8 through a wire, and the output end of the inverter 8 is also connected to the controller 6 through a wire.
The heating layer 21 is made of stainless steel material.
As shown in fig. 3, as a new preferred embodiment of the present invention: when people or objects run on the floor, the floor is pressed by gravity, so that the piezoelectric ceramics 31 arranged on the piezoelectric layer 3 are pressed to generate electricity, alternating current generated by the piezoelectric ceramics 31 is connected into a rectifier 4 arranged indoors through a lead, and is rectified into direct current by the rectifier 4 and then stored in a storage battery 5;
the controller 6 provides room temperature information by the temperature sensor 7 to control the electrification and the outage of an electrification wire 236 in an electrification layer 23 in the floor, so as to control the floor to heat and stop heating, and a power supply which is introduced into the controller 6 can be provided by commercial power on one hand and can be provided by alternating current which is inverted by direct current in the storage battery 5 through the inverter 8 on the other hand; when the room temperature is lower than the designated temperature, the controller 6 leads the power supply into the electrified wire 236, a magnetic field is generated around the electrified wire 236, the heating layer 21 is influenced by the magnetic field to generate heat, and the heat is transferred to the floor layer 1 and even to the whole room; when the room temperature is heated to a temperature higher than the predetermined temperature, the controller 6 will cut off the power supply of the energizing wire 236, the magnetic field around the energizing wire 236 disappears, and the heating layer 21 stops heating.
The above-mentioned embodiments are only to describe the preferred embodiments of the present invention, and various modifications and improvements made to the technical solutions of the present invention by those skilled in the art should fall within the protection scope defined by the claims of the present invention without departing from the design spirit of the present invention.
Claims (4)
1. The utility model provides a pressure electricity generation electromagnetic heating floor which characterized in that: the floor comprises a floor layer (1), a heating module (2), a piezoelectric layer (3) and an intelligent system arranged indoors;
the floor comprises a floor layer (1), and the bottom surface of the floor layer (1) is fixedly connected with a heating module (2);
the heating module (2) comprises a heating layer (21), the bottom surface of the heating layer (21) is fixedly connected with a first heat insulation layer (22), the bottom surface of the first heat insulation layer (22) is fixedly connected with an electrified layer (23), the electrified layer (23) comprises a supporting plate (231), the supporting plate (231) is a hollow cube, wire holes (232) are formed in the left frame and the right frame of the supporting plate (231), a first insulation pad (233) is fixed on the upper plate surface in the supporting plate (231), a second insulation pad (234) is fixed on the lower plate surface, a round iron column (235) is arranged between the first insulation pad (233) and the second insulation pad (234) and fixedly connected to the left frame and the right frame of the supporting plate (231), an electrified wire (236) is wound on the iron column (235), and the bottom surface of the electrified layer (23) is fixedly connected with the second heat insulation layer (24;
the piezoelectric layer (3) is fixedly connected to the bottom surface of the second heat insulation layer (24), and a plurality of piezoelectric ceramics (31) are embedded in the piezoelectric layer (3);
the intelligent system comprises a rectifier (4), a storage battery (5), a controller (6), a temperature sensor (7) and an inverter (8) which are installed indoors.
2. A pressure generating electromagnetic heating floor as claimed in claim 1, wherein: the piezoelectric ceramic (31) is connected to the input end of a rectifier (4) arranged indoors through a lead, and the output end of the rectifier (4) is connected to the storage battery (5) through a lead.
3. A pressure generating electromagnetic heating floor as claimed in claim 1, wherein: electrified line (236) in electrified layer (23) connect and install on indoor controller (6), install in indoor temperature sensor (7) room temperature information pass through the wire and transmit controller (6), the commercial power passes through wire connection controller (6), the output of battery (5) passes through the wire and connects and install in indoor inverter (8), the output of inverter (8) also passes through the wire and links into in controller (6).
4. A pressure generating electromagnetic heating floor as claimed in claim 1, wherein: the heating layer (21) is made of stainless steel materials.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201920540895.6U CN210292050U (en) | 2019-04-20 | 2019-04-20 | Pressure power generation electromagnetic heating floor |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201920540895.6U CN210292050U (en) | 2019-04-20 | 2019-04-20 | Pressure power generation electromagnetic heating floor |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| CN210292050U true CN210292050U (en) | 2020-04-10 |
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Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CN201920540895.6U Expired - Fee Related CN210292050U (en) | 2019-04-20 | 2019-04-20 | Pressure power generation electromagnetic heating floor |
Country Status (1)
| Country | Link |
|---|---|
| CN (1) | CN210292050U (en) |
Cited By (2)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN112228939A (en) * | 2020-10-13 | 2021-01-15 | 查崇雯 | Steam heating type intelligent floor heating floor |
| CN113565288A (en) * | 2021-08-18 | 2021-10-29 | 浙江长兴森大竹木制品有限公司 | Anti-mildew environment-friendly SPC lock floor structure and preparation process thereof |
-
2019
- 2019-04-20 CN CN201920540895.6U patent/CN210292050U/en not_active Expired - Fee Related
Cited By (2)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN112228939A (en) * | 2020-10-13 | 2021-01-15 | 查崇雯 | Steam heating type intelligent floor heating floor |
| CN113565288A (en) * | 2021-08-18 | 2021-10-29 | 浙江长兴森大竹木制品有限公司 | Anti-mildew environment-friendly SPC lock floor structure and preparation process thereof |
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| Date | Code | Title | Description |
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| GR01 | Patent grant | ||
| GR01 | Patent grant | ||
| CF01 | Termination of patent right due to non-payment of annual fee | ||
| CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20200410 |