CN101255760B - Wall material, hot water supply system and building - Google Patents

Abstract

The present invention provides a wall assembly, hot-water supply system of the water exhaust utilizing the audio-video equipment, and architecture utilizing the wall assembly, the wall assembly comprises a front plate having a window provided therein for accommodating the display screen of a display module of a thin, large-screen television receiver, a holding unit for holding a housing in which the display module is installed, a cooling jacket disposed in contact with a heat conductive sheet joined by pressure to the back side of the housing for cooling and having a flow passage through which a heat exchange medium runs, and a rear plate disposed to confront the front plate, wherein the front plate and the rear plate accommodate the holding unit and the cooling jacket for assembling with the display module.

Description

Wall material, hot water supply system and building

Technical field

The present invention relates to a kind of wall material that is built-in with cooling end and is incorporated with audio-visual equipment, utilized the hot water supply system of heat extraction of audio-visual equipment and the building that has utilized the wall material.

In addition, the building that the present invention relates to the one-piece type wall material of a kind of audio-visual equipment and use this wall material to constitute.

Background technology

In recent years, the thin-type display device with giant-screen comes the situation of the digital broadcast of audiovisual high image quality increasing.Although display unit is in slimming, the indoor occasion that the display unit of giant-screen is set in general family can produce place, the indoor problem that narrows down of occupying.As a method that addresses this problem is the slim TV machine (for example the Japan Patent spy opens 2005-36609 communique, Japanese patent laid-open 10-207385 communique) of installing on wall.

In addition, display unit such as LCD or plasma scope have realized giant-screenization and slimming etc., and display module has been housed in the framework.When display unit drove, display module and electronic device etc. can heatings.In display unit, screen is big more, image quality is high more, brightness is high more, and then the heat of Chan Shenging is just many more, therefore has heat-dissipating structures such as air cooling and water-cooled.

The space that this display unit with heat-dissipating structure is quiet for tackling, giant-screen and saving are provided with face has proposed various schemes.

For example, the Japan Patent spy opens the display unit shown in the 2005-17413 communique and does not use cooling fan for tackling quietization, for the framework cooling of the display module that makes heating, and will make the pipe of liquid circulation be provided in the inboard at the framework back side of display module.

In addition, the Japan Patent spy opens the display unit shown in the 2003-75858 communique and is embedded in display module itself in the wall and to ventilations such as display module and printed circuit board (PCB)s, thereby carries out natural air cooling.

In addition, in the wall shown in No. 3423529 communique of Japanese Patent Laid is provided with system, do not have cooling system, display unit itself is installed in wall with in the sheet material.

In addition, open in the example shown in the 2005-36609 communique the Japan Patent spy, in architectural construction, in wall, packed into refrigerator and television set etc.The component parts that the heating of television set etc. is discharged is configured to form as one with the central control device of floor space, thereby can not rise because of heat extraction cause room temperature.In addition, the cold wind of refrigerating plant utilizes the air conditioning duct in the wall to supply with to each room.The waste heat utilization heat interchanger of refrigerating plant forms warm water, thereby to hot-water supplies such as bathtub and dressing rooms.

Yet, be in the large screen display device of representative with the conventional thin television set, sometimes put separately or be loaded in the wall, but be not unit or to dress up wall with their unit of being combined as one-piece type and become the large screen display device that can assemble, can cool off for example with each relevant equipment of audio-visual equipment such as display, receiver and DVD with the form that has heat-dissipating structures such as air cooling and water-cooled in device body inside.

In addition, though the heat extraction of refrigerating plant has obtained effective utilization in hot-water supply, electrified product and audio-visual equipment etc., especially, giant-screen and high brightness etc. is not used effectively yet because of making the heat extraction of the display unit that calorific value increases.

In addition, in the occasion that display unit is installed on the wall, display unit is big more, just more need to consider because of earthquake or the overturning that causes with conflicting of people, object, drop, openly do not prevent display unit overturning, the structure that drops in 2005-36609 communique, the Japanese patent laid-open 10-207385 communique fully but open the Japan Patent spy from wall.

In addition, the structure that embeds mount display on wall in the recess that forms is disclosed in Japanese patent laid-open 10-207385 communique, but in recess, embedded the occasion of display unit, the air of heating can be detained in the rear side of display unit, and the problem of display unit can't be effectively cooled off in existence.

The present inventor is conceived to, it is not mount display on wall, but wall itself is constituted display unit, and and the vent passage that air cooling is used is formed in the wall, thus can be with configuration place, the overturning of audio-visual equipment, drop and heat dissipation problem solves in the lump.

In addition, open technological thought and the concrete means thereof that openly do not constitute the one-piece type wall material of display unit in 2005-36609 communique, the Japanese patent laid-open 10-207385 communique fully the Japan Patent spy.

Summary of the invention

In view of the above problems, the object of the present invention is to provide a kind of wall material, utilized the hot water supply system of heat extraction of audio-visual equipment and the building that has utilized the wall material, described wall material is packed audio-visual equipment into and itself and wall is formed as one, and be built-in with the cooling this audio-visual equipment cooling end, thereby can cool off the audio-visual equipment of packing into, and can be unit or to dress up wall with their unit of being combined as one-piece type, and can assemble with each audio-visual equipment.

In addition, another object of the present invention is to provide a kind of can be with configuration place, the overturning of audio-visual equipment, drop, the wall material that heat dissipation problem solves in the lump and building with this wall material.

The wall material of the 1st aspect is characterized in that, comprising: audio-visual equipment is remained on inner wall body; And the cooling end that is arranged on the inside of this wall body, contacts and has the stream that circulates for thermophore with described audio-visual equipment.

In aspect the 1st, for example press the function of audio-visual equipment and from plurality of devices, select a kind of equipment, this equipment is remained on the inside of wall body.Each the wall material that is incorporated with audio-visual equipment can make up the wall material as a module, constitute AV system as a unit by making up a plurality of wall materials.

Occasion in wall material that audio-visual equipment has been packed into, cooling end contacts with audio-visual equipment.When circulating in the stream of thermophore at cooling end, cooling end is captured the heat of audio-visual equipment and is cooled off.

The wall material of the 2nd aspect, it is characterized in that, comprise: the display part that is provided with audio-visual equipment is used or the front wall portion of the window portion that operating portion is used, the cooling end that can keep the maintaining part of audio-visual equipment, contact with described audio-visual equipment and have the stream that circulates for thermophore and the rear wall parts that is oppositely arranged with described front wall portion, and described front wall portion and rear wall parts are accommodated described maintaining part and cooling end.

In aspect the 2nd, for example press the function of audio-visual equipment and from plurality of devices, select a kind of equipment, the display part of this equipment or operating portion are kept in the face of window portion and with maintaining part.Each the wall material that is incorporated with audio-visual equipment can make up the wall material as a module.

Constitute AV system by making up a plurality of wall materials that are incorporated with audio-visual equipment as a unit.

Occasion in wall material that audio-visual equipment has been packed into, cooling end contacts with audio-visual equipment.When circulating in the stream of thermophore at cooling end, cooling end is captured the heat of audio-visual equipment and is cooled off.

The wall material of the 3rd aspect is characterized in that, the part of described cooling end and described audio-visual equipment, all or heating part contact.

In aspect the 3rd, when in the wall material that audio-visual equipment has been packed into, the part of audio-visual equipment, all or heating part contact with cooling end.

When circulating in the stream of thermophore at cooling end, cooling end from the part of the audio-visual equipment that contacted, all or heating part capture heat and cool off.

The wall material of the 4th aspect is characterized in that described audio-visual equipment has display module, and this display module is kept by described maintaining part, and described cooling end contacts with part or all of described display module.

In aspect the 4th, when in the wall material of under the state that keeps with maintaining part display module having been packed into, part or all of display module contacts with cooling end.

When circulating in the stream of thermophore at cooling end, cooling end is captured heat from part or all of the display module that contacted and is cooled off.

The wall material of the 5th aspect is characterized in that, described cooling end is relative with described front wall portion, and has the size roughly the same with this front wall portion.

In aspect the 5th, not that the audio-visual equipment that only cooling end is contacted cools off, but the whole space of wall material inside is cooled off.

The wall material of the 6th aspect is characterized in that, described cooling end contacts accordingly with the heating part of described display module.

In aspect the 6th, when in the wall material of under the state that keeps with maintaining part display module having been packed into, the heating part of display module contacts with cooling end.

When circulating in the stream of thermophore at cooling end, cooling end is captured heat from the heating part of the display module that contacted, thereby more effectively cools off display module.

The wall material of the 7th aspect is characterized in that, described cooling end is hollow form, and comprises: it is lost to be arranged on the ostium of the described thermophore on the sidepiece of this cooling end and tap hole and the circulation from this ostium to this tap hole.

In aspect the 7th, thermophore circulation in the circulation of cooling end is lost, thus the audio-visual equipment that contacts with cooling end is cooled off.

The wall material of the 8th aspect is characterized in that, and comprises: be arranged on the described thermophore on the sidepiece of this cooling end ostium, be arranged on the tap hole on the other side relative of this cooling end with a sidepiece.

In aspect the 8th, thermophore flows in from the ostium of a sidepiece of cooling end to the stream of the tap hole of the other side and absorbs heat effectively, and the audio-visual equipment that contacts with cooling end is cooled off.

The wall material of the 9th aspect is characterized in that, described display module is on a face and has the rectangular-shaped of display screen, and described cooling end is hollow form, and has recess, and this recess can be chimeric with another face of the opposite side of described display module.

In aspect the 9th, when in the wall material of under the state that keeps with maintaining part display module having been packed into, another face of display module contacts with the recess of cooling end is chimeric.

When circulating in the stream of thermophore at cooling end, cooling end is captured heat from the whole rear portion of the display module that contacted and is cooled off.

The wall material of the 10th aspect is characterized in that, described cooling end has narrow width part midway from described ostium to described tap hole.

In aspect the 10th, the flow velocity of thermophore accelerates in the stream that the narrow width part because of cooling end becomes narrow, can improve the heat absorption efficiency of thermophore, can cool off the audio-visual equipment that cooling end contacted effectively.

The wall material of the 11st aspect is characterized in that described cooling end is the tubulose that crawls.

In aspect the 11st, thermophore circulates in the cooling end that is the tubulose that crawls, and the audio-visual equipment that contacts with cooling end is cooled off.

Be incorporated with the occasion of a plurality of audio-visual equipment in the wall material, audio-visual equipment that can corresponding each wall material sets cooling end, and cooling end contacts with each audio-visual equipment and cools off.

The wall material of the 12nd aspect is characterized in that, described cooling end comprises: endothermic section and the coil that contacts this endothermic section and supply described thermophore to circulate, described endothermic section contacts with described display module.

In aspect the 12nd, thermophore circulates in coil, utilizes the endothermic section to cool off audio-visual equipment.On the correct position of endothermic section, set the occasion of coil, can corresponding each audio-visual equipment or heating part ground cool off.

The wall material of the 13rd aspect, it is characterized in that, described window portion rectangular shaped, described maintaining part is provided with a plurality of, overlook rectangular shaped, and comprise: the slotted hole that wears on long side direction and can be along this slotted hole freely fitted BULKHEAD UNION, described maintaining part relatively is provided with along a lateral margin and another lateral margin of described window portion, is connected with the pipe arrangement that makes thermophore flow into, flow out described cooling end on described BULKHEAD UNION.

In aspect the 13rd,, the position of BULKHEAD UNION in the slotted hole of maintaining part regulated, fixed corresponding to the contact position of cooling end and audio-visual equipment.BULKHEAD UNION and cooling end are carried out pipe arrangement be connected, and cooling end is installed.Therefore, can regulate the installation site of cooling end.

The wall material of the 14th aspect is characterized in that described cooling end is fixed on the described rear wall parts.

In aspect the 14th, only need the rear wall parts that cooling end is affixed is installed, just cooling end can be built in this wall material.Thermophore circulates in cooling end, and cooling end contact audio-visual equipment cools off.

The wall material of the 15th aspect is characterized in that, described thermophore is water or freon substitute.

In aspect the 15th, water or freon substitute circulate and absorb heat.

The wall material of the 16th aspect, it is characterized in that, described cooling end comprises: ostium that flows into for described thermophore and the tap hole that flows out for this thermophore, described wall material also comprises: pipe arrangement that links to each other with tap hole with described ostium and circulation pump from this pipe arrangement to described cooling end that send described thermophore via.

In aspect the 16th, circulation pump passes out to thermophore in the cooling end via pipe arrangement.Thermophore flows into from the ostium of cooling end, and flows out from tap hole.Cooling end contact audio-visual equipment cools off.

The wall material of the 17th aspect is characterized in that described audio-visual equipment has power switch, the starting switch of described circulation pump and described power switch interlock.

In aspect the 17th, in the occasion of using audio-visual equipment, when connecting power switch, circulation pump starts.By sending of circulation pump, thermophore is flowing into back outflow in the cooling end via pipe arrangement, and cooling end contact audio-visual equipment cools off.

The wall material of the 18th aspect is characterized in that described cooling end is provided with temperature pick up, controls the connection of the starting switch of described circulation pump based on the detection signal of this temperature pick up.

In aspect the 18th, according to the temperature pick up of cooling end, circulation pump starts, and temperature that can corresponding cooling end is cooled off audio-visual equipment.

The wall material of the 19th aspect is characterized in that described cooling end is provided with temperature pick up, controls the discharge rate of described circulation pump based on the detection signal of this temperature pick up.

In aspect the 19th, utilize the detection signal of the temperature pick up of cooling end to control the increase and decrease of the discharge rate of circulation pump, thereby the flow of the thermophore that circulates in cooling end is controlled.

Therefore, can utilize the control of the discharge rate of circulation pump to control the temperature of cooling end.

The wall material of the 20th aspect is characterized in that described thermophore is a water, and described wall material comprises water storage box, and the water conservancy in this water storage box is supplied with to described cooling end with described circulation pump.

In aspect the 20th, owing in water storage box, store the water of thermophore, therefore can be easily the increase and decrease that utilizes the water yield that circulation pump sends be controlled.Therefore, can regulate the cooling effectiveness of cooling end according to the water yield.

The hot water supply system of the 21st aspect is characterized in that, comprising: described wall material and the geyser that the water of supplying with is heated.

In aspect the 21st, can utilize the heat extraction of the audio-visual equipment in the wall material of having packed into to supply with warm water.

The hot water supply system of the 22nd aspect is characterized in that, the described thermophore that circulates in described cooling end is a water, and this water is supplied with to described geyser.

In aspect the 22nd, the water that utilizes the heat extraction of the audio-visual equipment in the wall material of having packed into to circulate in cooling end becomes warm water, thereby supplies with to geyser.Because geyser burns heat with warm water, therefore save electric power.

The hot water supply system of the 23rd aspect is characterized in that, comprises heat interchanger, and in this heat interchanger, water and described thermophore carry out interchange of heat, and heated this water is supplied with to described geyser in this heat interchanger.

In aspect the 23rd, because of the heat extraction of the audio-visual equipment in the wall material of having packed into, the thermophore that in cooling end, circulates heat absorption, thermophore and water carry out interchange of heat in heat interchanger, thus heated water becomes warm water, and warm water is supplied with to geyser.Because geyser burns heat with warm water, therefore save electric power.

The hot water supply system of the 24th aspect is characterized in that, comprises water storage box, and the water in this water storage box circulates in described cooling end as described thermophore, and this water is supplied with to described geyser.

In aspect the 24th, the water of water storage box is supplied with as the thermophore of cooling end, can be increased and decreased the quantity delivered of water.

Packed into the heat extraction of the audio-visual equipment in the wall material of utilization, the water that will circulate in cooling end becomes warm water, and supply with to geyser.Because geyser burns heat with warm water, therefore save electric power.

The hot water supply system of the 25th aspect, it is characterized in that, comprise: water storage box and make from this water storage box and supply with the heat interchanger that the water that comes and described thermophore carry out interchange of heat, heated described water circulates in described water storage box and heat interchanger in this heat interchanger.

In aspect the 25th, heat extraction because of the audio-visual equipment in the wall material of having packed into, the thermophore heat absorption of circulating in cooling end is supplied with the water and the thermophore that come from water storage box and carry out interchange of heat in heat interchanger, and the water of water storage box circulates in described water storage box and heat interchanger.When the water of water storage box all became warm water, warm water was supplied with to geyser.Because geyser burns heat with warm water, therefore save electric power.

The building of the 26th aspect is characterized in that, comprises the wall that has utilized above-mentioned wall material.

In aspect the 26th, by a plurality of wall materials of suitable assembling, thereby the wall material becomes the wall in the room of building.

The building of the 27th aspect is characterized in that, comprises above-mentioned hot water supply system.

In aspect the 27th, by a plurality of wall materials that are incorporated with audio-visual equipment of suitable assembling, the wall material becomes the wall in the room of building.By having utilized the hot water supply system of the heat extraction that is enclosed in the audio-visual equipment in the wall material, to building such as hot-water supplies such as bathroom and kitchens.

The wall material of the 28th aspect is characterized in that, comprising: audio-visual equipment is remained on inner wall body; The vent passage that forms, is communicated with in the inside of this wall body with the intrinsic audio-visual equipment of this wall; And the opening that is communicated with this vent passage.

In aspect the 28th,, therefore configuration place, the overturning of audio-visual equipment, the problem that drops can be solved in the lump because audio-visual equipment is maintained at the inside of wall body.

The wall body comprises: make air to the vent passage of audio-visual equipment circulation and the opening that is communicated with vent passage.Therefore, from the negotiable vent passage of opening inhaled air audio-visual equipment is carried out air cooling.

In addition, aspect the 28th in, comprise that also audio-visual equipment does not remain on the wall material in the wall as yet.In addition, the wall material might not be confined to for building, also is included in the such wall material of partition wall that use office, show ground etc.

The wall material of the 29th aspect is characterized in that, comprising: at least two columnar parts; Holding member, this holding member are crossed between this columnar part, keep audio-visual equipment; Cover plate, this cover plate will cover between the columnar part; Vent passage, this vent passage forms by described holding member and described cover plate are separated, and perhaps forms on described holding member; And opening, this opening is communicated with this vent passage.

In aspect the 29th, audio-visual equipment is remained in the wall by the holding member that is crossed between at least two columnar parts, and cover plate constitutes wall and will cover between the columnar part.Therefore, audio-visual equipment can solve configuration place, the overturning of audio-visual equipment, the problem that drops in the lump as the wall material and one constitutes.

In addition, can circulate the vent passage in wall from the opening inhaled air, thereby audio-visual equipment is carried out air cooling.

The wall material of the 30th aspect is characterized in that, comprising: at least two columnar parts; Holding member, this holding member are crossed between this columnar part, keep audio-visual equipment; The front side cover plate, this front side cover plate will cover between the described columnar part from the place ahead of described audio-visual equipment; The rear side cover plate, this rear side cover plate will cover between the described columnar part from the rear of described audio-visual equipment; Vent passage, this vent passage forms by described holding member and described rear side cover plate are separated, and perhaps forms on described holding member; And opening, this opening is communicated with this vent passage, and described front side cover plate has the window portion that the audio-visual equipment that kept by described holding member is exposed.

In aspect the 30th, the audio-visual equipment of display unit etc. is remained in the wall by the holding member that is crossed between at least two columnar parts, and cover plate constitutes wall and will cover between the columnar part.Therefore, audio-visual equipment can solve configuration place, the overturning of audio-visual equipment, the problem that drops in the lump as the wall material and one constitutes.

In addition, can circulate the vent passage in wall from the opening inhaled air, thereby audio-visual equipment is carried out air cooling.

And described front side cover plate has window portion in the place ahead of the audio-visual equipment that is held the parts maintenance.Therefore, the display surface of audio-visual equipment exposes outside wall from window portion, and the user can be from the external visual display surface of wall.

The wall material of the 31st aspect is characterized in that, described holding member comprises: both lateral sides portion links to each other with described columnar part, at the plate-shaped member between the both ends up and down of described columnar part; On this plate-shaped member, form, supply the peristome of the rectangular shape of audio-visual equipment embedding; And the top part and the following part that are arranged on this peristome go up, from the hold assembly of above-below direction clamping audio-visual equipment.

In aspect the 31st, audio-visual equipment be embedded into plate-shaped member that columnar part links to each other in the peristome that forms, and be set at peristome hold assembly up and down from clamping up and down.Therefore, even large-scale audio-visual equipment also can be firmly held in the wall.

The wall material of the 32nd aspect is characterized in that, described hold assembly has opening in described rear side cover plate side, and this opening makes air circulate from the below towards the top or in the horizontal.

In aspect the 32nd,, therefore can carry out air cooling to the rear side of the audio-visual equipment that is held the parts clamping because hold assembly has opening in rear side cover plate side.

The wall material of the 33rd aspect is characterized in that described opening is formed on the described cover plate.

In aspect the 33rd, can suck air from the face side of cover plate and audio-visual equipment is carried out air cooling.

The wall material of the 34th aspect is characterized in that, described opening is formed on described front side cover plate or the described rear side cover plate.

In aspect the 34th, be formed on occasion on the cover plate of front side, can suck air from the space of wall material front side and carry out air cooling audio-visual equipment at opening.In addition, be formed on occasion on the rear side cover plate, can suck air from the space of wall material rear side and carry out air cooling audio-visual equipment at opening.For example, in the occasion that the wall material is used as the room partitioning wall, can suck air from adjacent room.In addition, in the occasion that the rear side with the wall material uses as outer wall, can be from outdoor suction air.

The wall material of the 35th aspect is characterized in that, is provided with a plurality of described openings, and comprises valve, and this valve is used for being chosen in the opening that ventilation is used.

In aspect the 35th, owing to have a plurality of openings, and can utilize valve to be chosen in the opening that uses in air-breathing, therefore the lower air of inlet temperature optionally.

The wall material of the 36th aspect is characterized in that, comprising: temperature pick up that the outer temperature of wall is detected and the device of controlling the selection action of described valve based on the testing result of this temperature pick up.

In aspect the 36th, temperature pick up detects the outer temperature of wall, comes the action of control valve based on the testing result of temperature pick up.Therefore, can select the place of air-breathing or exhaust according to the outer temperature of wall.

The wall material of the 37th aspect is characterized in that, comprising: the checkout gear of the break-make of the power supply of detection audio-visual equipment and the device of controlling the action of described valve based on the testing result of this checkout gear.

In aspect the 37th, checkout gear detects the break-make of the power supply of audio-visual equipment, comes the action of control valve based on the testing result of checkout gear.Therefore, can select the place of air-breathing or exhaust according to the break-make of audio-visual equipment.

The wall material of the 38th aspect is characterized in that, comprises the fan that is arranged in the described opening.

In aspect the 38th,, therefore can more effectively carry out air-breathing and exhaust, and can carry out air cooling audio-visual equipment owing in opening, be provided with fan.

The wall material of the 39th aspect is characterized in that, comprises the temperature pick up that the temperature in the wall is detected, and comprises the device of controlling the action of described fan according to the testing result of this temperature pick up.

In aspect the 39th, temperature pick up detects the temperature in the wall, controls the action of fan based on the testing result of temperature pick up.Therefore, can stop according to the temperature in the wall or drive fan and select rotating speed of fan etc.

The wall material of the 40th aspect is characterized in that, the device that the power supply that is included in audio-visual equipment drives described fan and when the power supply of audio-visual equipment is in off-state described fan stopped when being in on-state.

In aspect the 40th, checkout gear detects the break-make of the power supply of audio-visual equipment, is in the occasion of the high febrile state of on-state, fans drive at the power supply of audio-visual equipment, be in the occasion of the low febrile state of off-state at the power supply of audio-visual equipment, fan stops.Therefore, can according to whether needs audio-visual equipment is carried out air cooling drive or stop fan.

The wall material of the 41st aspect is characterized in that, described cover plate comprises at least a in plank, cement board, gypsum plank or the iron plate.

In aspect the 41st, constitute cover plate with this general parts of plank, cement board, gypsum plank or iron plate.Therefore, can constitute the wall material with low cost.

The wall material of the 42nd aspect is characterized in that, described front side cover plate and rear side cover plate comprise at least a in plank, cement board, gypsum plank or the iron plate.

In aspect the 42nd, constitute front side cover plate and rear side cover plate with this general parts of plank, cement board, gypsum plank or iron plate.Therefore, can constitute the wall material with low cost.

The wall material of the 43rd aspect is characterized in that, comprises the audio-visual equipment that is kept by described holding member.

In aspect the 43rd, air is gone into from the air cooling orifice flow of the bottom of the casing that covers the audio-visual equipment rear side, and the air that has flow through audio-visual equipment inside goes out from the air cooling orifice flow on top.Therefore, can more effectively carry out air cooling to the audio-visual equipment that remains in the wall.

The wall material of the 44th aspect is characterized in that, described audio-visual equipment has the casing that covers rear side, comprises the air cooling hole respectively in the upper and lower of this casing.

In aspect the 44th, air is gone into from the air cooling orifice flow of the lower surface portion of the casing that covers the audio-visual equipment rear side, and the air that has flow through audio-visual equipment inside goes out from the air cooling orifice flow of upper surface part.Therefore, compare with the audio-visual equipment that has in the air cooling hole of the rear of casing opening, air at the internal circulation of audio-visual equipment, can more effectively carry out air cooling to the audio-visual equipment that remains in the wall easily.

The wall material of the 45th aspect is characterized in that described audio-visual equipment has casing, and this casing has rear surface portion, upper surface part and lower surface portion, comprises the air cooling hole respectively in the upper surface part and the lower surface portion of this casing.

The wall material of the 46th aspect is characterized in that, described audio-visual equipment comprises: cover the casing of rear side and the circuit that is covered by this casing, described casing comprises the air cooling hole respectively in the upper and lower of described circuit.

Aspect the 45th and in the 46th aspect, the casing that the rear side that constitutes the circuit of audio-visual equipment and this audio-visual equipment is covered has the air cooling hole in the upper and lower of circuit.Therefore, from the air cooling hole leaked-in air of bottom the circuit as pyrotoxin is concentrated air cooling, the air that has flow through audio-visual equipment inside goes out from the air cooling orifice flow on top.Therefore, can more effectively carry out air cooling to the audio-visual equipment that remains in the wall.

The wall material of the 47th aspect, it is characterized in that, described audio-visual equipment comprises: cover the casing of rear side and the circuit part that is covered by this casing, described casing comprises from the side-prominent backward protuberance of the part corresponding with described circuit part, comprises the air cooling hole respectively in the upper surface part and the lower surface portion of this protuberance.

In aspect the 47th, comprise the casing that the rear side that will constitute the circuit of audio-visual equipment and this audio-visual equipment covers.Casing comprises from the part corresponding with described circuit part to the side-prominent protuberance in the back side, comprises the air cooling hole respectively in the upper surface part and the lower surface portion of this protuberance.Therefore, compare with the audio-visual equipment that has in the air cooling hole of the rear of casing opening, air at the internal circulation of audio-visual equipment, can more effectively carry out air cooling to the audio-visual equipment that remains in the wall easily.

The wall material of the 48th aspect is characterized in that, comprises guide member, and the air that this guide member will circulate in described vent passage guides to described air cooling hole.

In aspect the 48th, the air that guide member will circulate in described vent passage guides to described air cooling hole.Therefore, can more effectively carry out air cooling to the audio-visual equipment that remains in the wall.

The wall material of the 49th aspect is characterized in that, comprises partition member, and this partition member is separated into the air cooling hole side on top and the air cooling hole side of bottom with described vent passage.

In aspect the 49th, because partition member is separated into the air cooling hole side on top and the air cooling hole side of bottom with described vent passage, therefore can prevent to flow into once more in the air cooling hole of bottom, can more effectively carry out air cooling audio-visual equipment from the warm air that the air cooling orifice flow on top goes out.

The wall material of the 50th aspect is characterized in that described audio-visual equipment has thermal component, and this thermal component exposes in described rear side cover plate side, and the heat that audio-visual equipment produces is discharged.

In aspect the 50th, because audio-visual equipment has the thermal component that exposes in rear side cover plate side, therefore can be by the air Direct Air-Cooled of circulation vent passage.Therefore, can more effectively carry out air cooling to audio-visual equipment.

The wall material of the 51st aspect is characterized in that, comprises guide member, and the air that this guide member will circulate in described vent passage guides to described thermal component.

In aspect the 51st, the air that guide member will circulate in described vent passage guides to described thermal component.Therefore, can more effectively carry out air cooling to the audio-visual equipment that remains in the wall.

The building of the 52nd aspect is characterized in that, comprises described wall material.

The building of the 53rd aspect is characterized in that, comprising: air interchanger of being taken a breath in the room and the conduit that this air interchanger is linked to each other with the opening of wall material.

Aspect the 52nd and in the 53rd aspect, the opening of wall material utilizes conduit to link to each other with air interchanger.Therefore, can air be drawn in the wall, and the air that will flow through vent passage is discharged to the outside with air interchanger.

The building of the 54th aspect is characterized in that, described air interchanger has the conduit with the external communications of building.

In aspect the 54th, air interchanger and building outside utilize conduit to be communicated with.Therefore, the air that has flow through the vent passage of wall material can be discharged outside building.

Adopt the wall material of above-mentioned aspect, form one with wall, and be built-in with the cooling end of cooling audio-visual equipment, therefore have the effect that to cool off audio-visual equipment because audio-visual equipment is packed into.In addition, each the wall material that is incorporated with each audio-visual equipment has and each wall material can be made up, can constitute the effect as the AV system of a unit as a module.

Adopt the hot water supply system of above-mentioned aspect, the heat extraction of the audio-visual equipment because utilization has been packed in the wall material becomes warm water with water and supplies with to geyser, therefore can utilize geyser to begin heating from warm water, and supply hot water can be saved electric power.

Adopt the building of above-mentioned aspect, have the effect that to utilize the wall material that is incorporated with audio-visual equipment to constitute the one-piece type AV system of wall.In addition, also having the heat extraction that can utilize the audio-visual equipment in the wall material of having packed into comes to the effect such as hot-water supplies such as bathroom and kitchens.

Adopt above-mentioned aspect, can be with configuration place, the overturning of audio-visual equipment, drop and heat dissipation problem solves in the lump.

Above-mentioned and other purpose will be able to clearly by following detailed description and accompanying drawing.

Description of drawings

To be expression with the wall material of a plurality of examples 1 assemble as the wall in the room of building Fig. 1 and the stereogram of the structure that forms;

Fig. 2 is the stereogram of the wall material of the expression seen from the front display module that is incorporated with display unit;

Fig. 3 is the stereogram that the expression seen from the front is incorporated with the wall material of a plurality of audio-visual equipment;

Fig. 4 is the stereogram that the expression seen from the front is incorporated with the wall material of speaker system;

Fig. 5 is expression has covered the window portion of wall material with wallpaper the isometric front view of state;

Fig. 6 from frontal see, the stereogram of the wall integrated display apparatus of the display module of in the wall material of example 1, having packed into;

Fig. 7 A～Fig. 7 C is the stereogram of the columnar part of expression wall material;

Fig. 8 is the in-built stereogram of the expression wall material seen from back side direction;

Fig. 9 is the stereogram of state of display module of having packed in the wall material of seeing from frontal that is illustrated in example 1;

Figure 10 is the in-built stereogram of the wall material with coolant jacket of the expression example 2 seen from frontal;

Figure 11 is the coolant jacket of the expression example 3 seen from frontal and the stereogram of display module;

Figure 12 is the in-built stereogram of the wall material with coolant jacket of the expression example 4 seen from back side direction;

Figure 13 is the stereogram of the expression maintaining part of the coolant jacket seen from frontal;

Figure 14 is the in-built stereogram of the wall material with coolant jacket of the expression example 5 seen from back side direction;

Figure 15 is the in-built stereogram of the wall material with cooling pipe box of the expression example 6 seen from back side direction;

Figure 16 is the in-built stereogram of the wall material with cooling pipe box of the expression example 7 seen from back side direction;

Figure 17 is the in-built stereogram of the wall material with cooling pipe box of the expression example 8 seen from back side direction;

Figure 18 is the in-built stereogram of the wall material with coolant jacket of the expression example 9 seen from back side direction;

Figure 19 is the stereogram that is illustrated in the lost details of the interior circulation that forms of coolant jacket;

Figure 20 be the expression example 10 seen from frontal have the in-built stereogram of the wall material of coolant jacket in rear wall parts;

Figure 21 is the sectional view along the C-C line of Fig. 1 of structure of wall material of the hot water supply system of expression example 11;

Figure 22 is the stereogram of the hot water supply system in expression house;

Figure 23 is the schematic diagram of the apparatus structure of expression hot water supply system;

Figure 24 is the block diagram of the control part of expression hot water supply system;

Figure 25 is the schematic diagram of apparatus structure of the hot water supply system of expression example 12;

Figure 26 is the schematic diagram of apparatus structure of the hot water supply system of expression example 13;

Figure 27 is the schematic diagram of apparatus structure of the hot water supply system of expression example 14;

Figure 28 is a stereogram of schematically representing the wall material for building of example 15;

Figure 29 is six figure of wall material for building;

Figure 30 is the exploded perspective view of wall material for building;

Figure 31 is six figure of wall foundation structure;

Figure 32 is a stereogram of schematically having represented to open the wall material for building of front side foundation slab;

Figure 33 A～Figure 33 C is the schematic diagram of thin portion that is used to illustrate the air cooling structure of display unit;

Figure 34 A and Figure 34 B be schematically represent display unit remained in the wall before and the stereogram of wall material for building afterwards;

Figure 35 is the schematic diagram of an example that expression comprises the building of wall material for building;

Figure 36 is the side sectional view of an example of schematically representing to comprise the building of wall material for building;

Figure 37 is another routine side sectional view of schematically representing to comprise the building of wall material for building;

Figure 38 is a stereogram of schematically representing the wall material for building of variation 1;

Figure 39 is the stereogram of wall material for building of schematically having represented to pull down the variation 1 of display unit;

Figure 40 is the side sectional view of the wall material for building of variation 1;

Figure 41 is the stereogram of wall material for building of schematically having represented to open the variation 2 of front side foundation slab;

Figure 42 is six figure of the wall material for building of variation 2;

Figure 43 is an exploded perspective view of schematically representing the wall material for building of variation 2;

Figure 44 is a stereogram of schematically representing the hold assembly of variation 2;

Figure 45 is six figure of the hold assembly of variation 2;

Figure 46 is the side sectional view of building of schematically representing to comprise the wall material for building of variation 3;

Figure 47 is the side sectional view of building of schematically representing to comprise the wall material for building of variation 4;

Figure 48 is the block diagram of the structure of expression control device;

Figure 49 is the flow chart of the processing sequence of expression CPU;

Figure 50 is the side sectional view of building of schematically representing to comprise the wall material for building of variation 5;

Figure 51 is the block diagram of the structure of expression control device;

Figure 52 is the flow chart of the processing sequence of expression CPU;

Figure 53 A～Figure 53 C is the schematic diagram of air cooling detail structure that is used to illustrate the wall material for building of variation 6;

Figure 54 is the schematic diagram of air cooling detail structure that is used to illustrate the wall material for building of variation 7;

Figure 55 A～Figure 55 C is the schematic diagram of air cooling detail structure that is used to illustrate the wall material for building of variation 8;

Figure 56 A～Figure 56 C is the schematic diagram of air cooling detail structure that is used to illustrate the wall material for building of variation 9;

Figure 57 is the schematic diagram of air cooling detail structure that is used to illustrate the wall material for building of variation 10;

Figure 58 A～Figure 58 E is the schematic diagram of air cooling detail structure that is used to illustrate the wall material for building of variation 11;

Figure 59 A～Figure 59 E is the schematic diagram of air cooling detail structure that is used to illustrate the wall material for building of variation 12;

Figure 60 A～Figure 60 C is the schematic diagram of air cooling detail structure that is used to illustrate the wall material for building of variation 13;

Figure 61 is the schematic diagram of air cooling detail structure that is used to illustrate the wall material for building of variation 14;

Figure 62 A～Figure 62 C is the schematic diagram of air cooling detail structure that is used to illustrate the wall material for building of variation 15;

Figure 63 is the schematic diagram of air cooling detail structure that is used to illustrate the wall material for building of variation 16;

Figure 64 A～Figure 64 E is the schematic diagram of air cooling detail structure that is used to illustrate the wall material for building of variation 17;

Figure 65 A～Figure 65 E is the schematic diagram of air cooling detail structure that is used to illustrate the wall material for building of variation 18;

Figure 66 A～Figure 66 C is the schematic diagram of air cooling detail structure that is used to illustrate the wall material for building of variation 19;

Figure 67 A～Figure 67 C is the schematic diagram of air cooling detail structure that is used to illustrate the wall material for building of variation 20;

Figure 68 A～Figure 68 C is the schematic diagram of air cooling detail structure that is used to illustrate the wall material for building of variation 21;

Figure 69 A～Figure 69 C is the schematic diagram of water-cooled detail structure that is used to illustrate the wall material for building of variation 22;

Figure 70 A～Figure 70 C is the schematic diagram of water-cooled detail structure that is used to illustrate the wall material for building of variation 23; And

Figure 71 A～Figure 71 C is the schematic diagram of water-cooled detail structure that is used to illustrate the wall material for building of variation 24.

The specific embodiment

Best example to the wall material describes with reference to the accompanying drawings.

(example 1)

To be expression with the wall material of a plurality of examples 1 assemble as the wall in the room of building Fig. 1 and the stereogram of the structure that forms, Fig. 2 is the stereogram of the wall material of the expression seen from the front display module that is incorporated with display unit, Fig. 3 is the stereogram that the expression seen from the front is incorporated with the wall material of a plurality of audio-visual equipment, Fig. 4 is the stereogram that the expression seen from the front is incorporated with the wall material of speaker system, and Fig. 5 is the isometric front view of the state of the expression window portion that covered the wall material with wallpaper.

The wall material of example 1 (wall material for building) constitutes (with reference to Fig. 2 and Fig. 4) as the module unit of display module 2, TV tuner 3a, DVD player 3b, terminal box 3c and the speaker system 3d etc. of each equipment, for example large-screen thin television machine of AV (audiovisual) equipment of having packed into by function.In addition, the wall material also can be used as the module unit that has made up a plurality of audio-visual equipment and constitutes (with reference to Fig. 3).The wall material can be one-piece type and make up a plurality of the assembling by audio-visual equipment being dressed up wall.By a plurality of wall materials of suitable assembling, the wall material becomes the wall 1 (with reference to Fig. 1) in the room of building.

It is flat rectangular-shaped that the wall material is, and have the corresponding window portion 11 of size with the display screen 2a of the audio-visual equipment of packing into, for example display module 2.The wall material can use under the state of audio-visual equipment not being packed into, also can under the state that wallpaper 3e is posted in the window portion 11 be to use (with reference to Fig. 1 and Fig. 5) as the wall material.

Fig. 6 is the stereogram of the wall integrated display apparatus of the display module of having packed in the wall material of example 1 seen from frontal, Fig. 7 A～Fig. 7 C is the stereogram of the columnar part of expression wall material, and Fig. 8 is the in-built stereogram of the expression wall material seen from back side direction.

The display module 2 in the wall material of example 1 of packing into for example can be LCD, plasma scope, organic electro-luminescent display or as a kind of surface conductive type electronic emission element display of field-emitter display etc.

The display module 2 of wall integrated display apparatus as the front, and is housed in display screen 2a in the flat rectangular-shaped framework 4 of growing crosswise of erectting attitude.

The wall material is rectangular-shaped, has the front wall portion 10 of rectangular plate shape, and this front wall portion 10 constitutes the maintenance frame of the display screen 2a of display module 2.Be formed with the window portion 11 of the roughly the same rectangular shape of shape and display screen 2a in the substantial middle portion of front wall portion 10.

The wall material comprises and the relative rear wall parts 12 in front wall portion 10 empty standard width of a room in an old-style house cracks.Rear wall parts 12 is the identical rectangular plate shape of size and front wall portion in length and breadth 10.The material of front wall portion 10 and rear wall parts 12 can be that veneer, gypsum plank etc. can be used as the plate that constructional materials uses.

Be provided with the columnar part 14,14 of square tube type in rear wall parts 12 sides of the both sides of front wall portion 10 10b, 10b.Columnar part the 14, the 14th, the side wall portion of wall material, play a part with front wall portion 10 and rear wall parts 12 in conjunction with, suitably guarantee the separator in gap.

Shown in Fig. 7 A～Fig. 7 C, except square tube type, columnar part 14 also can be a flat column, or various deformed shape.The material of columnar part 14 is metal, timber and concrete etc., and the material that can become pillar and side wall portion so long as have intensity gets final product.

As shown in Figure 8, the wall material be built-in with can be for the metal cooling end of thermophore circulation, be coolant jacket 20.

Upper limb 11a along window portion 11 on the wall material is provided with maintaining part 16,16 with lower edge 11b with relative form, and maintaining part 16,16 is held in the setting attitude with display module 2 and coolant jacket 20.

Maintaining part 16 comprises: long side direction is maintenance platform 17 and the positive holding section 19 that is the rectangular shape of growing crosswise of seeing that rectangular shaped is seen in horizontal front.Keeping transversely arranged and equally spaced be equipped with three installing hole 18a, 18a, 18a on the face portion 18 of platform 17, installing hole 18a, 18a, 18a are used for Screw (not shown) maintaining part 16 being fixed on the rear surface of front wall portion 10.Keeping platform 17 is parts that the longitudinal section takes the shape of the letter U, and the open side of U-shaped is towards rear wall parts 12.Maintaining part 16,16 constitutes the wall body that the structure to wall supports.

The maintenance platform 17 of the maintaining part 16 of lower edge 11b side has overlooks the maintenance face 17a that is the rectangular shape of growing crosswise.Be provided with holding section 19 along the trailing edge 17b that keeps face 17a, this holding section 19 is used to limit the position that is provided with of coolant jacket 20 with projecting upwards.Transversely arranged and equally spaced be equipped with three installing hole 19a, 19a, the 19a that is used to install coolant jacket 20 on holding section 19.

The lower surface 12c of the bottom 16d of maintaining part 16 and the lower surface 10c of front wall portion 10 and rear wall parts 12 is on a face.

The setting upside down of the maintaining part 16 that the maintaining part 16 that is provided with along the upper limb 11a of window portion 11 will be provided with along lower edge 11b.The upper surface 12d of the upper surface 16e of the maintaining part 16 of upper limb 11a side and the upper surface 10d of front wall portion 10 and rear wall parts 12 is on a face.

It is rectangular-shaped that coolant jacket 20 is the flat hollow of erectting attitude, and the face portion of coolant jacket 20 is the roughly the same shape of the 4a of rear surface portion with the framework 4 of display module 2.The long side direction of the bottom 21a of coolant jacket 20 is laterally, is formed with the ostium 22a of thermophore at the sidepiece of bottom 21a.On the top plate portion 21b of coolant jacket 20, becoming the tap hole 22b that is formed with thermophore on the position at diagonal angle roughly with ostium 22a.

In addition, relatively wear porosely with the ostium 22a of bottom 21a on the maintenance face 17a of the maintaining part 16 of downside, in addition, the tap hole 22b with top plate portion 21b on the maintenance face 17a of the maintaining part 16 of upside relatively wears porose.

The rising wood of the rear surface portion of coolant jacket 20 and lower edge are fixed on installing hole 19a, the 19a of the holding section 19,19 of each maintaining part 16,16 with Screw (not shown) ... on.

In addition, keep upper side and the lower side of lower edge 11b and the upper and lower difference butt of front wall portion 10 rear surfaces of each face portion 18,18 of platform 17,17, at installing hole 18a, the 18a of face portion 18 at the upper limb 11a of window portion 11 ... in fix with Screw (not shown).

Columnar part 14 from front wall portion 10 width towards the depth direction longer slightly than the depth direction width of maintaining part 16.Therefore, can between the rear surface of coolant jacket 20 one and rear wall parts 12, form the gap.This gap becomes from the lower end of wall material towards the vent passage of upper end.

In addition, also the width of columnar part 14 and the width of maintaining part 16 can be made roughly the same size, thereby the rear surface portion of coolant jacket 20 and rear wall parts 12 are close to.

Thermophore flow into the coolant jacket 20 from ostium 22a by pipe arrangement 23a via valve (not shown) from the thermophore supply source.Then, the thermophore of inflow from the downside side flow that makes progress, and flows out via pipe arrangement 23b from tap hole 22b in coolant jacket 20.Under the on-off action of valve, thermophore is supplied with to coolant jacket 20 via pipe arrangement 23a, 23b.

In addition, among Fig. 8, what dotted arrow was represented is thermophore stream.

Fig. 9 is the stereogram of state of display module of having packed in the wall material of seeing from frontal that is illustrated in example 1.

On the wall material,, and be formed with recess 24 with the form that display module 2 can be installed with form configuration coolant jacket 20 in the face of the window portion 11 of front wall portion 10.The framework 4 that contains display module 2 puts on the maintenance face 17a of the maintaining part 16 of wall material to erect attitude.

On whole of the rear surface of framework 4 4a of, be crimped with heat transfer sheet 5.When being installed in framework 4 on the maintaining part 16, coolant jacket 20 contacts with the 4a of rear surface portion of framework 4 across heat transfer sheet 5.

Effect to example 1 describes below.

The wall material is pressed the function of audio-visual equipment and select a kind of equipment from plurality of devices, and this equipment is put on the maintenance platform 17 that is fixed on maintaining part 16.Each the wall material that is incorporated with each audio-visual equipment can make up each wall material as a module ground, constitute the AV system as a unit.The wall material that constitutes the AV system becomes the wall 1 (with reference to Fig. 1) in room.

For example the occasion in wall material that the display module 2 of display unit is packed into puts the framework 4 that contains display module 2 on the maintenance platform 17 that is fixed on maintaining part 16, thereby coolant jacket 20 contacts with the heat transfer sheet 5 of the 4a of rear surface portion that contacts framework 4.

When thermophore had flow through coolant jacket 20, coolant jacket 20 was captured heat by heat transfer sheet 5 from the whole face of the 4a of rear surface portion of framework 4 and is cooled off framework 4.

Like this, the wall material of example 1 can be packed audio-visual equipment into and be formed one with wall, and can utilize cooling end that the audio-visual equipment of packing into is cooled off.

Therefore, because the wall material of example 1 cools off audio-visual equipment, therefore can realize quietization under the situation of not using cooling fan.

It for example is the occasion of the display module 2 of large-screen thin television machine at audio-visual equipment, further advance in giant-screenization, high image qualityization and high brightnessization, when calorific value has increased, the coolant jacket 20 of example 1 can easily be tackled by enlarging size, also can easily tackle by the flow that increases thermophore.

Therefore, even the occasion that increases at the heat that produces, the wall material of example 1 also can be guaranteed the reliability of the audio-visual equipment of packing into.

In addition, in the wall material of example 1,, therefore can not occupy the space in the room, can realize giant-screen wall type television set because it is one-piece type that audio-visual equipment is made wall.

In addition, in example 1, owing to can select the corresponding wall material of size with the display screen 2a of the display module 2 of packing into, so selectable size meets the giant-screen wall type television set of room-size.And because the wall material becomes the wall in room, therefore when the impact that earthquake and people have been taken place etc., the audio-visual equipment of packing into can overturning.

(example 2)

Below example 2 is described.

Figure 10 is the in-built stereogram of the wall material with coolant jacket of the expression example 2 seen from frontal.

In addition, the identical symbol of identical in fact or corresponding parts mark is suitably omitted the detailed description that repeats, and the parts of same names form with identical materials, below identical.

The coolant jacket 20 of example 1 is provided with corresponding to the size of the 4a of rear surface portion of the framework 4 that contains display module 2, but the coolant jacket 30 of example 2 is provided with corresponding to the size of front wall portion 10.

The maintenance platform 17 that is arranged on the maintaining part 16 of lower edge 11b side has the maintenance face 17a that is the rectangular shape of growing crosswise that overlooks that keeps display module 2.In example 1, the outstanding holding section 19 that is provided with on the trailing edge 17b that keeps face 17a, but in example 2, along the holding section that the position is set 19 that the edge 17c of rear wall parts 12 sides of the lower surface 16d of maintaining part 16 is provided for limiting coolant jacket 30 with projecting upwards.The lower surface 16d of example 2 keeps face 17a to form longly towards the depth direction ratio of front wall portion 10.

The setting upside down of the maintaining part 16 that the maintaining part 16 that is provided with along the upper limb 11a of window portion 11 will be provided with along the lower edge 11b of window portion 11.

In addition, because coolant jacket 30 is the sizes with front wall portion 10 same degree, so columnar part 14 attenuation.

In the coolant jacket 30 of this example 2, not only display module 2 is cooled off, and to the space around the display module 2, be that cool off in roughly whole space in the wall material, can improve cooling effectiveness.

Therefore, in example 2, also the upper space of the wall material that can stockpile easily heat cools off.

(example 3)

Figure 11 is the coolant jacket of the expression example 3 seen from frontal and the stereogram of display module.

The coolant jacket 32 of example 3 is the roughly the same flat case shape of size and front wall portion 10.Be formed with the recess 33 that rectangular shaped is seen in the front in the substantial middle portion of the face portion 20b of coolant jacket 32 with the degree of depth identical with the recess 24 of example 1.The 4a of rear surface portion of framework 4, two side surface part 4b, 4b, upper surface part 4c and lower surface portion 4d contact this recess 33 with the form that is covered by heat transfer sheet 5 and are installed in this recess 33.

In the coolant jacket 32 of this example 3, coolant jacket 32 not only contacts with the 4a of rear surface portion of the framework 4 that contains display module 2, also contact, can improve the cooling effectiveness of display module 2 with two side surface part 4b, 4b, upper surface part 4c and the lower surface portion 4d of framework 4.

(example 4)

Figure 12 is the in-built stereogram of the wall material with coolant jacket of the expression example 4 seen from back side direction, and Figure 13 is the stereogram of the maintaining part of the expression coolant jacket seen from frontal.

The coolant jacket 34 of example 4 is for example made the corresponding size of size with the local pyrexia portion of display module 2.It is flat rectangular-shaped that coolant jacket 34 is, and only is the size in length and breadth of having dwindled the coolant jacket 20 of example 1.

Coolant jacket 34 can be installed on the corresponding position with the local pyrexia portion of display module 2.For coolant jacket 34 installation site in the horizontal can be regulated, on maintaining part 16, be equipped with laterally long slotted hole 36 along the trailing edge 17b that keeps face 17a.Slotted hole 36 for example wears size for fixing the hole of 3/8 inch pipe usefulness cutting ferrule threading straight coupling (bulkhead union) 37 (BULKHEAD UNIONs).

When the installation site of coolant jacket 34 has been determined, on position, cutting ferrule threading straight coupling 37 is installed in the slotted hole 36,36 of maintaining part 16,16 near the ostium 22a of coolant jacket 34 and tap hole 22b.The ostium 22a of coolant jacket 34 links to each other with each cutting ferrule threading straight coupling 37 with pipe arrangement 23a, the 23b of 3/8 inch pipe with tap hole 22b.

The lateral attitude of coolant jacket 34 can be regulated by the position of the cutting ferrule threading straight coupling 37 in the laterally long slotted hole 36 that is installed in support portion 16.In addition, the lengthwise position of coolant jacket 34 can be regulated by the longitudinal length of pipe arrangement 23a, 23b.

In this routine occasion,, therefore preferably use and to guarantee that the external diameter of intensity is at 3/8 inch pipe more than the pipe because coolant jacket 34 is supported by pipe arrangement 23a, 23b.

In addition, behind the installation site of having determined coolant jacket 34, coolant jacket 34 also can utilize the carriage that extends to the back side of coolant jacket 34 from each holding section 19,19 of maintaining part 16,16 to fix and support.

When the framework 4 that will contain display module 2 put on the maintenance face 17a in maintaining part 16 to erect attitude, in order to limit the position on the depth direction, each maintaining part 16,16 was provided with the locating part 38 of square tube type.Holding section 19 butts of locating part 38 and maintaining part 16, and be provided with two along the both side edges that keeps face 17a.The width of the depth direction of locating part 38 is made the identical size of width with the depth direction of coolant jacket 34.

In addition, among Figure 12, expressions such as arrow and dotted arrow be thermophore stream.

On whole of the rear surface of framework 4 4a of, be crimped with heat transfer sheet 5.Coolant jacket 34 contacts with heat transfer sheet 5, and the framework 4 that contains display module 2 is cooled off.

In addition, heat transfer sheet 5 is crimped on whole of the 4a of rear surface portion of framework 4, but also can only be crimped on the part corresponding with the size of local pyrexia part, and coolant jacket 34 is contacted with the part of heat transfer sheet 5.

In the coolant jacket 34 of this example 4, accordingly coolant jacket 34 is installed on the capable of moving in any direction position with the heating part of display module 2, pipe arrangement 23a, 23b are linked to each other with cutting ferrule threading straight coupling 37, and the heating part of display module 2 is cooled off.

Therefore, in example 4, can regulate the position of coolant jacket 34 accordingly, can cool off local heating part effectively with the local pyrexia part of display module 2.

In example 4, because a display module 2 is arranged in the window portion 11, so window portion 11 is formed with one.Occasion in wall material that a plurality of audio-visual equipment are packed into is provided with a plurality of window portion 11, and in each window portion 11 maintaining part 16 is set.Corresponding to the audio-visual equipment heating portion separately that remains on maintaining part 16 in each window portion 11, a plurality of coolant jackets 34 are provided with corresponding to heating position, size and the scope of audio-visual equipment.

This coolant jacket 34 can cool off the audio-visual equipment that generates heat effectively.

(example 5)

Figure 14 is the in-built stereogram of the wall material with coolant jacket of the expression example 5 seen from back side direction.

The coolant jacket 40 of example 5 coolant jacket 40 identical that be sizes with example 1.Local pyrexia part with display module 2 on coolant jacket 40 is formed with necking down 42,43 accordingly, is provided with the coolant jacket portion 44 (narrow width part) of the narrowed width that makes stream.The size in length and breadth of necking down 42,43 is made suitable dimension corresponding to the heating part of display module 2.

Substantial middle portion at the bottom of coolant jacket 40 21a is formed with ostium 22a.Substantial middle portion at the top plate portion 21b of coolant jacket 40 is formed with tap hole 22b.

In addition, the position of ostium 22a and tap hole 22b also can be provided with in position corresponding to the lateral attitude of coolant jacket 44 and go up.At this moment, can use as shown in figure 13 the maintaining part that is equipped with slotted hole 36 16.

In the coolant jacket 40 of this example 5, the thermophore that flows into from ostium 22a accelerates at the flow velocity of the coolant jacket portion 44 that stream narrows down, and the heat that can capture the local pyrexia part that coolant jacket 4 contacted effectively cools off.

Therefore, in example 5, can cool off local heating part effectively, can improve cooling effectiveness.

(example 6)

Figure 15 is the in-built stereogram of the wall material with cooling pipe box of the expression example 6 seen from back side direction.

The cooling pipe box 50 of example 6 comprises: the endothermic section 52 of the flat rectangular-shaped chest of formation of rear wall parts 12 side openings and the cooling tube 54 (coil) that crawls and set.

The face portion 52a of endothermic section 52 is the roughly the same shape of the 4a of rear surface portion with the framework 4 of display module 2.Cooling tube 54 is relative with the 4a of rear surface portion of framework 4, contacts with the 52b of back side portion of 52 inboards, endothermic section by the heat transfer slurries.

Endothermic section 50 is the size identical with the coolant jacket 20 of example 1, and similarly installs with example 1.Endothermic section 52 contacts with the 4a of rear surface portion of framework 4 across heat transfer sheet 5.

The bottom 53 of endothermic section 52 becomes laterally long side direction.On a sidepiece of bottom 53, be equipped with two hole 53a (ostium) and hole 53b (tap hole) transversely arrangedly.The coolant jacket 20 identical maintaining parts 16,16 of endothermic section 52 usefulness and example 1 keep.The rising wood 52c of endothermic section 52 rear side and lower edge 52d utilize Screw (not shown) to be fixed on installing hole 19a, the 19a of the holding section 19,19 of each maintaining part 16,16 ... on.

On the maintaining part 16 of example 6, wear porose accordingly with two hole 53a, 53b being located on 52 1 sidepieces of endothermic section.Cutting ferrule threading straight coupling 55a, 55b are installed among each hole 53a, 53b of endothermic section 53 by the hole of maintaining part 16.

The upstream side of cutting ferrule threading straight coupling 55a in being installed in hole 53a is connecting the pipe arrangement 23a that makes in the thermophore inflow cooling tube 54.The downstream of cutting ferrule threading straight coupling 55b in being installed in hole 53b is connecting the pipe arrangement 23b that thermophore is flowed out from cooling tube 54.An end that is connecting the inflow side of cooling tube 54 in the downstream of cutting ferrule threading straight coupling 55a is connecting the other end of the outflow side of cooling tube 54 at the upstream side of cutting ferrule threading straight coupling 55b.

The cooling pipe box 50 of this example 6 is captured heat by heat transfer sheet 5 from the whole face of the 4a of rear surface portion and is cooled off on the 4a of rear surface portion of the framework 4 that contains display module 2.

Therefore, in example 6, can improve the cooling effectiveness of display module 2.

In addition, in example 6, cooling tube 54 is contacted with heat transfer sheet 5 on the 4a of rear surface portion that is crimped on framework 4 by endothermic section 52, endothermic section 52 is not set and makes cooling tube 54 and heat transfer sheet 5 direct contacting structure but also can make.

Making cooling tube 54 and the occasion that heat transfer sheet 5 directly contacts, can further improve cooling effectiveness.

(example 7)

Figure 16 is the in-built stereogram of the wall material with cooling pipe box of the expression example 7 seen from back side direction.

In the cooling pipe box 50 of example 6, cooling tube 54 sets with the form of contact in the roughly whole zone of the back side of endothermic section 52 52b of, but cooling tube 54 also can set partly.

The cooling pipe box 60 of example 7 partly contacts with the 52b of back side portion of endothermic section 52 corresponding to the local pyrexia of display module 2.Other structure of example 7 is identical with example 6.

In addition, in example 7, also can endothermic section 52 be set and cooling tube 61 (coil) is directly contacted with heat transfer sheet 5.

In the cooling pipe box 60 of this example 7, can corresponding to heating part cooling tube 61 is set, can cool off effectively.

(example 8)

Figure 17 is the in-built stereogram of the wall material with cooling pipe box of the expression example 8 seen from back side direction.

In the cooling pipe box 62 of example 8, when having the local pyrexia part on a plurality of positions at display module 2, corresponding to each heating part, make with the heat transfer slurries pipe number of times that crawls is contacted with the 63b of back side portion of endothermic section 63 with the cooling tube 64,66 (coil) that occupied area has been done suitable adjusting.

In addition, position and the corresponding size of area shared with cooling tube 64,66 are made in endothermic section 63 shown in Figure 17.A roughly half-size scale of Figure 15 and endothermic section 52 shown in Figure 16 is made in endothermic section 63.

In addition, the rising wood 63c of endothermic section 63 rear side and lower edge 63d utilize Screw (not shown) to be fixed on installing hole 19a, the 19a of holding section 19,19 of each maintaining part 16,16.

In the cooling pipe box of this example 8, can cool off corresponding to heating part ground, can the audio-visual equipment of a plurality of heatings be cooled off.

(example 9)

Figure 18 is the in-built stereogram of the wall material with coolant jacket of the expression example 9 seen from back side direction, and Figure 19 is the stereogram that is illustrated in the lost details of the circulation that forms in the coolant jacket.

In example 9, the tap hole 22b of the coolant jacket 20 of example 1 is formed on the 21a of bottom with the form adjacent transversely arrangedly with ostium 22a.

The coolant jacket 70 of example 9 has the circulation lost 72 from ostium 22a to tap hole 22b.In circulation lost 72, there is not obstructed path (Japanese: the bag path). Stream 73a, 73b, 73c that circulation lost 72 must be flowed into, be flowed out by thermophore ... constitute.

Each stream 73a, 73b, 73c ... laterally set.At each stream 73a, 73b, 73c ... in, thermophore respectively under the situation that does not have to be detained from ostium 72a, the 72a of thermophore ... to tap hole 72b, 72b ... flow.

Circulation shown in Figure 180 lost 72 constitutes bottom horizontal flow sheet, but also can each stream vertically be set with the form that vertically flows, and can also be oblique.

In the coolant jacket 70 of this example 9, thermophore must circulate on whole at the rear surface of framework 4 4a of across heat transfer sheet 5.

Therefore, example 9 can effectively and reliably cool off framework 4.

In addition, in example 1～9, between coolant jacket 20,30,32,40,70 and cooling pipe box 50,60,62 and rear wall parts 12, be formed with the gap, but coolant jacket 20,30,32,40,70 or cooling tube 54,61,64,66 and rear wall parts 12 are close to.

(example 10)

Figure 20 be the expression example 10 seen from frontal have the in-built stereogram of the wall material of coolant jacket in rear wall parts.

It is rectangular-shaped that the coolant jacket 90 of example 10 is the flat hollow of growing crosswise of erectting attitude.The face portion 90a of coolant jacket 90 is the roughly the same shape of the 4a of rear surface portion with the framework 4 of display module 2.The 90b of back side portion of coolant jacket 90 is fixed in the substantial middle portion of rear wall parts 12.The face portion 90a of coolant jacket 90 is in the face of the window portion 11 of front wall portion 10.

Bottom at coolant jacket 90 1 sidepieces is formed with tap hole 22a.Top in coolant jacket the other side is being the tap hole 22b that is formed with thermophore on the position at diagonal angle roughly with tap hole 22a.

Thermophore flow into the coolant jacket 90 from ostium 22a by pipe arrangement 23a via valve (not shown) from the thermophore supply source.Then, the thermophore of inflow in coolant jacket 90 from downside towards on side flow, flow out via pipe arrangement 23b from tap hole 22b.Under the on-off action of valve, thermophore is supplied with to coolant jacket 90 via pipe arrangement 23a, 23b.

The wall material is provided with maintaining part 16, and this maintaining part 16 keeps display module 2 to erect attitude.It is the maintenance platform 17 that rectangular shaped is seen in horizontal front that maintaining part 16 has long side direction.Keeping on the face portion 18 of platform 17, transversely arranged and equally spaced be equipped with three installing hole 18a, 18a, 18a, installing hole 18a, 18a, 18a are used for Screw (not shown) maintaining part 16 being fixed on the rear surface of front wall portion 10.Keeping platform 17 is parts that the longitudinal section takes the shape of the letter U, and the open side of U-shaped is towards rear wall parts 12.Keep platform 17 to have and overlook the maintenance face 17a that is the rectangular shape of growing crosswise.Maintaining part 16,16 makes maintenance face 17a, 17a relative along the upper limb 11a of the window portion 11 of front wall portion 10 with lower edge 11b, thereby utilizes Screw (not shown) to be fixed on the back side of front wall portion 10.

Be crimped with heat transfer sheet 5 on the 4a of rear surface portion of the framework 4 that contains display module 2, framework 4 maintained portions 16,16 keep.The face portion 90a of coolant jacket 90 contacts with heat transfer sheet 5, the upper surface 90d of coolant jacket 90 and lower surface 90c and maintaining part 16,16 maintenance face 17a, 17a butt separately.

The upper surface 16e of maintaining part 16 and lower surface 16d and front wall portion 10 and rear wall parts 12 separately upper surface 10d, 12d and lower surface 10c, 12c on a face.

In the coolant jacket of this example 10, only need assembling rear wall parts 12 just coolant jacket 90 can be built in the wall material.In addition, coolant jacket 90 contacts with heat transfer sheet 5 on the 4a of rear surface portion that is crimped on the framework 4 that contains display module 2, thereby can cool off framework 4 effectively.

In addition, example 2,3,4,5 and 9 coolant jacket 30,32,34,40,70 can be made the structure identical, back side portion is fixed on the rear wall parts 12 with example 10.

In addition, example 6,7 and 8 cooling pipe box 50,60,62 can be fixed in the rising wood and the lower edge of each rear side of each endothermic section 52,52,63 on the rear wall parts 12, thereby make the structure identical with example 10.

Thermophore as (cooling ends) such as the coolant jacket of the example 1～10 of top explanation and cooling pipe boxes for example can make water and freon substitute etc.Water also can be tap water.

Thermophore utilizes circulation pump 100 via the pipe arrangement 23a, the 23b that link to each other with cooling end circulate in cooling end (with reference to Figure 23, Figure 25 and Figure 26).

In the occasion that water is used as thermophore,, water storage box 102 (with reference to Figure 23 and Figure 26) preferably is set and supplies with the water that is stored in the water storage box 102 as the method that water is supplied with to cooling end.By water being stored in the water storage box 102, can at random control the water yield that flows to cooling end, can regulate the cooling effectiveness of cooling end, effectively audio-visual equipment is cooled off.

In addition, also can control the discharge rate of circulation pump 100, thereby control flows to the water yield of cooling end based on the detection signal that is arranged on the temperature pick up 105c on the cooling end.

At this moment, can be according to the temperature of cooling end regulating pondage effectively.

In addition, the starting switch 100a of the circulation pump 100 of thermophore circulation also can being made with the power switch of large-screen thin television machine connects linkedly.In addition, also can control the starting switch 100a of circulation pump 100 according to the detection signal of temperature pick up 105c.

Hot water supply system to the heat extraction that utilized audio-visual equipment describes below.

(example 11)

Figure 21 is the sectional view along the C-C line of Fig. 1 of structure of wall material of the hot water supply system of expression example 11, Figure 22 is the stereogram of the hot water supply system in expression house, Figure 23 is the schematic diagram of the apparatus structure of expression hot water supply system, and Figure 24 is the block diagram of the control part of expression hot water supply system.

In addition, in Figure 21, omit the cut-away section line, and represented the part on roof, house.

The hot water supply system of example 11 has utilized the heat extraction of the display module 2 in the wall material that for example is enclosed in this example.In example 11, the wall material is built-in with the cooling pipe box 50 of example 6.In order to detect wall material temperature inside, the endothermic section 52 of cooling pipe box 50 is provided with temperature pick up 105c.The wall material that is incorporated with display module 2 has constituted the wall 1 (seeing figures.1.and.2 1) in the room of building.

Hot water supply system comprises: make the circulation pump 100 of thermophore via pipe arrangement 23a, 23b circulation in the cooling tube 54 of cooling pipe box 50; The water storage box 102 of the water that comes is supplied with in storage from water pipe; The water-circulating pump 104 that water in the water storage box 102 is circulated via pipe arrangement 101; Thereby between the water of supplying with next thermophore via pipe arrangement 23b and coming, carry out the heat interchanger 106 that exchange heat adds hot water via pipe arrangement 101 supplies; And the geyser 108 that obtains supplying water via pipe arrangement 103 from water storage box 102.Water storage box 102 is provided with: detect the cooling-water temperature sensor 105a of water temperature and the level switch 105d of sensed water level.Heat interchanger 106 is provided with the temperature pick up 105b of the temperature that detects thermophore.

Geyser 108 is built-in with hot water storage tank 108a, and the water (warm water) that supplies among the hot water storage tank 108a utilizes cheap night electricity to heat.

In addition, pipe arrangement 23a links to each other with cooling tube 54 by electromagnetic valve 109a.Pipe arrangement 103 links to each other with geyser 108 by electromagnetic valve 109b.The water of water storage box 102 is supplied with from water pipe by electromagnetic valve 109c.

The control part 110 of hot water supply system comprises: as the CPU112 of control maincenter; The memory 114 of storage control data and program; Make the circulation pump 100 of thermophore circulation; The water-circulating pump 104 that water is circulated in water storage box 102 and heat interchanger 106; Electromagnetic valve 109a, 109b, 109c are driven the control circuit portion 116 of control; And control signal and detection signal carried out the imput output circuit portion 118 that input and output are handled.The output signal of the connection signal of the power switch 107 of large-screen thin television machine, cooling-water temperature sensor 105a, temperature pick up 105b, temperature pick up 105c and level switch 105d is transfused to imput output circuit portion 118 and by CPU112 to be handled.

Below the effect of the hot water supply system of example 11 and the supply method of thermophore are described.

In the hot water supply system of example 11, at first, control circuit portion 116 opens electromagnetic valve 109c, thereby water is supplied with to water storage box 102.The water level signal of level switch 105d inputs to CPU112 from imput output circuit portion 118.When water storage box 102 was full of or becomes ormal weight, control circuit portion 116 closed electromagnetic valve 109c based on the processing of CPU112.

Then, when the power switch 107 of large-screen thin television machine was connected, display module 2 drove, and the connection signal of power switch 107 inputs to CPU112 from imput output circuit portion 118.Control circuit portion 116 opens electromagnetic valve 109a linkedly by processing and the power switch 107 of CPU112, afterwards, drives circulation pump 100.By driving circulation pump 100, thermophore circulates through over-heat-exchanger 106 from the cooling tube 54 of cooling pipe box 50 via pipe arrangement 23a, 23b.

Then, control circuit portion 116 drives water-circulating pump 104, and the water in the water storage box 102 circulates via pipe arrangement 101 and through over-heat-exchanger 106.

Then, thermophore circulates in cooling tube 54, thereby captures and the heat that cools off the display module 2 that pipe box 50 contacts, and display module 2 is cooled off.

In the occasion of the cooling deficiency of display module 2, by the processing based on the CPU of the detection signal of temperature pick up 105c, control circuit portion 116 controls to improve the flow of circulation pump 100.

Captured the thermophore of heat and give water with heat in heat interchanger 106, water becomes warm water.Utilize water-circulating pump 104, water circulates in heat interchanger 106, and the water in the water storage box 102 becomes warm water.

Slow down when the temperature of warm water rises, when beginning to descend, by the processing based on the CPU112 of the detection signal of cooling-water temperature sensor 105a, control circuit portion 116 stops water-circulating pump 104.

When the detected temperature of the temperature pick up 105b of heat interchanger 106 was higher than the temperature of warm water, by the processing based on the CPU of the detection signal of temperature pick up 105b, control circuit portion 116 drove water-circulating pumps 104, and water is circulated in heat interchanger 106.

At last, when the power switch 107 of large-screen thin television machine disconnected, display module 2 stopped, and by the processing of CPU112, control circuit portion 116 makes circulation pump 100 and water-circulating pump 104 stop with the disconnection of power switch 107 linkedly.

In addition, in the regulation moment at night, control circuit portion 116 opens electromagnetic valve 109b, thereby drives geyser 108.Geyser 108 is drawn into warm water in the hot water storage tank 108a from water storage box 102.When warm water was full of in hot water storage tank 108a or becomes ormal weight, control circuit portion 116 was according to from the control signal of geyser 108 electromagnetic valve 109b being closed.Geyser 108 utilizes night electricity that the warm water in the hot water storage tank 108a is burnt heat to set point of temperature and storage.

During hot water in using hot water storage tank 108a, as shown in figure 22, hot water supply system with the hot water of the hot water storage tank 108a of geyser 108 to supplies such as bathroom 120 and kitchens 122.

In the hot water supply system of this example 11, can utilize the heat extraction of the display module 2 of the heat extraction of audio-visual equipment, especially large-screen thin television machine to obtain warm water.Because warm water is stored in the water storage box 102, therefore can effectively the warm water of set point of temperature be supplied with to the hot water storage tank 108a of geyser 108.When in the hot water storage tank 108a at geyser 108 water being burnt when hot,, therefore save electric power owing to burn heat from warm water.

In addition, in example 11, in the time of also can reaching set point of temperature, the warm water in the water storage box 102 is drawn among the hot water storage tank 108a at the warm water in the water storage box 102.In addition, also can after being full of to water storage box 102 water supply or becoming ormal weight, water be circulated in heat interchanger 106 with water-circulating pump 104.

In addition, also can make control circuit portion 116 corresponding to the temperature in the wall material, be the temperature of coolant jacket 20, come the driving of circulation pump 100 is controlled by processing based on the CPU112 of the detection signal of temperature pick up 105c.

(example 12)

Figure 25 is the schematic diagram of apparatus structure of the hot water supply system of expression example 12.

The hot water supply system of example 12 has omitted the water storage box 102 of example 11, and other structure is identical with example 11.

In addition, structure and the action effect identical with example 11 suitably omit, in other example too.

In example 12, utilize the heat extraction of the display module 2 in the wall material that for example is enclosed in this example to make water become warm water, and be stored in the hot water storage tank 108a of geyser 108.In hot water storage tank 108a, be provided with cooling-water temperature sensor 105a and level switch 105d.

In the hot water supply system of this example 12, at first, when the power switch 107 of large-screen thin television machine was connected, display module 2 drove, and the connection signal of power switch 107 inputs to CPU112 from imput output circuit portion 118.Control circuit portion 116 opens electromagnetic valve 109a linkedly by processing and the power switch 107 of CPU112, afterwards, drives circulation pump 100.By driving circulation pump 100, thermophore circulates through over-heat-exchanger from the cooling tube 54 of cooling pipe box 50 via pipe arrangement 23a, 23b.

Then, control circuit portion 116 opens electromagnetic valve 109c after having driven circulation pump 100, and water is supplied with in hot water storage tank 108a via pipe arrangement 101 and through over-heat-exchanger 106.

Then, thermophore circulates in cooling tube 54, thereby captures and the heat that cools off the display module 2 that pipe box 50 contacts, and display module 2 is cooled off.

In the occasion of the cooling deficiency of display module 2, by the processing based on the CPU of the detection signal of temperature pick up 105c, control circuit portion 116 controls to improve the flow of circulation pump 100.

Then, captured the thermophore of heat and give the water of supplying with to hot water storage tank 108a with heat in heat interchanger 106, water becomes warm water.Warm water stores in hot water storage tank 108a.

At last, when the power switch 107 of large-screen thin television machine disconnected, display module 2 stopped, and by the processing of CPU112, control circuit portion 116 closes electromagnetic valve 109b, 109c linkedly with the disconnection of power switch 107, and circulation pump 100 is stopped.

In the hot water supply system of this example 12, can utilize the heat extraction of the display module 2 of the heat extraction of audio-visual equipment, especially large-screen thin television machine to obtain warm water.When in the hot water storage tank 108a at geyser 108 water being burnt when hot,, therefore save electric power owing to burn heat from warm water.

(example 13)

Figure 26 is the schematic diagram of apparatus structure of the hot water supply system of expression example 13.

The hot water supply system of example 13 has utilized the heat extraction of the display module 2 in the wall material that for example is enclosed in this example.In example 13, the wall material is built-in with the cooling pipe box 50 of example 6.As the thermophore use is water.

The hot water supply system of example 13 comprises the control part 110 identical with example 11.Hot water supply system comprises: store from water pipe and supply with the water storage box 102 of the water that comes and the circulation pump of the water in the water storage box 102 being supplied with to the cooling tube 54 of cooling pipe box 50 via pipe arrangement 23a 100.

Get back to the top of water storage box 102 from the water that cooling tube 54 flows out via pipe arrangement 23b, and also pass through electromagnetic valve 109b via pipe arrangement 103 and supply with to the hot water storage tank 108a of geyser 108.

In water storage box 102, be provided with the level switch 105d of sensed water level.Water in the water storage box 102 is supplied with from water pipe by electromagnetic valve 109c.

Pipe arrangement 23a links to each other with cooling tube 54 by electromagnetic valve 109a.

In addition, the control part 110 of the hot water supply system of example 13 is structures identical with example 11.

In the hot water supply system of this example 13, at first, control circuit portion 116 opens electromagnetic valve 109c, thereby supplies water to water storage box 102.The water level signal of level switch 105d inputs to CPU112 from imput output circuit portion 118.Control circuit portion 116 opens and closes electromagnetic valve 109c by the processing based on the CPU112 of the detection signal of level switch 105d, so that water storage box 102 is full of or keeps ormal weight.

Then, when the power switch 107 of large-screen thin television machine was connected, display module 2 drove, and the connection signal of power switch 107 inputs to CPU112 from imput output circuit portion 118.Control circuit portion 116 opens electromagnetic valve 109a linkedly by processing and the power switch 107 of CPU112, afterwards, drives circulation pump 100.By driving circulation pump 100, water flows in the cooling tube 54 of cooling pipe box 50 via pipe arrangement 23a.

The water that flows in the cooling tube 54 obtains heat and becomes warm water from the display module 2 that generates heat, and flow out and get back to the top of water storage box 102 from cooling tube 54, and via pipe arrangement 103 and be stored into by electromagnetic valve 109b in the hot water storage tank 108a of geyser 108 via pipe arrangement 23b.

CPU112 carries out open and close controlling based on the detection signal of level switch 105d to electromagnetic valve 109b, 109c, thereby the influx and the discharge of water storage box 102 are controlled.

At last, when the power switch 107 of large-screen thin television machine disconnected, display module 2 stopped, by the processing of CPU112, control circuit portion 116 makes circulation pump 100 stop with the disconnection of power switch 107 linkedly, afterwards electromagnetic valve 109a, 109b, 109c is closed.

In the hot water supply system of this example 13, can utilize the heat extraction of the display module 2 of the heat extraction of audio-visual equipment, especially large-screen thin television machine to obtain warm water.Because the warm water that utilizes heat extraction will be stored in the hot water storage tank 108a burns heat, therefore save electric power.

(example 14)

Figure 27 is the schematic diagram of apparatus structure of the hot water supply system of expression example 14.

In the hot water supply system of example 14, water is supplied with to the cooling tube 54 of cooling pipe box 50 by electromagnetic valve 109a via pipe arrangement 23a.Supply with to the hot water storage tank 108a of geyser 108 by electromagnetic valve 109b via pipe arrangement 23b from the water that cooling tube 54 flows out.

In the hot water supply system of this example 14, at first, when the power switch 107 of large-screen thin television machine was connected, display module 2 drove, and the connection signal of power switch 107 inputs to CPU112 from imput output circuit portion 118.Control circuit portion 116 opens electromagnetic valve 109a linkedly by processing and the power switch 107 of CPU112.Because electromagnetic valve 109a opens, so water flows in the cooling tube 54 of cooling pipe box 50 via pipe arrangement 23a.The water that flows in the cooling tube 54 obtains heat and becomes warm water from the display module 2 of heating, and flows out and be stored in the hot water storage tank 108a of geyser 108 from cooling tube 54 via pipe arrangement 23b.

At last, when the power switch 107 of large-screen thin television machine disconnected, display module 2 stopped, and by the processing of CPU112, control circuit portion 116 closes electromagnetic valve 109a linkedly with the disconnection of power switch 107, and afterwards, 109c closes with electromagnetic valve.

In the hot water supply system of this example 14, can utilize the heat extraction of the display module 2 of the heat extraction of audio-visual equipment, especially large-screen thin television machine to obtain warm water.Because the warm water that utilizes heat extraction will be stored in the hot water storage tank 108a burns heat, therefore save electric power.

(example 15)

Figure 28 is a stereogram of schematically representing the wall material 1001 for building of example 15, and Figure 29 is six figure of wall material 1001 for building, and Figure 30 is the exploded perspective view of wall material 1001 for building.The wall material 1001 for building of example 15 comprises: wall foundation structure 1002, the front side foundation slab 1003 (cover plate, front side cover plate) that the front side of wall foundation structure 1002 can be covered with opening and closing, with the rear side foundation slab 1004 (cover plate, rear side cover plate) of the rear side covering of wall foundation structure 1002 and be maintained at the interior display unit 1006 of wall.In addition, the front side is meant the direction that the display surface 1061 of display unit 1006 exposes.

Figure 31 is six figure of wall foundation structure 1002.Wall foundation structure 1002 comprises: with the pair of columnar parts 1021 of long side direction almost parallel configuration; And the holding member 1022 that is crossed between the columnar part 1021, keeps towards the attitude in the place ahead display unit 1006 with display surface 1061.

Columnar part 1021 is roughly flat column, with formation such as the parts that can support large-scale display device 1006, for example iron and steel, timber.Front surface top and front surface bottom at a columnar part 1021 are formed with screwed hole 1021a, and the hinge 1005 that this screwed hole 1021a is used for connecting front side foundation slab 1003 usefulness is screwed (with reference to Figure 32).Front surface top and front surface bottom at another columnar part 1021 are embedded with magnet 1026, and this magnet 1026 is used for magnetic force front side foundation slab 1003 being fixed on columnar part 1021.

Holding member 1022 comprises that both lateral sides portion and columnar part 1021 link to each other, are crossed on the plate-shaped member 1023 between the two ends of above-below direction of columnar part 1021.Parts, for example iron and steel that plate-shaped member 1023 usefulness can support large-scale display unit 1006 form.In addition, plate-shaped member 1023 has the peristome 1023a of the rectangular shape of growing crosswise that embeds for display unit 1006 at horizontal substantial middle portion, above-below direction suitable position.Be provided with hold assembly 1024,1025 in the top of peristome 1023a part and following part, this hold assembly 1024,1025 will embed display unit 1006 among the peristome 1023a from the above-below direction clamping.In addition, hold assembly 1024,1025 is respectively from the top part of peristome 1023a and following part along fore-and-aft direction and the generally perpendicularly integrally formed tabular of plate-shaped member 1023.Have respectively in order to link display unit 1006 in the front side of hold assembly 1024,1025 and to arrange three screwed hole 1024a, 1025a that are provided with in the horizontal, be formed with opening 1024c, the 1025c (opening) that is used for display unit 1006 is carried out air cooling at the rear side of hold assembly 1024,1025.In addition, plate-shaped member 1023 has the admission pipe 1027 of square tube shape on the part relative with aftermentioned air entry 1035, and this admission pipe 1027 will be introduced the rear side of plate-shaped member 1023 from air entry 1035 inhaled airs that form at front side foundation slab 1003.

Figure 32 is a stereogram of schematically having represented to open the wall material 1001 for building of front side foundation slab 1003.Front side foundation slab 1003 is the tabular parts of essentially rectangular that cover the lengthwise of columnar part 1021 and holding member 1022 from the place ahead.Front side foundation slab 1003 for example is plank, cement board, gypsum plank or iron plate.In addition, front side foundation slab 1003 has the window portion 1031 of the rectangular shape of growing crosswise in the place ahead of the display unit 1006 that is held parts 1022 maintenances.Window portion 1031 for example forms with transparent resin.And foundation slab 1003 usefulness hinges 1005 in front side can be connected on the columnar part 1021 with opening and closing.Particularly, the sheet metal of hinge 1005 is screwed from rear side in the screwed hole portion 1034 on the side that is arranged on the back side, and another sheet metal of hinge 1005 is screwed on a columnar part 1021.In addition, for front side foundation slab 1003 being fixed on another described columnar part 1021, has magnet 1033 in the side top and the side bottom at the back side of front side foundation slab 1003 with magnetic force.Downside in the window portion 1031 of front side foundation slab 1003 has the operated from a distance signal by portion 1032, and this operated from a distance signal passes through for display unit 1006 being carried out operated from a distance signal, for example infrared rays that operated from a distance uses by portion 1032.The operated from a distance signal makes formation such as the resin, silicon of infrared transmitting by portion's 1032 usefulness.The operated from a distance signal also can be an opening by portion 1032.In addition, front side foundation slab 1003 has air entry 1035 horizontal one below distolateral.

Rear side foundation slab 1004 is the parts from the rectangular shape of the lengthwise of rear covering columnar part 1021 and holding member 1022.Rear side foundation slab 1004 for example is plank, cement board, gypsum plank or iron plate.

In addition, by the plate-shaped member 1023 that separates and rear side foundation slab 1004 and columnar part 1021 surround the space that forms constituted make air from the below of display unit 1006 vent passage 1029 (with reference to Figure 36) towards the top circulation.In addition, surround the opening that forms by the upper part of plate-shaped member 1023, rear side foundation slab 1004 and columnar part 1021 and constituted the exhaust opening 1028 that the air that has flow through vent passage 1029 is carried out exhaust.

Display unit 1006 for example is liquid crystal indicator, plasma display, OLED display etc.Especially, liquid crystal indicator comprises: the LCD MODULE of roughly cuboid that has the display surface 1061 of show image in the front side; And the circumference of coating LCD MODULE and the casing 1062 of rear side.

LCD MODULE comprises: the back of the body lamp portion of display panels, the area lights mode of display panels being thrown light on from rear side, be configured in the power circuit and the optical sheet between back of the body lamp portion and display panels of back of the body lamp portion rear side.

Casing 1062 comprises: the front housing 1063 of the circumference of coating LCD MODULE and the back cabinet 1064 that coats the rear side of LCD MODULE.The suitable position of mmi machine shell 1063 bottoms is provided with the operated from a distance signal receiving part 1065 of receiving remote operation signal.Back cabinet 1064 has and 1024,1025 plane upper surface part and lower surface portion that contact of hold assembly, transversely arrangedly in upper surface part and lower surface portion upper edge be provided with three screwed hole 1064a, this screwed hole 1064a is used for so that display surface 1061 is positioned at the form at front side foundation slab 1003 rears display unit 1006 being attached at hold assembly 1024,1025.

Figure 33 A～Figure 33 C is the schematic diagram of thin portion that is used to illustrate the air cooling structure of display unit 1006.Figure 33 A is the lateral view of wall material 1001 for building, and Figure 33 B is the rear elevation of display unit 1006, and Figure 33 C is the front view of the rear side foundation slab 1004 seen from display unit 1006 sides.Shown in Figure 33 B and Figure 33 C, be formed with air cooling hole 1064a, the 1064b of the rectangle of growing crosswise respectively in the upper and lower of back cabinet 1064 back side portions.The air that rises from the below of wall material 1001 for building flow in the air cooling hole 1064a of bottom and at the internal circulation of display unit 1006, and flows out from the air cooling hole 1064b on top, thereby display unit 1006 is carried out air cooling.

Using method to wall material 1001 for building describes below.

Figure 34 A and Figure 34 B be schematically represent display unit 1006 remained in the wall before and the stereogram of wall material 1001 for building afterwards.Figure 34 A represents is wall material 1001 for building before remaining on display unit 1006 in the wall, does not form window portion 1031 on front side foundation slab 1003.Figure 34 B represents is wall material 1001 for building after remaining on display unit 1006 in the wall.User or constructor can be by opening wall material 1001 for building front side foundation slab 1003, display unit 1006 is clamped between the hold assembly 1024,1025, is attached at display unit 1006 on the hold assembly 1024,1025 and closes front side foundation slab 1003 and display unit 1006 is remained in the wall with screw 1024b, 1025b.

Figure 35 is the schematic diagram of an example that expression comprises the building of wall material 1001 for building, and Figure 36 is the side sectional view of an example of schematically representing to comprise the building of wall material 1001 for building.Building comprises: the air interchanger of being taken a breath in the room 1081, the conduit 1084 that makes the conduit 1082 that air interchanger 1081 links to each other with the exhaust opening 1028 of wall material 1001 for building and make air interchanger 1081 and the external communications of building.

In the wall material 1001 for building and building that constitute like this, as shown in figure 36, in the occasion that has driven air interchanger 1081, air is inhaled in the vent passage 1029 via air entry 1035 and admission pipe 1027, and in the vent passage in wall 1029 from below towards above rise.Then, air circulates in the rear side of display unit 1006, thereby display unit 1006 is carried out air cooling.The air that has flow through display unit 1006 rear side is discharged from exhaust opening 1028.The air of discharging from exhaust opening 1028 is discharged to outside the room via air interchanger 1081.

Figure 37 is another routine side sectional view of schematically representing to comprise the building of wall material 1001 for building.The air interchanger 1083 that building shown in Figure 37 will have heat interchanger is arranged on the roof, with conduit 1082 wall material 1001 for building is linked to each other with air interchanger 1083.In addition, constitute the external communications that makes air interchanger 1083 and building with conduit 1085.

In the building that constitutes like this, can utilize the ventilation of the heat of the air that the air cooling because of display unit 1006 warms.For example, can use the heat that obtains by the air cooling of display unit 1006 that extraneous gas is warmed and supply with to each room.

In the wall material 1001 for building that constitutes like this, can constitute the one-piece type wall material 1001 for building of display unit 1006, and with configuration place, the overturning of audio-visual equipment, drop and heat dissipation problem solves in the lump.

In addition, can cooperate with air exchange system and effectively display unit 1006 is carried out air cooling.

In addition, because under the peristome 1023a that forms on the sheet material parts between the upper and lower end parts of columnar part 1021 has been embedded in the state of display unit 1006, holding member 1022 keeps these display unit 1006, so the load of display unit 1006 acts on ground, the Liang Dengshang of wall material for building 1001 belows.Therefore, can keep large-scale display unit 1006.

In addition, owing to come the upper surface and the soffit of clamping display unit 1006 with flat hold assembly 1024,1025, and with screw 1024b, 1025b display unit 1006 is attached on the hold assembly 1024,1025, therefore can prevent effectively display unit 1006 from holding member 1022 drop, overturning.

In addition, because holding member 1022 is tabular between the upper and lower end parts that is in columnar part 1021, its both sides link to each other with each columnar part 1021, so can prevent effectively that holding member 1022 is with display unit 1006 overturnings.

In addition because foundation slab 1003 usefulness hinges 1005 in front side can be connected on the columnar part 1021 with opening and closing, so the user can be as required and as open front side foundation slab 1003, carry out the Maintenance and Repair of display unit 1006.In addition, also replaceable display unit 1006.And, also can from behind display unit 1006 be installed in the wall material 1001 for building of mount display 1006 not.

In addition, available magnetic force fixes front side foundation slab 1003 and columnar part 1021, can constitute locking mechanism with extremely simple structure.

In addition, because display unit 1006 is attached at the place ahead that screw 1024b, 1025b on the holding member 1022 is arranged on wall material 1001 for building, thus the user in the past the front side opened of side foundation slab 1003 carry out the installation, Maintenance and Repair etc. of display unit 1006.

In addition, because the general gypsum plank of front side foundation slab 1003 and rear side foundation slab 1004 usefulness constitutes, therefore can constitute wall with low cost.

In addition, the front side foundation slab is constituted and can open and close, but also the front side foundation slab merely can be constituted and can install and remove.For example, can magnet be set in the both sides of front side foundation slab rear side, and on the front surface of two columnar parts, magnet be set.

(variation 1)

Figure 38 is a stereogram of schematically representing the wall material 1101 for building of variation 1, and Figure 39 is the stereogram of wall material 1100 for building of schematically having represented to pull down the variation 1 of display unit 1006, and Figure 40 is the side sectional view of the wall material 1101 for building of variation 1.The wall material 1101 for building of variation 1 comprises wall body 1102, and what have the longitudinal section rectangular shaped that keeps display unit 1006 on the front surface 1102a of this wall body 1102 accommodates recess 1102d.

The lower portion of accommodating recess 1102d at wall body 1102 is formed with air entry 1127, wall body 1102 has suction side vent passage 1102b, and this suction side vent passage 1102b makes from air entry 1127 inhaled airs and circulates in accommodating recess 1102d from the rear lower portion of accommodating recess 1102d.

In addition, the upper portion of accommodating recess 1102d at wall body 1102 is formed with exhaust opening 1128, wall body 1102 has exhaust side vent passage 1102c, and this suction side vent passage 1102c makes the air of accommodating in the recess 1102d circulate to exhaust opening 1128 from the top, rear of accommodating recess 1102d.

In variation 1, also can be, drop and heat dissipation problem solves in the lump with configuration place, the overturning of audio-visual equipment.

(variation 2)

Figure 41 is the stereogram of wall material 1201 for building of schematically having represented to open the variation 2 of front side foundation slab 1003, Figure 42 is six figure of the wall material 1201 for building of variation 2, and Figure 43 is an exploded perspective view of schematically representing the wall material 1201 for building of variation 2.The wall material 1201 for building of variation 2 constitutes and the existing indoor display unit 1206 that usefulness is set can be remained in the wall.

The holding member 1222 of the wall foundation of variation 2 structure 1202 comprise both lateral sides portion link to each other with columnar part 1021, at the plate-shaped member between the two ends 1223 up and down of columnar part 1021.Plate-shaped member 1223 has the peristome 1023a of the rectangular shape that embeds for display unit 1206 at horizontal substantial middle portion, above-below direction suitable position.On the top of peristome 1023a part and following part, be provided with three screwed hole 1223b, 1223c along transversely arranged respectively, hold assembly 1224,1225 from the place ahead with screw 1224f, 1225f be fixed on the top part and following partly on.

Figure 44 is a stereogram of schematically representing the hold assembly 1224 of variation 2, and Figure 45 is six figure of the hold assembly 1224 of variation 2.In addition, because rear elevation is identical with front view, therefore omitted rear elevation.Hold assembly 1224 comprises: be of a size of the sidewall paneling 1224b that grows crosswise rectangular slab 1224a and be provided with towards the below from the periphery of this rectangular slab 1224a that grows crosswise that can cover display unit 1206 tops, and be the planar disc of the shallow end that covers display unit 1206 tops.The lateral dimension of the lateral dimension of rectangular slab 1224a and peristome 1023a and the display unit 1206 of growing crosswise is roughly the same.The outside at the rectangular slab 1224a that grows crosswise has been formed generally perpendicularly the sheet 1224c that is fixed.Be fixed sheet 1224c between the transverse ends of the fore-and-aft direction substantial middle portion of the rectangular slab 1224a that grows crosswise.In addition, the sheet 1224c that is fixed is formed with three screwed hole 1224d along transversely arranged setting, and the sheet 1224c that is fixed face side in the past is screwed on plate-shaped member 1223.In addition, the rear side at the rectangular slab 1224a that grows crosswise is formed with the air vent 1224e (opening) that is used for display unit 1206 is carried out air cooling.

The structure of hold assembly 1225 is identical with the structure of hold assembly 1224, hold assembly 1225 comprises: the rectangular slab 1225a that grows crosswise, sidewall paneling 1225b, the sheet 1225c that is fixed, screwed hole 1225d and air vent 1225e (opening), and face side is screwed on plate-shaped member 1223 in the past.

In the wall material 1201 for building of variation 2, not restrictedly display unit 1206 is remained on the holding member 1222 in the wall by the shape of display unit 1206.

(variation 3)

Figure 46 is the side sectional view of building of schematically representing to comprise the wall material 1301 for building of variation 3.The front side foundation slab 1303 that constitutes the wall material 1301 for building of variation 3 has air entry 1335 below display unit 1006, and has exhaust opening 1036 above display unit 1006.

The plate-shaped member 1323 that constitutes the holding member 1322 of variation 3 has the admission pipe 1327 of square tube shape on the part relative with air entry 1335, this admission pipe 1327 will be introduced the rear side of plate-shaped member 1323 from air entry 1335 inhaled airs.In addition, plate-shaped member 1323 has stack 1328 on the part relative with exhaust opening 1036, and this stack 1328 will flow through the air of vent passage 1029 to exhaust opening 1036 guiding.

In variation 3, in the occasion that has driven display unit 1006, air is inhaled in the vent passage 1029 via air entry 1335 and admission pipe 1327.The air that is inhaled in vent passage 1029 from below towards above in the circulation of the rear side of display unit 1006, display unit 1006 is carried out air cooling.The air that has flow through display unit 1006 rear side from stack 1328 and exhaust opening 1036 once more to indoor discharge.

Therefore,, air is circulated in wall for building, can carry out air cooling display unit 1006 even in the building of air interchanger is not set.

(variation 4)

Figure 47 is the side sectional view of building of schematically representing to comprise the wall material 1401 for building of variation 4.The front side foundation slab 1403 that constitutes the wall material 1401 for building of variation 4 has air entry 1335 below display unit 1006, and has exhaust opening 1036 above display unit 1006.Rear side foundation slab 1404 has air entry 1045 on the position relative with the air entry 1335 of front side foundation slab 1403, and has exhaust opening 1046 on the position relative with the exhaust opening 1036 of front side foundation slab 1403.

The plate-shaped member 1423 that constitutes the holding member 1422 of variation 4 has the admission pipe 1427 of square tube shape on the part relative with air entry 1335, this admission pipe 1427 air entry 1335 inhaled airs of side foundation slabs 1403 is in the past introduced the rear side of plate-shaped member 1423.In addition, plate-shaped member 1423 has stack 1428 on the part relative with the exhaust opening 1036 of front side foundation slab 1403, and this stack 1428 will flow through the air of vent passage 1029 to exhaust opening 1036 guiding.

In addition, wall material 1401 for building comprises: the air-breathing transfer valve 1072 that the air entry 1335,1045 that uses in air-breathing is selected; The exhaust switchover valve 1073 that the exhaust opening 1036,1046 that uses in exhaust is selected; The front side temperature pick up 1074 that the temperature in front side foundation slab 1403 outsides (below be called the front side temperature) is detected; The rear side temperature pick up 1075 that the temperature in rear side foundation slab 1404 outsides (below be called the rear side temperature) is detected; And the control device 1071 that the action of air-breathing transfer valve 1072 and exhaust switchover valve 1073 is controlled.

Figure 48 is the block diagram of the structure of expression control device 1071.Control device 1071 comprises CPU1071a, and CPU1071a is used to carry out the relevant calculation process of control with air-breathing transfer valve 1072 and exhaust switchover valve 1073.Test section 1071d, input interface (input IF) 1071f and output interface (output IF) 1071e that on CPU1071a, are connected with the ROM1071b of the required program of action of storage CPU1071a, store the RAM1071c of usefulness temporarily, the break-make of the power supply of display unit 1006 is detected by bus 1071g.On input interface 1071f, be connected with front side temperature pick up 1074 and rear side temperature pick up 1075, on output interface 1071e, be connected with air-breathing transfer valve 1072 and exhaust switchover valve 1073.

Figure 49 is the flow chart of the processing sequence of expression CPU1071a.CPU1071a judges with test section 1071d whether the power supply of display unit 1006 is on-state (step S11).When being judged as off-state (step S11: not), the CPU1071a end process.When being judged as on-state (step S11: be), CPU1071a detects front side temperature (step S12) with front side temperature pick up 1074, and detects rear side temperature (step S13) with rear side temperature pick up 1075.

Then, whether CPU1071a is higher than the rear side temperature to the front side temperature and judges (step S14).Be judged as the front side temperature when being higher than the rear side temperature (step S14: be), making the air entry 1045 open (step S15) of rear side foundation slab 1404 with air-breathing transfer valve 1072.Then, whether CPU1071a judges (step S16) less than set point of temperature to the front side temperature.When being judged as the front side temperature less than set point of temperature (step S16: be), CPU1071a makes the exhaust opening 1036 of front side foundation slab 1043 open (step S17), end process with exhaust switchover valve 1073.Being judged as the front side temperature is that (step S16: not), CPU1071a makes the exhaust opening 1046 open (step S18) of rear side foundation slab 1404, end process to set point of temperature when above.

In step S14, be rear side temperature (step S14: not), make air entry 1335 openings (step S19) of front side foundation slab 1403 with air-breathing transfer valve 1072 when following being judged as the front side temperature.Then, whether CPU1071a judges (step S20) less than set point of temperature to the rear side temperature.When being judged as the rear side temperature less than set point of temperature (step S20: be), CPU1071a makes the exhaust opening 1046 of rear side foundation slab 1404 open (step S21), end process with exhaust switchover valve 1073.Being judged as the rear side temperature is that (step S20: not), CPU1071a makes the exhaust opening 1036 open (step S22) of front side foundation slab 1403, end process to set point of temperature when above.

In variation 4, can be chosen in air-breathing middle air entry 1335,1045 that uses and the exhaust opening 1036,1046 that in exhaust, uses according to the place ahead of wall material 1401 for building and the temperature at rear.Particularly, by air-breathing from the low room of temperature and, can carry out air cooling to display unit 1006 effectively to the high room exhaust of temperature.But, when the temperature in the room of exhaust side is higher than set point of temperature, can be air-breathing, exhaust makes room temperature can not become too high by carrying out from the low room of temperature.

In addition, in the time of can being on-state at the power supply of display unit 1006 action of air-breathing transfer valve 1072 and exhaust switchover valve 1073 is controlled, and invalid control action is stopped.

(variation 5)

Figure 50 is the side sectional view of building of schematically representing to comprise the wall material 1501 for building of variation 5.The front side foundation slab 1303 that constitutes the wall material 1501 for building of variation 5 has air entry 1335 below display unit 1006, and has exhaust opening 1036 above display unit 1006.

The plate-shaped member 1323 that constitutes the holding member 1322 of variation 5 has the admission pipe 1327 of square tube shape on the part relative with air entry 1335, this admission pipe 1327 air entry 1335 inhaled airs of side foundation slabs 1303 is in the past introduced the rear side of plate-shaped member 1323.In addition, plate-shaped member 1323 has stack 1328 on the part relative with the exhaust opening 1036 of front side foundation slab 1303, and this stack 1328 will flow through the air of vent passage 1029 to exhaust opening 1036 guiding.

In addition, on the air-breathing path of the air entry 1335 of wall material 1501 for building and admission pipe 1327, has drawing fan 1077.On the exhaust pathway of the exhaust opening 1036 of wall material 1501 for building and stack 1328, has discharge fan 1078.In addition, wall material 1501 for building comprises: temperature pick up 1076 that the temperature in the vent passage 1029 are detected and the control device 1071 that the action of drawing fan 1077 and discharge fan 1078 is controlled.

Figure 51 is the block diagram of the structure of expression control device 1071.The same with variation 4, control device 1071 comprises: by bus 1071g continuous CPU1071a, ROM1071b, RAM1071c, test section 1071d, input interface 1071f and output interface 1071e.On input interface 1071f, be connected with temperature pick up 1076, on output interface 1071e, be connected with drawing fan 1077 and discharge fan 1078.

Figure 52 is the flow chart of the processing sequence of expression CPU1071a.CPU1071a judges with test section 1071d whether the power supply of display unit 1006 is on-state (step S31).When being judged as on-state (step S31: be), CPU1071a comes detected temperatures (step S32) with temperature pick up 1076.

Then, whether CPU1071a is to judge (step S33) more than the set point of temperature to temperature pick up 1076 detected temperature.Be judged as set point of temperature when above (step S3: be), CPU1071a to be driving drawing fan 1077 (step S34) with the detected corresponding rotary speed of temperature of temperature pick up 1076, and drives discharge fan 1078 (S35), end process.

In step S31, (step S31: not) when being judged as display unit 1006 for off-state, in step S33, be judged as occasion (step 33: not) less than set point of temperature, CPU1071a makes drawing fan 1077 stop (step S36), and make discharge fan 1078 stop (step S37), end process.

In variation 5,,, can carry out air cooling to display unit 1006 because of can more effectively carrying out air-breathing, exhaust owing to be provided with drawing fan 1077 and discharge fan 1078.

In addition, the temperature in 1076 pairs of walls of temperature pick up detects, and controls the action of fan based on the testing result of temperature pick up 1076.Therefore, drawing fan 1077 and discharge fan 1078 are stopped or driving, select the rotating speed of drawing fan 1077 and discharge fan 1078 etc., can carry out air cooling to display unit 1006 effectively.

In addition, the break-make of the power supply of 1071 pairs of display unit 1006 of control device detects, power supply in display unit 1006 is the occasion of the high febrile state of on-state, drive drawing fan 1077 and discharge fan 1078, power supply in display unit 1006 is the occasion of the low febrile state of off-state, and drawing fan 1077 and discharge fan 1078 are stopped.Therefore, can make drawing fan 1077 and discharge fan 1078 break-makes according to whether needs carry out air cooling to display unit 1006.

(variation 6)

Figure 53 A～Figure 53 C is the schematic diagram of air cooling detail structure that is used to illustrate the wall material for building of variation 6.Figure 53 A is the side sectional view of wall material for building, and Figure 53 B is the rear elevation of display unit 1006, and Figure 53 C is the front view of the rear side foundation slab 1004 seen from display unit 1006 sides.Shown in Figure 53 B and Figure 53 C, on the back cabinet 1064 of display unit 1006, be formed with air cooling hole 1064a, the 1064b of the rectangle of growing crosswise respectively in the upper and lower of rear surface portion.That in addition, the dotted line shown in Figure 53 C is represented is air cooling hole 1064a, the 1064b that (the front side of paper) has display unit 1006 in its front side.In addition, on the back side of the rear side foundation slab 1004 of wall material for building, have guide member 1609, this guide member 1609 be used for in vent passage from below towards above the air of circulation guide to air cooling hole 1064a.Guide member 1609 is morphogenetic tabular with the vent passage of sealing wall material for building, on the position corresponding of holding member 1022 sides, have the recess with this display unit 1006 roughly the same shapes, be respectively arranged with ventilating part in the upper and lower of this recess with display unit 1006.

In variation 6, the air that can utilize guide member 1609 to rise from the below of vent passage guides to the rear side of display unit 1006, and can carry out air cooling to display unit 1006 effectively.

(variation 7)

Figure 54 is the schematic diagram of air cooling detail structure that is used to illustrate the wall material for building of variation 7.In addition, Figure 54 is the front view of the rear side foundation slab 1004 seen from display unit 1006 sides.On the back side of the rear side foundation slab 1004 of the wall material for building of variation 7, have guide member 1709, this guide member 1709 will be in vent passage from below towards above the air of circulation guide to air cooling hole 1064a.It is morphogenetic tabular with what each vent passage of display unit 1006 both sides was separately sealed that guide member 1709 is.

In variation 7, can utilize still less material to play the effect identical with variation 6.

(variation 8)

Figure 55 A～Figure 55 C is the schematic diagram of air cooling detail structure that is used to illustrate the wall material for building of variation 8.Figure 55 A is the side sectional view of wall material for building, and Figure 55 B is the rear elevation of display unit 1006, and Figure 55 C is the front view of the rear side foundation slab 1004 seen from display unit 1006 sides.The structure of display unit 1006 is identical with variation 6.

Rear side at the rear side foundation slab 1004 of the wall material for building of variation 8 has partition member 1891, and this partition member 1891 is separated into the air cooling hole 1064b side on top and the air cooling hole 1064a side of bottom with vent passage.Shown in Figure 55 C, partition member 1891 is flat column, the rear side of the above-below direction substantial middle portion that long side direction is become laterally be configured in display unit 1006.In addition, partition member 1891 is separated vent passage up and down between each columnar part 1021.

In variation 8, can prevent to flow into once more in the air cooling hole 1064a of bottom from the warm air that the air cooling hole 1064b on top flows out, can more effectively carry out air cooling to display unit 1006.

(variation 9)

Figure 56 A～Figure 56 C is the schematic diagram of air cooling detail structure that is used to illustrate the wall material for building of variation 9.Figure 56 A is the side sectional view of wall material for building, and Figure 56 B is the rear elevation of display unit 1006, and Figure 56 C is the front view of the rear side foundation slab 1004 seen from display unit 1006 sides.The structure of display unit 1006 is identical with variation 6.

On the back side of the rear side foundation slab 1004 of wall material for building, have guide member 1909, this guide member 1909 will be in vent passage from below towards above the air of circulation guide to air cooling hole 1064a.Guide member 1909 is morphogenetic tabular with the vent passage of sealing wall material for building, and on the position corresponding of holding member 1022 sides, have the recess with this display unit 1006 roughly the same shapes, be respectively arranged with ventilating part in the upper and lower of this recess with display unit 1006.In addition, guide member 1909 has tabular partition member 1991 integratedly, and this partition member 1991 is separated into the air cooling hole 1064b side on top and the air cooling hole 1064a side of bottom with vent passage.

In variation 9, the air that can utilize guide member 1909 to rise from the below of vent passage guides to the rear side of display unit 1006, and can carry out air cooling to display unit 1006 effectively.

In addition, can prevent to flow into once more in the air cooling hole 1064a of bottom, can more effectively carry out air cooling display unit 1006 from the warm air that the air cooling hole 1064b on top flows out.

(variation 10)

Figure 57 is the schematic diagram of air cooling detail structure that is used to illustrate the wall material for building of variation 10.In addition, Figure 57 is the front view of the rear side foundation slab 1004 seen from display unit 1006 sides.The wall material for building of variation 10 comprises in the rear side of rear side foundation slab 1004: guide member 2009, this guide member 2009 will be in vent passage from below towards above the air of circulation guide to air cooling hole 1064a; And partition member 2071, this partition member 2091 just vent passage is separated into the air cooling hole 1064b side on top and the air cooling hole 1064a side of bottom.

It is morphogenetic tabular with what each vent passage of display unit 1006 both sides was separately sealed that guide member 2009 is.In addition, guide member 2009 has tabular partition member 2091 integratedly, and this partition member 2091 is separated into the air cooling hole 1064b side on top and the air cooling hole 1064a side of bottom with vent passage.Partition member 2091 be between each guide member 2009 of both sides grow crosswise tabular, the rear side of the above-below direction substantial middle portion that long side direction is become laterally be configured in display unit 1006.

In variation 10, can utilize still less material to play the effect identical with variation 9.

(variation 11)

Figure 58 A～Figure 58 E is the schematic diagram of air cooling detail structure that is used to illustrate the wall material for building of variation 11.Figure 58 A is the side sectional view of wall material for building, Figure 58 B is the rear elevation of display unit 2106, Figure 58 C is the vertical view of display unit 2106, and Figure 58 D is the upward view of display unit 2106, and Figure 58 E is the front view of the rear side foundation slab 1004 seen from display unit 2106 sides.Display unit 2106 comprises: the front housing 1063 of the circumference of coating LCD MODULE and the back cabinet 2164 that coats the rear side of LCD MODULE.Back cabinet 2164 comprises the rear surface portion of the rectangular plate shape of growing crosswise and the upper surface part 2164d that is formed generally perpendicularly with rear surface portion, lower surface portion 2164c, side portion, forms the quadrangle plate-like.On upper surface part 2164d and lower surface portion 2164c, be formed with air cooling hole 2164a, the 2164b of the rectangle of growing crosswise.Rear surface portion contacts with 1004 of rear side foundation slabs.

In addition, on the back side of the rear side foundation slab 1004 of wall material for building, have guide member 2109, this guide member 2109 will be in vent passage from below towards above the air of circulation guide to air cooling hole 1064a.It is morphogenetic tabular with what each vent passage of display unit 2106 both sides was separately sealed that guide member 2109 is.

In variation 11, the air guided member 2109 that rises from the below of vent passage guides to the lower surface portion 2164c of display unit 2106, and flow among the air cooling hole 2164a of lower surface portion 2164c, flow through of the air cooling hole 2164b outflow of the air of display unit 2106 inside from upper surface part 2164d.Therefore, compare, can carry out air cooling to display unit 2106 effectively with the display unit that has in the air cooling hole of the rear side opening of back cabinet 2164.

(variation 12)

Figure 59 A～Figure 59 E is the schematic diagram of air cooling detail structure that is used to illustrate the wall material for building of variation 12.Figure 59 A is the side sectional view of wall material for building, Figure 59 B is the rear elevation of display unit 2106, Figure 59 C is the vertical view of display unit 2106, and Figure 59 D is the upward view of display unit 2106, and Figure 59 E is the front view of the rear side foundation slab 1004 seen from display unit 2106 sides.The structure of display unit 2106 is identical with variation 11.

On the back side of the rear side foundation slab 1004 of wall material for building, have guide member 2209, this guide member 2209 will be in vent passage from below towards above the air of circulation guide to air cooling hole 2164a.Guide member 2209 is morphogenetic tabular with the vent passage of sealing wall material for building, and on the position corresponding of holding member 1022 sides, have the recess with this display unit 2106 roughly the same shapes, be respectively arranged with ventilating part in the upper and lower of this recess with display unit 2106.

In variation 12, the same with variation 11, the air guided member 2209 that rises from the below of vent passage guides to the lower surface portion 2164c of display unit 2106, and flow among the air cooling hole 2164a of lower surface portion 2164c, flow through of the air cooling hole 2164b outflow of the air of display unit 2106 inside from upper surface part 2164d.Therefore, compare, can carry out air cooling to display unit 2106 effectively with the display unit that has in the air cooling hole of the rear side opening of back cabinet 2164.

(variation 13)

Figure 60 A～Figure 60 C is the schematic diagram of air cooling detail structure that is used to illustrate the wall material for building of variation 13.Figure 60 A is the side sectional view of wall material for building, and Figure 60 B is the rear elevation of display unit 2306, and Figure 60 C is the front view of the rear side foundation slab 1004 seen from display unit 2306 sides.

Display unit 2306 comprises the power circuit 2366 that is used to drive LCD MODULE, and the back cabinet 2364 of display unit 2306 has air cooling hole 2364a, 2364b respectively on the bottom and the top of power circuit 2366.

On the back side of the rear side foundation slab 1004 of wall material for building, have guide member 2309, this guide member 2309 will be in vent passage from below towards above near the air cooling hole 2364a guiding of the air rear side of power circuit 2366 of circulation.Guide member 2309 is morphogenetic tabular with the vent passage of sealing wall material for building, and on the position corresponding of holding member 1022 sides, have the recess with this power circuit 2366 roughly the same shapes, be respectively arranged with ventilating part in the upper and lower of this recess with power circuit 2366.

In variation 13, can concentrate air cooling to power circuit 2366 as pyrotoxin, can more effectively carry out air cooling to the display unit 2306 that remains in the wall.

(variation 14)

Figure 61 is the schematic diagram of air cooling detail structure that is used to illustrate the wall material for building of variation 14.The structure of display unit 2306 is identical with variation 13.On the back side of the rear side foundation slab 1004 of wall material for building, have guide member 2409, this guide member 2409 will be in vent passage from below towards above the air of circulation guide to air cooling hole 2364a.Shown in Figure 61, it is morphogenetic tabular with what each vent passage of display unit 2306 and power circuit 2366 both sides was separately sealed that guide member 2409 is.

In variation 14, the same with variation 13, can concentrate air cooling to power circuit 2366 as pyrotoxin, can more effectively carry out air cooling to the display unit 2306 that remains in the wall.

(variation 15)

Figure 62 A～Figure 62 C is the schematic diagram of air cooling detail structure that is used to illustrate the wall material for building of variation 15.Figure 62 A is the side sectional view of wall material for building, and Figure 62 B is the rear elevation of display unit 2306, and Figure 62 C is the front view of the rear side foundation slab 1004 seen from display unit 2306 sides.The structure of display unit 2306 is identical with variation 13.

Wall material for building has guide member 2509, this guide member 2509 will be in vent passage from below towards above the air of circulation guide to air cooling hole 2364a.Guide member 2509 is morphogenetic tabular with the vent passage of sealing wall material for building.In addition, guide member 2509 has tabular partition member 2591 integratedly, and this partition member 2591 is separated into the air cooling hole 2364b side on top and the air cooling hole 2364a side of bottom with vent passage.

In variation 15, can concentrate air cooling to power circuit 2366 as pyrotoxin, can more effectively carry out air cooling to the display unit 2306 that remains in the wall.

In addition, can prevent to flow into once more in the air cooling hole 2364a of bottom, can more effectively carry out air cooling display unit 2306 from the warm air that the air cooling hole 2364b on top flows out.

(variation 16)

Figure 63 is the schematic diagram of air cooling detail structure that is used to illustrate the wall material for building of variation 16.In addition, Figure 63 is the front view of the rear side foundation slab 1004 seen from display unit 2306 sides.The wall material for building of variation 16 has guide member 2609, this guide member 2609 will be in vent passage from below towards above the air of circulation guide to air cooling hole 2364a.It is morphogenetic tabular with what each vent passage of display unit 2306 and power circuit 2366 both sides was separately sealed that guide member 2609 is.In addition, guide member 2609 has tabular partition member 2691 integratedly, and this partition member 2691 is separated into the air cooling hole 2364b side on top and the air cooling hole 2364a side of bottom with vent passage.

In variation 16, can play the effect identical with variation 15.

(variation 17)

Figure 64 A～Figure 64 E is the schematic diagram of air cooling detail structure that is used to illustrate the wall material for building of variation 17.Figure 64 A is the side sectional view of wall material for building, Figure 64 B is the rear elevation of display unit 2706, Figure 64 C is the vertical view of display unit 2706, and Figure 64 D is the upward view of display unit 2706, and Figure 64 E is the front view of the rear side foundation slab 1004 seen from display unit 2706 sides.Shown in Figure 64 B, display unit 2706 comprises: the power circuit 2766 and the back cabinet 2764 that are used to drive LCD MODULE.Back cabinet 2764 has from the protuberance 2764e of the roughly cuboid of the side-prominent backward hollow of the part corresponding with power circuit 2766.Protuberance 2764e comprises: the rear surface portion of rectangular plate shape; And upper surface part 2764g, the lower surface portion 2764f, the side portion that form with rear surface portion approximate vertical.On upper surface part 2764g and lower surface portion 2764f, be formed with air cooling hole 2764a, the 2764b of the rectangle of growing crosswise.Rear surface portion contacts with 1004 of rear side foundation slabs.

In addition, on the back side of the rear side foundation slab 1004 of wall material for building, have guide member 2709, this guide member 2709 be used for in vent passage from below towards above the air of circulation guide to air cooling hole 2764a.It is morphogenetic tabular with what each vent passage of back cabinet 2764 and protuberance 2764e both sides was separately sealed that guide member 2709 is.

In variation 17, the air guided member 2709 that rises from the below of vent passage guides to the lower surface portion 2764f of protuberance 2764e, and flow among the air cooling hole 2164a of lower surface portion 2764f, flow through of the air cooling hole 2764b outflow of the air of display unit 2706 inside from upper surface part 2764g.Therefore, compare, can carry out air cooling, can more effectively carry out air cooling the display unit 2706 that remains in the wall to power circuit 2766 concentrated areas of display unit 2706 with the display unit that has in the air cooling hole of the rear side opening of back cabinet 2764.

In addition, can prevent to flow into once more in the air cooling hole 2764a of bottom, can more effectively carry out air cooling display unit 2706 from the warm air that the air cooling hole 2764b on top flows out.

(variation 18)

Figure 65 A～Figure 65 E is the schematic diagram of air cooling detail structure that is used to illustrate the wall material for building of variation 18.Figure 65 A is the side sectional view of wall material for building, Figure 65 B is the rear elevation of display unit 2706, Figure 65 C is the vertical view of display unit 2706, and Figure 65 D is the upward view of display unit 2706, and Figure 65 E is the front view of the rear side foundation slab 1004 seen from display unit 2706 sides.The structure of display unit 2706 is identical with variation 17.

On the back side of the rear side foundation slab 1004 of wall material for building, have guide member 2809, this guide member 2809 be used for in vent passage from below towards above the air of circulation guide to air cooling hole 2764a.Guide member 2809 is morphogenetic tabular with the vent passage of sealing wall material for building, and on the position corresponding of holding member 1022 sides, have the recess with the roughly the same shape of this protuberance 2764e, be respectively arranged with ventilating part in the upper and lower of this recess with protuberance 2764e.

In variation 18, can play the effect identical with variation 17.

(variation 19)

Figure 66 A～Figure 66 C is the schematic diagram of air cooling detail structure that is used to illustrate the wall material for building of variation 19.Figure 66 A is the side sectional view of wall material for building, and Figure 66 B is the rear elevation of display unit 2906, and Figure 66 C is the front view of the rear side foundation slab 1004 seen from display unit 2906 sides.The display unit 2906 of variation 19 does not have casing in the rear surface side, but has the heat sink (thermal component) 2966 that exposes, makes the heat of device generation to discharge in rear side foundation slab 1004 sides in the rear surface side.Heat sink 2966 is the roughly the same rectangular shape of size in length and breadth of size and display unit.

In variation 19, owing to do not comprise back cabinet, heat sink 2966 exposes in rear side foundation slab 1004 sides, so the air that display unit 2906 is circulated in vent passage directly carries out air cooling.Therefore, can more effectively carry out air cooling to display unit 2906.

(variation 20)

Figure 67 A～Figure 67 C is the schematic diagram of air cooling detail structure that is used to illustrate the wall material for building of variation 20.Figure 67 A is the side sectional view of wall material for building, and Figure 67 B is the rear elevation of display unit 2906, and Figure 67 C is the front view of the rear side foundation slab 1004 seen from display unit 2906 sides.The structure of display unit 2906 is identical with variation 19.

On the back side of the rear side foundation slab 1004 of wall material for building, have guide member 3009, this guide member 3009 be used for in vent passage from below towards above the air of circulation to heat sink 2966 guiding.Guide member 3009 is morphogenetic tabular with the vent passage of sealing wall material for building, and on the position corresponding of holding member side, have the recess with heat sink 2966 roughly the same shapes, be respectively arranged with ventilating part in the upper and lower of this recess with heat sink 2966.

In variation 20, the air that can utilize guide member 3009 to rise from the below of vent passage guides to the rear side of heat sink 2966, effectively display unit 2906 is carried out air cooling.

(variation 21)

Figure 68 A～Figure 68 C is the schematic diagram of air cooling detail structure that is used to illustrate the wall material for building of variation 21.Figure 68 A is the side sectional view of wall material for building, and Figure 68 B is the rear elevation of display unit 3106, and Figure 68 C is the front view of the rear side foundation slab 1004 seen from display unit 3106 sides.The display unit 3106 of variation 21 does not have casing in the rear surface side, but comprises in the rear surface side: the power circuit 3167 that is used to drive LCD MODULE; And contact this power circuit 3167, expose and the heat sink 3166 (thermal component) of release heat in rear side foundation slab 1004 sides.Heat sink 3166 is the roughly the same rectangular shape of size in length and breadth of size and power circuit 3167.

In addition, on the back side of the rear side foundation slab 1004 of wall material for building, have guide member 3109, this guide member 3109 be used for in vent passage from below towards above the air of circulation to heat sink 3166 guiding.Guide member 3109 is morphogenetic tabular with the vent passage of sealing wall material for building, and on the position corresponding of holding member side, have the recess with heat sink 3166 roughly the same shapes, be respectively arranged with ventilating part in the upper and lower of this recess with heat sink 3166.

In variation 21, owing to do not comprise back cabinet, heat sink 3166 exposes in rear side foundation slab 1004 sides, so the air that the power circuit 3167 of display unit 3106 is circulated in vent passage directly carries out air cooling.Therefore, can more effectively carry out air cooling to display unit 3106.In addition, the air that can utilize guide member 3109 to rise from the below of vent passage guides to the rear side of heat sink 3166, effectively display unit 3106 is carried out air cooling.

(variation 22)

Figure 69 A～Figure 69 C is the schematic diagram of water-cooled detail structure that is used to illustrate the wall material for building of variation 22.Figure 69 A is the side sectional view of wall material for building, and Figure 69 B is the rear elevation of display unit 2906, and Figure 69 C is the front view of the rear side foundation slab 1004 seen from display unit 2906 sides.The structure of display unit 2906 is identical with variation 19.On the back side of wall material for building, has the water cooling tube 1091 that display unit 2906 is carried out water-cooled.Water cooling tube 1091 contacts with heat sink 2966, is configured to be accommodated within the size in length and breadth of heat sink 2966.

In variation 22, can carry out water-cooled to display unit 2906 effectively.

(variation 23)

Figure 70 A～Figure 70 C is the schematic diagram of water-cooled detail structure that is used to illustrate the wall material for building of variation 23.Figure 70 A is the side sectional view of wall material for building, and Figure 70 B is the rear elevation of display unit 2906, and Figure 70 C is the front view of the rear side foundation slab 1004 seen from display unit 2906 sides.The structure of display unit 2906 is identical with variation 19.On the back side of wall material for building, has the water cooling tube 1092 that display unit 2906 is carried out water-cooled.Water cooling tube 1092 contacts with heat sink 2966, is configured to launch in the regional big scope than heat sink 2966.

In variation 23, can more effectively carry out water-cooled to display unit 2906.

(variation 24)

Figure 71 A～Figure 71 C is the schematic diagram of water-cooled detail structure that is used to illustrate the wall material for building of variation 24.Figure 71 A is the side sectional view of wall material for building, and Figure 71 B is the rear elevation of display unit 3106, and Figure 71 C is the front view of the rear side foundation slab 1004 seen from display unit 3106 sides.The structure of display unit 3106 is identical with variation 19.On the back side of wall material for building, has the water cooling tube 1093 that display unit 3106 is carried out water-cooled.Water cooling tube 1093 contacts with heat sink 3166, is configured to be accommodated within the size in length and breadth of heat sink 3166.

In variation 24,, can more effectively cool off display unit 3106 by power circuit 3167 parts are carried out water-cooled.

Claims (56)

1. a wall material is characterized in that, comprising:

The wall body, this wall body remains on inside with audio-visual equipment; And

Cooling end, this cooling end is arranged on the inside of described wall body, contacts with described audio-visual equipment, and has the stream that circulates for thermophore.

2. a wall material is characterized in that, comprising:

Front wall portion, this front wall portion are provided with the window portion that display part is used or operating portion is used of audio-visual equipment;

Maintaining part, this maintaining part can keep audio-visual equipment;

Cooling end, this cooling end contacts with described audio-visual equipment, and has the stream for the thermophore circulation; And

Rear wall parts, this rear wall parts and described front wall portion relatively are provided with,

Described front wall portion and rear wall parts are accommodated described maintaining part and cooling end.

3. wall material as claimed in claim 1 or 2 is characterized in that, described cooling end contacts with part or all of described audio-visual equipment.

4. wall material as claimed in claim 2 is characterized in that described audio-visual equipment has display module, and this display module is kept by described maintaining part, and described cooling end contacts with part or all of described display module.

5. wall material as claimed in claim 4 is characterized in that, described cooling end contacts with the heating part of described display module.

6. wall material as claimed in claim 4 is characterized in that,

Described display module is on a face and has the rectangular-shaped of display screen,

Described cooling end is hollow form, and has recess, and this recess can be chimeric with another face of the opposite side of described display module.

7. wall material as claimed in claim 2 is characterized in that, described cooling end is relative with described front wall portion, and has the size roughly the same with described front wall portion.

8. wall material as claimed in claim 1 or 2, it is characterized in that, described cooling end is hollow form, and comprises: it is lost to be arranged on the ostium of the described thermophore on the sidepiece of described cooling end and tap hole and the circulation from described ostium to described tap hole.

9. wall material as claimed in claim 8 is characterized in that, described cooling end has narrow width part midway from described ostium to described tap hole.

10. wall material as claimed in claim 1 or 2, it is characterized in that, described cooling end is hollow form, and comprises: be arranged on the ostium of the described thermophore on the sidepiece of described cooling end and be arranged on tap hole on the other side relative with a sidepiece of described cooling end.

11. wall material as claimed in claim 10 is characterized in that, described cooling end has narrow width part midway from described ostium to described tap hole.

12. wall material as claimed in claim 1 or 2 is characterized in that described cooling end is the tubulose that crawls.

13. wall material as claimed in claim 1 or 2 is characterized in that, described cooling end comprises: endothermic section and the coil that contacts described endothermic section and supply described thermophore to circulate, described endothermic section contacts with described audio-visual equipment.

14. wall material as claimed in claim 2 is characterized in that,

Described window portion rectangular shaped,

Described maintaining part is provided with a plurality of, overlooks rectangular shaped, and comprises: the slotted hole that on long side direction, wears and can be along this slotted hole freely fitted BULKHEAD UNION,

Described maintaining part relatively is provided with along a lateral margin and another lateral margin of described window portion,

On described BULKHEAD UNION, be connected with the pipe arrangement that makes thermophore flow into, flow out described cooling end.

15. wall material as claimed in claim 2 is characterized in that described cooling end is fixed on the described rear wall parts.

16. wall material as claimed in claim 1 or 2 is characterized in that, described thermophore is water or freon substitute.

17. wall material as claimed in claim 1 or 2 is characterized in that, described cooling end comprises: for the ostium of described thermophore inflow and the tap hole that flows out for described thermophore,

Described wall material also comprises: the pipe arrangement that links to each other with tap hole with described ostium and via described pipe arrangement

Send the circulation pump of described thermophore to described cooling end.

18. wall material as claimed in claim 17 is characterized in that,

Described audio-visual equipment has power switch,

The starting switch of described circulation pump and described power switch interlock.

19. wall material as claimed in claim 17 is characterized in that described cooling end is provided with temperature pick up, controls the connection of the starting switch of described circulation pump based on the detection signal of described temperature pick up.

20. wall material as claimed in claim 17 is characterized in that described cooling end is provided with temperature pick up, controls the discharge rate of described circulation pump based on the detection signal of described temperature pick up.

21. wall material as claimed in claim 17 is characterized in that,

Described thermophore is a water,

Described wall material also comprises water storage box,

Water conservancy in the described water storage box is supplied with to described cooling end with described circulation pump.

22. a hot water supply system is characterized in that, comprising:

Claim 1 or 2 described wall materials and

To supplying with the geyser that next water heats.

23. hot water supply system as claimed in claim 22 is characterized in that, the described thermophore that circulates in described cooling end is a water, and this water is supplied with to described geyser.

24. hot water supply system as claimed in claim 22 is characterized in that,

Also comprise heat interchanger,

In described heat interchanger, water and described thermophore carry out interchange of heat, and heated described water is supplied with to described geyser in described heat interchanger.

25. hot water supply system as claimed in claim 22 is characterized in that,

Also comprise water storage box,

Water in the described water storage box circulates in described cooling end as described thermophore, and this water is supplied with to described geyser.

26. hot water supply system as claimed in claim 22 is characterized in that, also comprises:

Water storage box and

Make the heat interchanger that carries out interchange of heat from the water and the described thermophore of described water storage box supply,

Heated described water circulates in described water storage box and heat interchanger in described heat interchanger.

27. a building is characterized in that, comprises the wall that has utilized claim 1 or 2 described wall materials.

28. a building is characterized in that, comprises the described hot water supply system of claim 22.

29. a wall material is characterized in that, comprising:

The wall body, this wall body remains on inside with audio-visual equipment;

Vent passage, this vent passage forms in the inside of described wall body, is communicated with the intrinsic audio-visual equipment of described wall; And

Opening, this opening is communicated with described vent passage.

30. a wall material is characterized in that, comprising:

At least two columnar parts;

Holding member, this holding member is crossed between the described columnar part, is used to keep audio-visual equipment;

Cover plate, this cover plate will cover between the described columnar part;

Vent passage, this vent passage forms by described holding member and described cover plate are separated, and perhaps forms on described holding member; And

Opening, this opening is communicated with described vent passage.

31. wall material as claimed in claim 30 is characterized in that described opening is formed on the described cover plate.

32. a wall material is characterized in that, comprising:

At least two columnar parts;

Holding member, this holding member is crossed between the described columnar part, is used to keep audio-visual equipment;

The front side cover plate, this front side cover plate will cover between the described columnar part from the place ahead of described audio-visual equipment;

The rear side cover plate, this rear side cover plate will cover between the described columnar part from the rear of described audio-visual equipment;

Vent passage, this vent passage forms by described holding member and described rear side cover plate are separated, and perhaps forms on described holding member; And

Opening, this opening is communicated with described vent passage,

Described front side cover plate has window portion, and this window portion exposes the audio-visual equipment that is kept by described holding member.

33. wall material as claimed in claim 32 is characterized in that, described holding member comprises:

Both lateral sides portion and described columnar part link to each other, are crossed on the plate-shaped member between the both ends up and down of described columnar part;

On described plate-shaped member, form, supply the peristome of the rectangular shape of audio-visual equipment embedding; And

Top part and the following part that is arranged on described peristome go up, from the hold assembly of above-below direction clamping audio-visual equipment.

34. wall material as claimed in claim 33 is characterized in that, described hold assembly has opening in described rear side cover plate side, and this opening is used to make air to circulate from the below towards the top or in the horizontal.

35., it is characterized in that described opening is formed on described front side cover plate or the described rear side cover plate as each described wall material in the claim 32 to 34.

36. as each described wall material in the claim 29 to 34, it is characterized in that,

Be provided with a plurality of described openings,

Described wall material also comprises valve, and this valve is used for being chosen in the opening that ventilation is used.

37. wall material as claimed in claim 36 is characterized in that, also comprises:

Temperature pick up, this temperature pick up detects the outer temperature of wall; And

Controller, this controller are controlled the selection action of described valve based on the testing result of described temperature pick up.

38. wall material as claimed in claim 36 is characterized in that, also comprises:

Test section, this test section detects the break-make of the power supply of audio-visual equipment; And

Controller, this controller are controlled the action of described valve based on the testing result of described test section.

39. as each described wall material in the claim 29 to 34, it is characterized in that, also comprise the fan that is arranged on described opening.

40. wall material as claimed in claim 39 is characterized in that, also comprises:

The temperature pick up that temperature in the wall is detected; And

Control the controller of the action of described fan according to the testing result of described temperature pick up.

41. wall material as claimed in claim 39 is characterized in that, also comprises:

Test section, this test section detects the break-make of the power supply of audio-visual equipment; And

Controller, this controller drive described fan when the power supply of audio-visual equipment is in on-state, and described fan is stopped.

42. wall material as claimed in claim 30 is characterized in that, described cover plate comprises at least a in plank, cement board, gypsum plank or the iron plate.

43., it is characterized in that described front side cover plate and rear side cover plate comprise at least a in plank, cement board, gypsum plank or the iron plate as each described wall material in the claim 32 to 34.

44. as each described wall material in the claim 29 to 31, it is characterized in that, also comprise the audio-visual equipment that is kept by described holding member.

45. as each described wall material in the claim 32 to 34, it is characterized in that, also comprise the audio-visual equipment that is kept by described holding member.

46. wall material as claimed in claim 44 is characterized in that,

Described audio-visual equipment has the casing that covers rear side,

Upper and lower at described casing comprises the air cooling hole respectively.

47. wall material as claimed in claim 44 is characterized in that,

Described audio-visual equipment has the casing that covers rear side at least,

Upper and lower at described casing comprises the air cooling hole respectively,

Described wall material also comprises guide member, and the air that this guide member will circulate in described vent passage guides to described air cooling hole.

48. wall material as claimed in claim 44 is characterized in that,

Described audio-visual equipment has the casing that covers rear side at least,

Upper and lower at described casing comprises the air cooling hole respectively,

Described wall material also comprises partition member, and this partition member is separated into the air cooling hole side on top and the air cooling hole side of bottom with described vent passage.

49. wall material as claimed in claim 44 is characterized in that,

Described audio-visual equipment has casing, and this casing has rear surface portion, upper surface part and lower surface portion,

Upper surface part and lower surface portion at described casing comprise the air cooling hole respectively.

50. wall material as claimed in claim 44 is characterized in that,

Described audio-visual equipment comprises: cover the casing of rear side and the circuit that is covered by described casing,

Described casing comprises the air cooling hole respectively in the upper and lower of described circuit.

51. wall material as claimed in claim 44 is characterized in that,

Described audio-visual equipment comprises: cover the casing of rear side and the circuit part that is covered by described casing,

Described casing comprises from the side-prominent backward protuberance of the part corresponding with described circuit part,

Upper surface part and lower surface portion at described protuberance comprise the air cooling hole respectively.

52. wall material as claimed in claim 45 is characterized in that described audio-visual equipment has thermal component, this thermal component exposes in described rear side cover plate side, and the heat that described audio-visual equipment is produced discharges.

53. wall material as claimed in claim 52 is characterized in that, also comprises guide member, the air that this guide member will circulate in described vent passage guides to described thermal component.

54. a building is characterized in that, comprises each described wall material in the claim 29 to 34.

55. building as claimed in claim 54 is characterized in that, also comprises:

The air interchanger of being taken a breath in the room and

The conduit that described air interchanger is linked to each other with the opening of wall material.

56. building as claimed in claim 55 is characterized in that, described air interchanger has the conduit with the external communications of building.

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