CN215336630U - Structure of heating ceramic tile - Google Patents

Abstract

The utility model discloses a structure of a heating ceramic tile, which belongs to the technical field of heating ceramic tiles and comprises a ceramic tile body and a supporting seat, wherein a lower shell, a heating pipe, an upper shell and a rectangular panel are sequentially arranged in the supporting seat from bottom to top, when the upper shell and the lower shell are installed in a matching way, the heating pipe is positioned between a third groove of the upper shell and a fourth groove of the lower shell, a water pipe joint on the heating pipe respectively penetrates through a first through hole on the supporting seat and a second through hole of the upper shell, four baffles of the lower shell are matched with a shaft hole through a shaft, the front ends of the four baffles are arranged on the lower surface of the upper shell, when the heating pipe works, and a thermometer on a heat insulation plate exceeds a set temperature, an inductor transmits a signal to a switch controller, the switch controller immediately cuts off a heating power supply after receiving the signal, an independent overheating protection device is arranged on the heating pipe, so that the service life of the heating pipe can be effectively prolonged, and the treatment is convenient after blasting.

Description

Structure of heating ceramic tile

Technical Field

The utility model relates to the technical field of heating ceramic tiles, in particular to a structure of a heating ceramic tile.

Background

Ceramic tile, with refractory metal oxide and semimetal oxide, through grinding, mix, the suppression, glazing porcelain, the process of sintering, and an acid and alkali-resistant porcelain matter or stone matter etc. of formation, building or ornamental material, refer to the ceramic tile, its raw and other materials are many by clay, quartz sand, compress after high temperature and so on the mixture forms, the ceramic tile that generates heat is through installing the device that generates heat additional on traditional ceramic tile basis, the ceramic tile that makes to lay sends the heat and gets warm, it is multi-purpose in ground heating, the ceramic tile that generates heat now generates heat through the heating pipe, when the heating pipe is super-warm, because of there is not independent overheat protection device on the heating pipe, do not cut off heating power supply immediately when causing the super-warm blasting of heating pipe, can not effectively prolong electric heater life, inconvenient processing after the blasting.

SUMMERY OF THE UTILITY MODEL

In order to overcome the defects of the prior art, the utility model aims to solve the technical problem of providing a structure of a heating ceramic tile, which comprises a ceramic tile body and a supporting seat, wherein a lower shell, a heating pipe, an upper shell and a rectangular panel are sequentially arranged in the supporting seat from bottom to top, when the upper shell and the lower shell are installed in a matching way, the heating pipe is positioned between a third groove of the upper shell and a fourth groove of the lower shell, a water pipe joint on the heating pipe respectively penetrates through a first through hole on the supporting seat and a second through hole of the upper shell, four baffles of the lower shell are matched with a shaft hole through shafts, the front ends of the four baffles are arranged on the lower surface of the upper shell, when the heating pipe works, a thermometer on a heat insulation plate exceeds a set temperature, an inductor transmits a signal to a switch controller, the switch controller immediately cuts off a heating power supply after receiving the signal, and an independent overheating protection device is arranged on the heating pipe, the service life of the heating pipe can be effectively prolonged, and the treatment is convenient after the blasting.

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

the ceramic tile comprises a ceramic tile body and a supporting seat, wherein the ceramic tile body is arranged on the supporting seat, and a lower shell, a heating pipe, an upper shell and a rectangular panel are sequentially arranged in the supporting seat from bottom to top; the side surface of the supporting seat is provided with two pipe grooves, the upper surface of the supporting seat is provided with a first groove, a second groove is arranged beside the first groove, the bottom surface of the second groove is provided with two first through holes, the lower shell is positioned on the second groove, and the lower shell is provided with a fourth groove; the lower surface of the upper shell is provided with four notches, the upper shell is provided with a third groove, and a second through hole is formed in the third groove; four baffles are arranged on the four notches, shaft ends are arranged on two sides of the four baffles, and shaft holes are arranged at the relative positions of the four notches and the shafts; the lower surface of the two ends of the heating pipe is provided with a water pipe joint, the water pipe joint is provided with a switch controller, the upper shell is matched with the lower shell for installation, the heating pipe is positioned between the third groove and the fourth groove, the water pipe joint respectively penetrates through the first through hole and the second through hole, and the baffle is matched with the shaft hole and the front end of the baffle is matched with the lower shell, so that the heating pipe is beneficial to being heated when the temperature is over-high, and the heating pipe is immediately cut off when the heating pipe is over-high in temperature, due to the fact that the heating pipe is provided with an independent overheat protection device, the service life of the electric heater can be effectively prolonged, and the heating pipe is convenient to process after blasting.

The preferable technical scheme of the utility model is that the lower shell is also provided with a heat insulation plate, and the upper surface of the heat insulation plate is matched with the heating pipe, so that the heat of the heating pipe can not directly contact with the lower shell, and the lower shell can be uniformly heated.

The utility model has the preferable technical scheme that the first groove is provided with water leakage holes, the water leakage holes are positioned at four corners of the first groove, the total number of the water leakage holes is six, and the water leakage holes are obliquely designed to prevent water from entering the interior and damaging internal elements.

The utility model has the preferable technical scheme that the tile body is provided with a first convex part, and when the tile body is matched with the supporting seat, the first convex part is arranged in the first groove, so that water is prevented from entering the first groove and damaging internal elements.

The utility model has the preferable technical scheme that the rectangular embedded plate is positioned between the peripheral side surface of the first groove and the inner wall of the first groove, so that the ceramic tile body is more tightly matched with the supporting seat, when the ceramic tile body is repaired and replaced in the later period, the rectangular embedded plate can be taken out firstly, then the ceramic tile body is taken down, and the heating pipe or the ceramic tile body below the ceramic tile body is replaced, so that the maintenance is quick and convenient, and a large amount of time is saved when the ceramic tile body needs to be replaced.

The utility model has the preferable technical scheme that a thermometer and an inductor are embedded on the heat insulation plate, the internal temperature can be detected in real time, a heating power supply is immediately cut off when the heating pipe is subjected to over-temperature blasting, the service life of the electric heater can be effectively prolonged, and the electric heater is convenient to treat after blasting.

The utility model preferably adopts the technical scheme that the rubber gasket is positioned on the convex part of the second groove, so that the waterproof effect is facilitated.

The ceramic tile comprises a ceramic tile body, wherein the ceramic tile body is provided with a heat conducting copper sheet and a heat collecting copper sheet, the heat conducting copper sheet is bonded in an inner cavity of the ceramic tile body, and the heat collecting copper sheet is fixed on the heat conducting copper sheet to effectively play roles in transmission and heat preservation.

The utility model has the beneficial effects that:

the utility model aims to solve the technical problem of providing a structure of a heating ceramic tile, which comprises a ceramic tile body and a supporting seat, wherein a lower shell, a heating pipe, an upper shell and a rectangular panel are sequentially arranged in the supporting seat from bottom to top, when the upper shell and the lower shell are installed in a matching way, the heating pipe is positioned between a third groove of the upper shell and a fourth groove of the lower shell, a water pipe joint on the heating pipe respectively penetrates through a first through hole on the supporting seat and a second through hole of the upper shell, four baffles of the lower shell are matched with a shaft hole through shafts, the front ends of the four baffles are arranged on the lower surface of the upper shell, when the heating pipe works, a thermometer on a heat insulation plate exceeds a set temperature, an inductor transmits a signal to a switch controller, the switch controller immediately cuts off a heating power supply after receiving the signal, an independent overheating protection device is arranged on the heating pipe, the service life of the heating pipe can be effectively prolonged, and the treatment is convenient after blasting.

Drawings

Fig. 1 is a schematic structural view of the whole structure of a heating tile provided in an embodiment of the present invention;

FIG. 2 is a schematic structural view of a support base in the structure of a heating tile according to an embodiment of the present invention;

FIG. 3 is a structural view of a lower case in the structure of a heat generating tile according to an embodiment of the present invention;

fig. 4 is a schematic structural view of a tile body in the structure of the heat generating tile provided in the embodiment of the present invention;

FIG. 5 is a schematic structural view of a thermal insulating plate in the structure of a heating tile provided in an embodiment of the present invention;

in the figure:

1. a tile body; 2. a supporting seat; 3. an upper housing; 4. a rubber gasket; 5. heating a tube; 6. a rectangular panel; 7. a pipe groove; 8. a first groove; 9. a second groove; 10. a lower housing; 11. a first through hole; 12. a notch; 13. a baffle plate; 14. a shaft; 15. a shaft hole; 16. a water pipe joint; 17. a thermometer; 18. a heat insulation plate; 19. an inductor; 20. a water leakage hole; 21. a first convex portion; 22. a third groove; 23. a fourth groove; 24. a second through hole; 25. a switch controller; 26. a thermally conductive copper sheet; 27. a heat collecting copper plate.

Detailed Description

The technical scheme of the utility model is further explained by the specific implementation mode in combination with the attached drawings.

As shown in fig. 1-5, the waterproof split type liquid conduction heating ceramic tile provided by the utility model comprises a ceramic tile body 1 and a supporting seat 2, wherein the ceramic tile body 1 is arranged on the supporting seat 2, and a lower shell 10, a heating pipe 5, an upper shell 3 and a rectangular panel 6 are sequentially arranged in the supporting seat 2 from bottom to top; the lower surface of the supporting seat 2 is provided with two pipe grooves 7 in parallel arrangement, the upper surface of the supporting seat 2 is provided with a first groove 8, a second groove 9 is arranged beside the first groove 8, and the bottom surface of the second groove 9 is provided with two first through holes 11; the lower shell 10 is provided with a fourth groove 23, the lower surface of the lower shell 10 is provided with four notches 12, the upper shell 10 is provided with a third groove 22, and a second through hole 24 is arranged in the third groove 22; four baffles 13 are arranged on the four notches 12, shafts 14 are arranged on two sides of the four baffles 13, and shaft holes 15 are arranged at the relative positions of the four notches 12 and the shafts 14;

preferably, the lower surfaces of the two ends of the heating pipe 5 are provided with water pipe connectors 16, the water pipe connectors 16 are provided with a switch controller 25, when the upper shell 3 and the lower shell 10 are installed in a matched mode, the heating pipe 5 is located between the third groove 22 and the fourth groove 23, the water pipe connectors 16 respectively penetrate through the first through hole 11 and the second through hole 24, the four baffle plates 13 are matched with the shaft holes 15 through the shafts 14, the front ends of the four baffle plates 13 are matched with the lower shell 10, and therefore when the heating pipe is over-heated, due to the fact that the heating pipe is provided with an independent overheating protection device, a heating power supply is immediately cut off when the heating pipe is over-heated, the service life of the electric heater can be effectively prolonged, and convenience is brought to treatment after the heating pipe is over-heated.

Preferably, the lower casing 10 is further provided with a heat insulation plate 18, and the upper surface of the heat insulation plate 18 is matched with the heating pipe 5, so that the heat of the heating pipe cannot directly contact with the lower casing, and uniform heating is achieved.

Preferably, the first groove 8 is provided with water leakage holes 20, the water leakage holes 20 are located at four corners of the first groove 8, six in total, and the water leakage holes 20 are designed obliquely to prevent water from entering the inside and damaging the internal components.

Preferably, the tile body 1 is provided with a first protrusion 21, and when the tile body 1 is matched with the supporting seat 2, the first protrusion 21 is in the first groove 8, so as to prevent water from entering the interior and damaging internal elements.

Preferably, rectangle panel 6 is located and inlays between 8 week side of first recess and 8 inner walls of first recess for ceramic tile body 1 cooperates more tightly with supporting seat 2, and when ceramic tile body 1 was changed in the maintenance in later stage, can take out rectangle panel 6 earlier then take off ceramic tile body 1, changes heating pipe 5 or ceramic tile body 1 below, and it is swift convenient to maintain, saves a large amount of time when needing to change ceramic tile body 1.

Preferably, the thermometer 17 and the inductor 19 are embedded on the heat insulation plate 18, so that the internal temperature can be detected in real time, a heating power supply is immediately cut off when the heating pipe is subjected to over-temperature blasting, the service life of the electric heater can be effectively prolonged, and the electric heater is convenient to process after blasting.

Preferably, the rubber gasket 4 is located at the first projection 21 of the second groove 9, which facilitates waterproofing.

Preferably, the tile body 1 is further provided with a heat conduction copper sheet 26 and a heat collection copper sheet 27, the heat conduction copper sheet 26 is bonded in the inner cavity of the tile body 1, and the heat collection copper sheet 27 is fixed on the heat conduction copper sheet 26, so that the functions of transmission and heat preservation are effectively achieved.

The working principle is as follows: comprises a tile body 1 and a supporting seat 2, a lower shell 10, a heating pipe 5, an upper shell 3 and a rectangular panel 6 are sequentially arranged in the supporting seat 2 from bottom to top, when the upper shell 3 and the lower shell 10 are installed in a matched manner, the heating pipe 5 is positioned between a third groove 22 of the upper shell 3 and a fourth groove 23 of the lower shell 10, a water pipe joint 16 on the heating pipe 5 respectively penetrates through a first through hole 11 on the supporting seat 2 and a second through hole 24 of the upper shell 3, four baffles 13 of the lower shell 10 are matched with a shaft hole 15 through shafts 14, the front ends of the four baffles 13 are arranged on the lower surface of the upper shell 3, the rectangular panel 6 is positioned between the peripheral side surface of the first groove 8 and the inner wall of the first groove 8, so that the tile body 1 is matched with the supporting seat 2 more tightly, when the tile body 1 is replaced in later maintenance, the rectangular panel 6 can be taken out first and then the tile body 1 is taken down, the heating pipe 5 or the ceramic tile body 1 below is replaced, so that the maintenance is rapid and convenient, and a large amount of time is saved when the ceramic tile body 1 or the heating pipe 5 needs to be replaced; when the heating pipe 5 works, and the temperature of the thermometer 17 on the heat insulation plate 18 exceeds the set temperature, the inductor 19 transmits a signal to the switch controller 25, the switch controller 25 receives the signal and immediately cuts off the heating power supply, and because the independent overheat protection device is arranged on the heating pipe 5, the service life of the heating pipe 5 can be effectively prolonged, and the treatment is convenient after the blasting.

While the utility model has been described with reference to a preferred embodiment, it will be understood by those skilled in the art that various changes may be made and equivalents may be substituted for elements thereof without departing from the spirit and scope of the utility model. The present invention is not to be limited by the specific embodiments disclosed herein, and other embodiments that fall within the scope of the claims of the present application are intended to be within the scope of the present invention.

Claims (8)

1. The utility model provides a structure of ceramic tile generates heat which characterized in that:

the ceramic tile comprises a ceramic tile body (1) and a supporting seat (2), wherein the ceramic tile body (1) is arranged on the supporting seat (2), and a lower shell (10), a heating pipe (5), an upper shell (3) and a rectangular panel (6) are sequentially arranged in the supporting seat (2) from bottom to top;

the lower surface of the supporting seat (2) is provided with two pipe grooves (7) in parallel arrangement, the upper surface of the supporting seat (2) is provided with a first groove (8), a second groove (9) is arranged beside the first groove (8), and the bottom surface of the second groove (9) is provided with two first through holes (11);

the lower shell (10) is provided with a fourth groove (23), the lower surface of the lower shell (10) is provided with four notches (12), the upper shell (3) is provided with a third groove (22), and a second through hole (24) is formed in the third groove (22);

four baffles (13) are arranged on the four notches (12), shafts (14) are arranged on two sides of the four baffles (13), and shaft holes (15) are arranged at the relative positions of the four notches (12) and the shafts (14);

heating pipe (5) both ends lower surface has a water pipe head (16), water pipe head (16) dispose on-off controller (25), go up casing (3) with during casing (10) cooperation installation down, heating pipe (5) are located third recess (22) and between fourth recess (23), water pipe head (16) run through respectively first through-hole (11) and second through-hole (24), four baffle (13) through axle (14) with shaft hole (15) cooperation, four baffle (13) front end with casing (10) cooperation down.

2. A structure of a heat generating tile according to claim 1, wherein:

the lower shell (10) is further provided with a heat insulation plate (18), and the upper surface of the heat insulation plate (18) is matched with the heating pipe (5).

3. A structure of a heat generating tile according to claim 1, wherein:

the first groove (8) is provided with water leakage holes (20), the water leakage holes (20) are located at four corners of the first groove (8) and are six in total, and the water leakage holes (20) are designed in an inclined mode.

4. A structure of a heat generating tile according to claim 1, wherein:

the ceramic tile is characterized in that the ceramic tile body (1) is provided with a first convex part (21), and when the ceramic tile body (1) is matched with the supporting seat (2), the first convex part (21) is arranged in the first groove (8).

5. A structure of a heat generating tile according to claim 1, wherein:

the rectangular panel (6) is embedded between the peripheral side surface of the first groove (8) and the inner wall of the first groove (8).

6. A structure of a heat generating tile according to claim 2, wherein:

a thermometer (17) and an inductor (19) are embedded on the heat insulation plate (18).

7. A structure of a heat generating tile according to claim 1, wherein:

the rubber gasket (4) is located on the convex portion (21) of the second groove (9).

8. A structure of a heat generating tile according to claim 1, wherein:

the ceramic tile is characterized in that the ceramic tile body (1) is further provided with a heat conduction copper sheet (26) and a heat collection copper sheet (27), the heat conduction copper sheet (26) is fixed in an inner cavity of the ceramic tile body (1) through bonding, and the heat collection copper sheet (27) is fixed on the heat conduction copper sheet (26).

Images