CN112228939A

CN112228939A - Steam heating type intelligent floor heating floor

Info

Publication number: CN112228939A
Application number: CN202011091243.2A
Authority: CN
Inventors: 查崇雯
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-10-13
Filing date: 2020-10-13
Publication date: 2021-01-15

Abstract

The invention discloses a steam-heated intelligent floor heating, which relates to the technical field of floor heating, and comprises a plate body, wherein the plate body consists of a top plate and a bottom plate fixedly connected to the bottom of the top plate, a plurality of piezoelectric sheets are fixedly connected to the interface of the top plate and the bottom plate, the piezoelectric sheets are all electrically connected with a pulse circuit, the pulse circuit is arranged in the bottom plate and is electrically connected with an external power supply, a heating pipe is laid in the bottom plate, two ends of the heating pipe are communicated with an external heat supply steam source, a plurality of electromagnets are fixedly connected in the bottom plate, when indoor personnel stay or walk on a local area of the local floor heating, the flow control of hot air in the heating pipe is realized through the control of the piezoelectric sheets, the pulse circuit and the electromagnets on springs built in sponge strips, and finally the purpose of independent high heat control of the steam-heated floor heating is achieved, the requirement of indoor personnel on higher heating in the area where the indoor personnel are located compared with the surrounding area is met.

Description

Steam heating type intelligent floor heating floor

Technical Field

The invention relates to the technical field of floor heating floors, in particular to a steam-heating type intelligent floor heating floor.

Background

Ground warms up to be one of heating mode, compares in traditional heating mode, follows the heat source promptly to carrying out the mode of heat supply all around, warms up to carry out indoor whole even heating from ground, forms respectively by the ascending temperature gradient in ground to do benefit to the demand that people experienced to balanced heating. However, the energy consumption of the large-area floor heating is large when the large-area floor heating works, in order to reduce the energy consumption, the heating power of the floor heating in unit area needs to be reduced, the temperature rise effect of the floor heating is reduced, and meanwhile, the problem that the rapid aging of the heating floor is caused by the rapid temperature rise and temperature reduction is also avoided. However, when people stay or walk on the floor heating area, the sensible temperature is not obvious enough compared with the surrounding area, so that the requirement of people for higher heating of the area where the people are located is difficult to provide. The floor heating equipment of current vapour warm type is at the during operation, can't effectively carry out effective independent heating control to the vapour warm pipeline, consequently can't form the high heating effect in people's place region.

Disclosure of Invention

The invention provides a steam heating type intelligent floor heating floor, and aims to solve the problem that steam heating type floor heating equipment cannot effectively and independently control heating of a steam heating pipeline when in work in the prior art.

In order to achieve the purpose, the invention adopts the following technical scheme:

a steam-heating type intelligent floor heating floor comprises a plate body, wherein the plate body is composed of a top plate and a bottom plate fixedly connected to the bottom of the top plate, a plurality of piezoelectric patches are fixedly connected to the interface of the top plate and the bottom plate and are all electrically connected with a pulse circuit, the pulse circuit is arranged in the bottom plate and is electrically connected with an external power supply, a heating pipe is laid in the bottom plate, two ends of the heating pipe are communicated with an external heating steam source, a plurality of electromagnets are fixedly connected to the inside of the bottom plate and correspond to the piezoelectric patches one by one and are electrically connected with the pulse circuit, the corresponding electromagnets and the piezoelectric patches are located in the vertical direction of the heating pipe, a central shaft is coaxially arranged in the heating pipe, a plurality of supports are coaxially and fixedly connected between the periphery side of the central shaft and the periphery side of the heating pipe, and sponge strips are coaxially sleeved on the central shaft between the supports, the sponge strip is embedded with a built-in spring, the outer periphery of the sponge strip is coaxially and fixedly connected with an elastic bag, and the electromagnet is electrified to change the internal magnetic flux of the built-in spring so as to generate electromagnetic induction.

Preferably, the pulse circuit receives the electrical signal of the piezoelectric sheet and outputs a pulse current to the electromagnet corresponding to the piezoelectric sheet, wherein all the pulse currents controlled by the pulse circuit are controlled by the same time sequence.

Preferably, a plurality of the brackets are all in a cross shape and are distributed in the axial direction of the heating pipe at equal intervals.

Preferably, the sponge strip bulges toward the outer peripheral side when the innerspring is compressed, and contracts toward the inner peripheral side when the innerspring is expanded.

Preferably, the elastic bag has elasticity and is sealed to block the hot air flow in the heating pipe.

Compared with the prior art, the invention has the following beneficial effects:

1. when the invention is used for heating, hot air flow in the heating pipe gives off heat outwards in the flowing process, and then heat is supplied to the indoor through the bottom plate and the top plate, so that the preliminary balanced heating effect is completed, and a warm environment is provided for indoor personnel;

if the local area of the top plate is continuously stepped by indoor personnel, the top plate transmits the pressure to the piezoelectric sheet in the area, the piezoelectric sheet outputs an electrical signal to the pulse circuit after being extruded, the pulse circuit outputs pulse current to the electromagnet corresponding to the piezoelectric sheet, the magnetic field of the electromagnet is continuously enhanced in the electrifying process, so that the magnetic flux in the built-in spring in the sponge strip in the heating pipe is changed, the built-in spring generates electromagnetic induction and expands towards two sides according to the Lenz's law, the sponge strip in the area shrinks inwards in the middle part and bulges outwards at two ends along with the change of the built-in spring, and fluctuates towards two ends of the sponge strip by the envelope, compared with a method for blocking hot air flow to improve heat loss, the method enables the hot air to gather at the extruded part of the sponge strip and slow down the flow rate and improve the capacity, thereby more accurately providing a small-range high heating effect for the, the heating experience of indoor personnel is improved.

2. When heating is carried out, if indoor personnel walk on the top plate, the top plate is extruded in different positions in time and in different positions, so that the piezoelectric sheets output electric signals to the pulse circuit in sequence, and the fluctuation formed by the built-in spring is mutually overlapped and enhanced in propagation by the electromagnets under the control of the same time sequence in the pulse circuit, so that a continuous and range heating effect is formed, high-heating follow-up distribution with artificial centers is further formed, and the heating experience of the indoor personnel is further improved; meanwhile, the elastic force of the sponge strips and the elastic bag damp the fluctuation of the built-in spring, and unnecessary heat supply loss caused by too far fluctuation extension of the built-in spring is avoided.

In conclusion, when indoor personnel reside or walk in a local area on a local warm floor, the flow of hot air in the heating pipe is controlled by controlling the built-in spring in the sponge strip through the piezoelectric sheet, the pulse circuit and the electromagnet, and finally the purpose of controlling independent high-heat heating of the steam-heating type floor heating floor is achieved, and the requirement that the indoor personnel are higher in heating in the area where the indoor personnel are located compared with the surrounding area is met.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic view of a heating pipe of the present invention in partial axial vertical cross-section;

fig. 3 is a schematic view of the local high heating state according to the present invention.

In the figure: the heating plate comprises a plate body 1, a top plate 2, a piezoelectric plate 21, a pulse circuit 22, a bottom plate 3, an electromagnet 31, a heating pipe 4, a central shaft 5, a bracket 51, a sponge strip 6, a built-in spring 61 and an elastic bag 7.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

Referring to fig. 1-3, a steam-heating type intelligent floor heating floor, including plate body 1, plate body 1 comprises roof 2 and bottom plate 3 of fixed connection in roof 2 bottom, and a plurality of piezoelectric patches 21 of fixedly connected with on roof 2 and the 3 interfaces of bottom plate, roof 2 have elasticity, make things convenient for roof 2 to receive indoor personnel's the back of stepping on and pressing, only corresponding local piezoelectric patch 21 produces the signal of telecommunication, avoids piezoelectric patch 21's spurious triggering.

The plurality of piezoelectric patches 21 are all electrically connected with a pulse circuit 22, the pulse circuit 22 is arranged in the bottom plate 3 and is electrically connected with an external power supply source, which is not shown in the figure, and the pulse circuit 22 is started after the output electric signal of the piezoelectric patches 21 reaches a certain threshold value, so that the piezoelectric patches 21 are prevented from being started by mistake.

The heating pipe 4 is laid in the bottom plate 3, the two ends of the heating pipe 4 are communicated with an external heating steam source, and hot air flows in the heating pipe 4 to emit heat outwards and supply heat to the indoor through the bottom plate 3 and the top plate 2.

The plurality of electromagnets 31 are fixedly connected inside the bottom plate 3, the plurality of electromagnets 31 correspond to the plurality of piezoelectric sheets 21 one by one and are electrically connected with the pulse circuit 22, wherein the corresponding electromagnets 31 and the piezoelectric sheets 21 are both located in the vertical direction of the heating pipe 4, the pulse circuit 22 receives the electrical signals of the piezoelectric sheets 21 and outputs pulse current to the electromagnets 31 corresponding to the piezoelectric sheets 21, so that the external magnetic field of the electromagnets 31 is controlled to be enhanced in the electrifying process, the electrifying gap disappears, and all the pulse current controlled by the pulse circuit 22 is controlled by the same time sequence, so that the fluctuation cycles of the external magnetic field of the electromagnets 31 are consistent.

The heating pipe 4 is internally and coaxially provided with a middle shaft 5, the outer peripheral side of the middle shaft 5 and the inner peripheral side of the heating pipe 4 are coaxially and fixedly connected with a plurality of supports 51, and the supports 51 are all in a cross shape and are distributed in the axial direction of the heating pipe 4 at equal intervals.

The sponge strip 6 is coaxially sleeved on the middle shaft 5 between the adjacent supports 51, the built-in spring 61 is embedded in the sponge strip 6, the electromagnets 31 are electrified to change the magnetic flux in the built-in spring 61 so as to generate electromagnetic induction, the sponge strip 6 bulges towards the outer circumferential side when the built-in spring 61 is compressed, and shrinks towards the inner circumferential side when the built-in spring 61 is expanded, wherein the distance between the adjacent electromagnets 31 is equal to the integral multiple of the wave wavelength of the built-in spring 61, so that the wave coherence of the built-in spring 61 is improved when the adjacent electromagnets 31 are triggered successively, and the wave strength and the extension effect of the built-in spring 61 are improved.

The elastic bag 7 is coaxially and fixedly connected to the outer peripheral side of the sponge strip 6, the elastic bag 7 is elastic and seals and separates hot air flow in the heating pipe 4, and hot air flow is prevented from invading the sponge strip 6 to cause loss of hot steam.

The principles of the present invention are now described as follows:

when the local heating floor is used for heating, an external heating steam source enables hot air flow to circularly flow in the heating pipe 4 in the bottom plate 3, the hot air flow gives off heat outwards in the flowing process, and then the heat is supplied to the indoor through the bottom plate 3 and the top plate 2, so that the primary balanced heating effect is completed, and a warm environment is provided for indoor personnel;

when the local area of the top plate 2 is continuously stepped by indoor personnel, the top plate 2 transmits the pressure to the piezoelectric sheet 21 on the interface of the top plate 2 and the bottom plate 3 in the area, the piezoelectric sheet 21 outputs an electrical signal to the pulse circuit 22 after being extruded, the pulse circuit 22 outputs pulse current to the electromagnet 31 corresponding to the piezoelectric sheet 21, the magnetic field of the electromagnet 31 is continuously enhanced in the electrifying process, further the magnetic flux in the built-in spring 61 in the sponge strip 6 in the heating pipe 4 is increased, according to the Lenz law, the built-in spring 61 generates electromagnetic induction and expands towards two sides to block the increase of the magnetic flux, the sponge strip 6 in the area shrinks inwards in the middle part and bulges outwards at two ends along with the change of the built-in spring 61, and fluctuates towards two ends of the sponge strip 6 by the envelope, compared with the method for blocking the heat flow and improving the heat loss, the method enables the hot gas flowing to gather at the extruded, The capacity is improved, so that a small-range high heating effect is more accurately provided for the residence points of indoor personnel, and the heating experience of the indoor personnel is improved;

when indoor personnel walk on the top plate 2, the top plate 2 is extruded in different time and position, so that the piezoelectric sheets 21 output electric signals to the pulse circuit 22 in sequence, under the control of the same time sequence in the pulse circuit 22, the distance between every two adjacent electromagnets 31 is equal to the integral multiple of the wave wavelength of the built-in spring 61, the waves formed by the built-in spring 61 are overlapped and enhanced when being transmitted by the electromagnets 31, a continuous and range heating effect is formed, high heating follow-up distribution with artificial centers is formed, and the heating experience of the indoor personnel is further improved; meanwhile, the elastic force of the sponge strips 6 and the elastic bags 7 damp the fluctuation of the built-in spring 61, and unnecessary heat supply loss caused by too far expansion of the built-in spring 61 is avoided.

In summary, when an indoor person stays or walks in a local area on a local floor, the piezoelectric sheet 21, the pulse circuit 22 and the electromagnet 31 are used for controlling the built-in spring 61 in the sponge strip 6, so that the flow control of hot air in the heating pipe 4 is realized, the purpose of independent high-heat heating control of the steam-heating floor heating is finally achieved, and the requirement that the indoor person is higher in heating in the area where the indoor person is located than in the surrounding area is met.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.

Claims

1. The utility model provides a floor warms up with vapour warm formula intelligence, includes plate body (1), its characterized in that, plate body (1) comprises roof (2) and bottom plate (3) of fixed connection in roof (2) bottom, fixedly connected with a plurality of piezoelectric patches (21) on roof (2) and bottom plate (3) interface, it is a plurality of piezoelectric patches (21) equal electrically connected with pulse circuit (22), place in bottom plate (3) in pulse circuit (22) and electrically connected with outside power supply, laid heating pipe (4) in bottom plate (3), heating pipe (4) both ends intercommunication has outside heat supply steam source, bottom plate (3) inside fixedly connected with a plurality of electro-magnets (31), it is a plurality of electro-magnet (31) and a plurality of piezoelectric patches (21) one-to-one and with pulse circuit (22) electric connection, wherein corresponding electro-magnet (31) and piezoelectric patches (21) all are located heating pipe (4) vertical orientation, the heating pipe is characterized in that a middle shaft (5) is coaxially arranged in the heating pipe (4), a plurality of supports (51) are coaxially and fixedly connected between the outer peripheral side of the middle shaft (5) and the inner peripheral side of the heating pipe (4), a sponge strip (6) is coaxially sleeved on the middle shaft (5) between every two adjacent supports (51), a built-in spring (61) is embedded in the sponge strip (6), an elastic bag (7) is coaxially and fixedly connected with the outer peripheral side of the sponge strip, and the electromagnet (31) is electrified to enable the internal magnetic flux of the built-in spring (61) to change so as to generate electromagnetic induction.

2. A steam-heated intelligent floor heating floor as claimed in claim 1, wherein the pulse circuit (22) receives the electric signal of the piezoelectric sheet (21) and outputs pulse current to the electromagnet (31) corresponding to the piezoelectric sheet (21), wherein all the pulse current controlled by the pulse circuit (22) is controlled by the same time sequence.

3. A steam-heated intelligent floor heating floor as claimed in claim 1, wherein the plurality of brackets (51) are all cross-shaped and are equidistantly distributed in the axial direction of the heating pipe (4).

4. A steam-heated intelligent floor heating floor as claimed in claim 1, characterized in that the sponge strips (6) are bulged to the outer peripheral side when the built-in spring (61) is compressed, and are contracted to the inner peripheral side when the built-in spring (61) is expanded.

5. A steam-heated intelligent floor heating floor as claimed in claim 1, characterized in that the elastic bag (7) is elastic and seals and obstructs the flow of hot air in the heating pipe (4).