CN107859262B

CN107859262B - Wall protection plate

Info

Publication number: CN107859262B
Application number: CN201711354530.6A
Authority: CN
Inventors: 余文明
Original assignee: Zhongke Bingang Construction Group Co ltd
Current assignee: Zhongke Bingang Construction Group Co ltd
Priority date: 2017-12-15
Filing date: 2017-12-15
Publication date: 2024-05-03
Anticipated expiration: 2037-12-15
Also published as: CN107859262A

Abstract

The panel comprises a decorative plate body and a mounting base plate connected with the decorative plate body, wherein the mounting base plate is used for connecting a wall body; the upper end face of the mounting substrate is provided with a heat dissipation cavity which extends downwards and has a square section, first heat conducting plates are arranged on the cavity walls and the cavity bottoms around the heat dissipation cavity, and an electric heating device is arranged in the heat dissipation cavity; the heat dissipation cavity is provided with a plurality of heat dissipation holes close to the cavity wall of the wall body, the heat dissipation holes are communicated with the side surface of the mounting substrate close to the wall surface, and communication holes communicated with the heat dissipation holes are correspondingly formed in a first heat conduction plate connected with the cavity wall with the heat dissipation holes; the side surface of the mounting substrate, which is close to the wall body, is provided with a plurality of vertical water guide grooves extending from top to bottom; the vertical water guide groove is intersected with the heat dissipation hole. The invention has the advantages of low water seepage speed, high dehumidifying speed, high safety performance and long service life.

Description

Wall protection plate

Technical Field

The invention relates to a wall panel.

Background

The wall panels are important indoor decorations. The wall panels can foam, expand and mildew when meeting water, the service life of the wall panels is shortened, and the replacement period is quick. In the south of China, the rainwater is more, especially in summer, the weather changes fast, sudden rain can appear, which is very unfavorable for some users with the wall panels in the interior decoration, especially in the condition that the upper ends of the wall panels are not mounted on the indoor top surface, that is to say, the wall surfaces are exposed above the wall panels, and the rainwater easily flows into the room under the blowing of strong wind, and can be sprayed on the wall panels and the walls in a large quantity.

At present, when a large amount of rainwater is hit to the wall panels, a certain amount of rainwater can enter from the spliced gaps and flow downwards along the walls and permeate in the flowing time, and as the rainwater continuously wets, the permeation range is wider and wider, the wet area of the walls is wider and wider, so that the wall panels mounted by being adhered to the walls are expanded and the service life of the wall panels is reduced.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides the wall panel which is relatively slow in water seepage speed, high in dehumidification speed, high in safety performance and long in service life.

The specific technical scheme of the invention is as follows: the panel is characterized by comprising a decorative plate body and a mounting base plate connected with the decorative plate body, wherein the mounting base plate is attached to a wall body and connected with the wall body; the upper end face of the mounting substrate is provided with a heat dissipation cavity which extends downwards and has a square section, first heat conducting plates are arranged on the cavity walls and the cavity bottoms around the heat dissipation cavity, and an electric heating device is arranged in the heat dissipation cavity; the heat dissipation cavity is provided with a plurality of heat dissipation holes close to the cavity wall of the wall body, the heat dissipation holes are communicated with the side surface of the mounting substrate close to the wall surface, and communication holes communicated with the heat dissipation holes are correspondingly formed in a first heat conduction plate connected with the cavity wall with the heat dissipation holes; the side surface of the mounting base plate, which is close to the wall body, is provided with a plurality of vertical drainage grooves extending from top to bottom; the vertical drainage channel and the radiating hole are intersected.

In this embodiment, when the rainwater is beaten on the dado, a certain amount of rainwater can follow the concatenation gap or the clearance of adjacent dado junction especially upper and lower adjacent dado to the wall, at this moment, guide the rainwater to ground fast through vertical water drainage tank, reduced the infiltration rate of rainwater top-down on the wall body, simultaneously, the rainwater flows through from vertical water drainage tank, can produce certain infiltration to the wall that vertical water drainage tank corresponds and the periphery of this wall, but this infiltration is because the quick derivation of rainwater, and infiltration rate is comparatively slow. In general, a vertical drainage channel is arranged, and the penetration range is smaller. At this time, through electric heater unit, produce the heat fast, heat conduction through first heat-conducting plate heats mounting substrate and wall, dehumidification speed is fast, in addition, further increase radiating cavity in radiating through the louvre for the dehumidification to the wall has also prevented simultaneously that accumulation of heat in the radiating cavity from causing the incident, increases security performance, improves the life of whole dado, in addition, owing to the existence of vertical water drainage tank itself, can accelerate thermal flow, improves dehumidification efficiency.

Preferably, the heat dissipation hole comprises a horizontal heat dissipation channel communicated with the heat dissipation cavity and an inclined heat dissipation channel connected with the horizontal heat dissipation channel and extending obliquely downwards, and the inclined heat dissipation channel and the vertical drainage channel are intersected. This setting prevents that rainwater from flowing through fast in the vertical water drainage tank from the louvre from entering into the heat dissipation chamber and remaining at electric heater unit, prevents to burn when electric heater unit starts.

Preferably, the waterproof cover further comprises a waterproof top cover for covering the tops of the mounting base plate and the decorative plate body, and the waterproof top cover comprises a plastic block. This arrangement prevents rainwater from penetrating into the inside of the mounting substrate from the upper end face of the mounting substrate.

Preferably, the water seepage prevention top cover is provided with an arc-shaped top surface and a wall fitting surface which is used for being fitted with the wall; the arc top surface is the downwarping from being close to the wall end to keeping away from the wall end, be provided with a plurality of vertical guiding gutter on the wall fitting surface, every vertical guiding gutter corresponds and is provided with a vertical water drainage tank and communicates with each other with this vertical water drainage tank, still be provided with on the wall fitting surface and be used for wearing to establish the through wires hole of electric heater unit power-on line, be provided with the sealing washer in the through wires hole. This setting, on the one hand, the arc top surface effectively prevents the gap of two dado junctions from flowing into the wall body about in the rainwater, strengthens the water-proof effects, and on the other hand even partial rainwater flows into the wall body along the gap, is discharged after guiding the rainwater to vertical water drainage tank by vertical guiding gutter, improves the life of dado.

Preferably, top cover matching grooves matched with the water seepage prevention top cover are formed in the bottoms of the mounting base plate and the decorative plate body. This setting effectively prevents that the gap of two dado junction from flowing into the wall body in the rainwater from improving the life of dado.

Preferably, the horizontal projection of the vertical drainage channel falls into the horizontal projection of the vertical drainage channel. This setting guarantees that rainwater can not flow into the radiating cavity of mounting substrate from the junction between the two when flowing to vertical water drainage tank in the vertical guiding gutter, is favorable to improving the life of dado.

Preferably, a water absorption layer allowing hot air to pass through the heat dissipation cavity is arranged in the horizontal heat dissipation channel, and the water absorption layer comprises a sponge layer.

On the one hand, the sponge layer has good water absorption performance, under the state that electric heater unit did not open, can prevent that moisture on the wall from getting into the heat dissipation chamber and remaining on electric heater unit to cause electric heater unit to meet incident such as water emergence burning, increase security performance, guarantee dado's life, another convenience, after electric heater unit opened, the moisture on the sponge layer can evaporate, the sponge layer after the moisture evaporation resumes the ability of absorbing water, and the water absorption layer can cyclic utilization, improves dado's life.

Preferably, the electric heating device comprises a net-shaped heating net, an upper mounting end, a lower mounting end and a sealing plate, wherein the upper mounting end and the lower mounting end are respectively used for mounting the lower end of the heating net, and the sealing plate is connected with the upper end face of the upper mounting end and is used for sealing the inlet of the heat dissipation cavity.

The electric heating device is provided with the sealing plate, so that heat in the heat dissipation cavity is prevented from being dissipated from the inlet of the heat dissipation cavity when the electric heating device is started, the heat utilization rate is improved, and the dehumidification speed is accelerated.

Preferably, the upper end surface of the mounting substrate is further provided with a sunk mounting cavity which has the same shape as the section of the heat dissipation cavity and is used for erecting the sealing plate, and the horizontal projection of the heat dissipation cavity falls into the horizontal projection of the sunk mounting cavity. This setting guarantees that electric heater unit installs on the mounting substrate conveniently fast.

Preferably, the sealing plate comprises a middle heat insulation plate, a second heat conduction plate which is arranged on the periphery of the middle heat insulation plate, and an outer heat insulation plate which is arranged on the middle heat insulation plate and the upper end face of the second heat conduction plate, and the second heat conduction plate is in contact with the first heat conduction plate. This setting, outside heat insulating board has both improved thermal utilization ratio, and heat passes through first heat-conducting plate to the transfer of second heat-conducting plate simultaneously, then inside the mounting substrate with the heat transfer to the periphery, furthest carries out reasonable distribution to heat transfer, that is to say, can guarantee that most heat can pass through first heat-conducting plate and louvre transfer to the wall.

Preferably, the upper mounting end and the lower mounting end are bar-shaped blocks.

Preferably, a fixing device for fixing the lower mounting end is arranged on the first heat conducting plate positioned at the bottom of the heat dissipation cavity; the fixing device comprises side fixing blocks arranged on two sides of the lower mounting end, the side faces, close to the other side fixing blocks, of the side fixing blocks are inclined planes, and the inclined planes on the two side fixing blocks form fixing openings with gradually smaller openings from top to bottom.

In summary, the invention has the following beneficial effects:

the water seepage speed is slow, the dehumidification speed is fast, the safety performance is high, and the service life is long.

Drawings

FIG. 1 is a schematic and schematic illustration of the construction of a panel according to an embodiment of the present invention;

FIG. 2 is a schematic illustration of another view of a panel in accordance with an embodiment of the present invention;

FIG. 3 is a schematic view of the installation of a first thermally conductive plate;

FIG. 4 is a schematic cross-sectional view of a panel;

fig. 5 is a schematic view of the structure of the sealing plate;

fig. 6 is an assembled schematic view of a panel.

Detailed Description

The invention will be further illustrated by the following examples in conjunction with the accompanying drawings.

As shown in fig. 1-6, a panel comprises a decorative plate body 1 and a mounting substrate 2 connected with the decorative plate body 1, wherein the mounting substrate 2 is attached to a wall body and connected with the wall body, a heat dissipation cavity 3 with a square cross section and extending downwards is arranged on the upper end surface of the mounting substrate 2, first heat conducting plates 4 are arranged on the cavity walls and the cavity bottoms around the heat dissipation cavity 3, and an electric heating device 5 is arranged in the heat dissipation cavity 3; the heat dissipation cavity 3 is provided with a plurality of heat dissipation holes 6 near the cavity wall of the wall, the heat dissipation holes 6 are communicated with the side surface of the mounting substrate 2 near the wall surface, the number of the heat dissipation holes 6 is determined according to practical situations, the heat dissipation holes are not particularly limited, and the first heat conduction plate 4 connected with the cavity wall with the heat dissipation holes 6 is correspondingly provided with communication holes 8 communicated with the heat dissipation holes 6; the side surface of the mounting base plate 2, which is close to the wall body, is provided with a plurality of vertical drainage grooves 1a extending from top to bottom; the vertical drain grooves 1a and the heat dissipation holes 6 meet.

When a large amount of rainwater is applied to the wall surface and the wall protection plate indoors, the rainwater is generally gradually permeated from top to bottom, the wall surface is more permeated, the permeation range is wide along with continuous wetting of the rainwater, the water in the wall surface is sufficient, and the wall protection plate is easy to damage. In this embodiment, when rainwater is applied to a wall or a wall panel, the rainwater is quickly led to the ground through the vertical drainage groove 1a, so that the permeation speed of the wall from top to bottom is reduced, meanwhile, the rainwater flows through the vertical drainage groove 1a, and certain permeation is generated to the wall surface corresponding to the vertical drainage groove 1a and the periphery of the wall surface, but the permeation speed is relatively slow due to the quick guiding-out of the rainwater. In general, the vertical drain grooves 1a are provided, and the penetration range is small. At this time, through electric heater unit, produce the heat fast, heat conduction through first heat-conducting plate heats mounting substrate and wall, dehumidification speed is fast, in addition, further increase radiating cavity in the radiating through the louvre thermal dissipation for the dehumidification to the wall has also prevented simultaneously that accumulation of heat in the radiating cavity from causing the incident, increases security performance, improves the life of whole dado, in addition, owing to the existence of vertical water drainage tank 1a, can accelerate thermal flow, improves dehumidification efficiency.

Preferably, the heat dissipation hole 6 includes a horizontal heat dissipation channel 61 communicating with the heat dissipation chamber 3 and an inclined heat dissipation channel 62 connected to the horizontal heat dissipation channel 61 and extending obliquely downward, and the inclined heat dissipation channel 62 intersects with the vertical drain channel 1 a. This arrangement prevents rainwater from entering the heat dissipation chamber 3 from the heat dissipation hole 6 and remaining in the electric heating device 5 when the rainwater flows through the vertical drain tank 1a quickly, and prevents the electric heating device 5 from burning out when started.

Preferably, the panel of the present application further comprises a water-impermeable top cover 2a for covering the top of the mounting substrate 2 and the decorative board body 1, and the water-impermeable top cover 2a comprises a plastic block. This arrangement prevents rainwater from penetrating into the interior of the mounting substrate 2 from the upper end surface of the mounting substrate 2. The plastic block and the mounting substrate 2 can be connected in a clamping manner through a clamping piece, can also be connected in a plugging manner through a plugging column, and can also be connected through double-sided adhesive.

The water seepage prevention top cover 2a is provided with an arc-shaped top surface 21a and a wall fitting surface 22a which is used for fitting with a wall; the arc top surface 21a is bent downwards from being close to the wall end to being far away from the wall end, be provided with a plurality of vertical water guide grooves 23a on the wall fitting surface 22a, every vertical water guide groove 23a corresponds to be provided with a vertical water drainage groove 1a and communicates with each other with this vertical water drainage groove 1a, still be provided with on the wall fitting surface 22a and be used for wearing to establish the through wires hole 24a of electric heater unit 5 lead to the wire, be provided with the sealing washer in the through wires hole 24 a. The seal ring is not shown in the drawings. Correspondingly, the bottoms of the mounting base plate 2 and the decorative plate body 1 are provided with a top cover matching groove 3a matched with the water seepage prevention top cover 2 a. This setting, on the one hand, arc top surface 21a effectively prevents the gap of two dado junctions in upper and lower two in the rainwater from flowing into the wall body, strengthens the water-proof effects, and on the other hand, even partial rainwater flows into the wall body along the gap, is discharged after guiding the rainwater in vertical water guiding groove 1a by vertical guiding groove 23a, improves the life of dado.

Preferably, a top cover fitting groove 3a which is matched with the water seepage prevention top cover 2a is arranged at the bottom of the mounting substrate 2. This setting effectively prevents that the gap of two dado junction from flowing into the wall body in the rainwater from improving the life of dado.

Preferably, the horizontal projection of the vertical drainage channel 1a falls into the horizontal projection of the vertical drainage channel 23 a. This arrangement ensures that rainwater does not flow into the heat dissipation chamber 3 of the mounting substrate 2 from the junction between the vertical water guide channel 23a when flowing into the vertical water discharge channel 1a, thereby facilitating the improvement of the service life of the panel.

Preferably, a water absorbing layer 7 allowing the hot air in the heat dissipation chamber 3 to pass through is disposed in the horizontal heat dissipation channel 61, and the water absorbing layer 7 includes a sponge layer.

On the one hand, the sponge layer has good water absorption performance, under the state that electric heater unit 5 is not opened, can prevent that the moisture on the wall from getting into heat dissipation chamber 3 and remaining on electric heater unit 5 to cause electric heater unit 5 to meet incident such as water emergence burning, increase security performance, guarantee the life of dado, another convenience, after electric heater unit 5 opens, the moisture on the sponge layer can evaporate, the sponge layer after the moisture evaporation resumes the ability of absorbing water, the layer of absorbing water can cyclic utilization, improve the life of dado.

Preferably, the electric heating device 5 includes a net-shaped heating net 51, an upper mounting end 52 and a lower mounting end 54 for mounting upper and lower ends of the heating net 51, respectively, and a sealing plate 53 connected to an upper end surface of the upper mounting end 52 for sealing an inlet of the heat dissipation chamber 3. The electric heating device 5 is provided with the sealing plate 53, so that heat in the heat dissipation cavity 3 is prevented from being dissipated from the inlet of the heat dissipation cavity when the electric heating device 5 is started, the heat utilization rate is improved, and the dehumidification speed is accelerated. Preferably, the upper end surface of the sealing plate 53 is flush with the upper end surface of the mounting substrate 2.

Preferably, the upper end surface of the mounting substrate 2 is further provided with a sunk mounting cavity 9 with the same cross-sectional shape as the radiating cavity 3 for mounting the sealing plate 53, and the horizontal projection of the radiating cavity 3 falls into the horizontal projection of the sunk mounting cavity 9. This arrangement ensures that the electric heating device 5 is conveniently and quickly mounted on the mounting substrate by simply being placed in the sinking mounting cavity 9.

Preferably, the sealing plate 53 includes a middle heat insulation plate 531, a second heat insulation plate 532 disposed along the periphery of the middle heat insulation plate 531, and an outer heat insulation plate 533 disposed on the upper end surfaces of the middle heat insulation plate 531 and the second heat insulation plate 532, where the second heat insulation plate 532 contacts the first heat insulation plate 4. This setting, outside heat insulating board 533 has both improved the thermal utilization ratio, and the heat passes through first heat-conducting plate 4 to the transfer of second heat-conducting plate 532 simultaneously, then with the heat transfer to the inside of peripheral mounting substrate, furthest carries out reasonable distribution to the heat transfer, that is to say, can guarantee that most heat can pass through first heat-conducting plate 4 and louvre 6 and transfer to the wall.

Preferably, the upper mounting end 52 and the lower mounting end 54 are each bar-shaped blocks.

Preferably, the first heat conducting plate 4 at the bottom of the heat dissipation cavity 3 is provided with a fixing device 0 for fixing the lower mounting end 54; the fixing device 0 includes side fixing blocks 01 disposed on two sides of the lower mounting end 54, the side faces of the side fixing blocks 01, which are close to the other side fixing blocks 01, are inclined planes, and the inclined planes on the two side fixing blocks 01 form a fixing opening with gradually smaller opening from top to bottom. This setting further prevents rocking of electric heater unit 5, indirectly improves the life of dado.

The above examples are only illustrative of the preferred embodiments of the present invention and do not limit the spirit and scope of the present invention. Various modifications and improvements of the technical scheme of the present invention will fall within the protection scope of the present invention without departing from the design concept of the present invention, and the technical content of the present invention is fully described in the claims.

Claims

1. The wall panel is characterized by comprising a decorative plate body (1) and a mounting base plate (2) connected with the decorative plate body (1), wherein the mounting base plate (2) is attached to a wall body and connected with the wall body; the heat dissipation device comprises a mounting substrate (2), wherein the upper end face of the mounting substrate (2) is provided with a heat dissipation cavity (3) which extends downwards and has a square section, first heat conducting plates (4) are arranged on the cavity walls and the cavity bottoms around the heat dissipation cavity (3), and an electric heating device (5) is arranged in the heat dissipation cavity (3); the heat dissipation cavity (3) is provided with a plurality of heat dissipation holes (6) close to the cavity wall of the wall, the heat dissipation holes (6) are communicated with the side surface of the mounting substrate (2) close to the wall, and communication holes (8) communicated with the heat dissipation holes (6) are correspondingly formed in the first heat conduction plate (4) connected with the cavity wall with the heat dissipation holes (6); the mounting base plate (2) is provided with a plurality of vertical drainage grooves (1 a) extending from top to bottom on the side surface close to the wall body; the vertical drainage groove (1 a) is intersected with the radiating hole (6);

the radiating hole (6) comprises a horizontal radiating channel (61) communicated with the radiating cavity (3) and an inclined radiating channel (62) connected with the horizontal radiating channel (61) and extending obliquely downwards, and the inclined radiating channel (62) is intersected with the vertical drainage groove (1 a);

The waterproof decorative board also comprises a waterproof top cover (2 a) for covering the tops of the mounting substrate (2) and the decorative board body (1), wherein the waterproof top cover (2 a) comprises a plastic block.

2. -A panel according to claim 1, characterized in that said water-impermeable top cover (2 a) has an arched top surface (21 a) and a wall abutment surface (22 a) for abutment with a wall; the arc-shaped top surface (21 a) is bent downwards from being close to the wall surface end to being far away from the wall surface end, a plurality of vertical water guide grooves (23 a) are formed in the wall fitting surface (22 a), each vertical water guide groove (23 a) is correspondingly provided with a vertical water discharge groove (1 a) and is communicated with the corresponding vertical water discharge groove (1 a), a threading hole (24 a) for threading a power-on wire of the electric heating device (5) is further formed in the wall fitting surface (22 a), and a sealing ring is arranged in the threading hole (24 a).

3. A panel according to claim 1, characterized in that a water absorbing layer (7) is provided in the horizontal heat dissipation channel (61) for allowing the passage of hot air in the heat dissipation chamber (3), said water absorbing layer (7) comprising a sponge layer.

4. A panel according to claim 1, wherein the electric heating device (5) comprises a net-shaped heating net (51), an upper mounting end (52) and a lower mounting end (54) for mounting upper and lower ends of the heating net (51), respectively, and a sealing plate (53) connected to an upper end surface of the upper mounting end (52) for sealing an inlet of the heat dissipation chamber (3).

5. A panel according to claim 4, characterized in that the upper end face of the mounting base plate (2) is further provided with a sunk sinking mounting cavity (9) having the same cross-sectional shape as the heat dissipation cavity (3) for mounting the sealing plate (53), the horizontal projection of the heat dissipation cavity (3) falling into the horizontal projection of the sinking mounting cavity (9).

6. A panel according to claim 4, wherein the sealing plate (53) comprises a middle heat insulating plate (531), a second heat insulating plate (532) arranged against the periphery of the middle heat insulating plate (531), and an outer heat insulating plate (533) arranged on the upper end surfaces of the middle heat insulating plate (531) and the second heat insulating plate (532), and the second heat insulating plate (532) is in contact with the first heat insulating plate (4).

7. A panel according to claim 4, wherein the upper mounting end (52) and the lower mounting end (54) are each bar-shaped blocks.

8. -A panel according to claim 4, characterized in that the first heat-conducting plate (4) at the bottom of the heat-dissipating cavity (3) is provided with fixing means (0) for fixing the lower mounting end (54); the fixing device (0) comprises side fixing blocks (01) arranged on two sides of the lower mounting end (54), the side faces, close to the other side fixing blocks (01), of the side fixing blocks (01) are inclined planes, and the inclined planes on the two side fixing blocks (01) form fixing openings with gradually smaller openings from top to bottom.