CN215802416U - Energy-saving heat-insulating wall - Google Patents

Abstract

The application relates to the technical field of green buildings, in particular to an energy-saving heat-insulating wall body which comprises an external wall panel, a solar panel, a heat-insulating plate, a heating plate, an internal wall panel and two sets of driving devices. Be equipped with the cavity that holds hot plate and heat insulating board on the side fascia, solar panel bonds on the side fascia and is used for absorbing solar radiation energy with outdoor intercommunication, solar panel turns into the electric energy of heating hot plate with solar radiation energy, the heat insulating board setting is used for hindering the hot plate heat to outdoor transmission in holding the cavity, the hot plate setting is holding in the cavity and sliding connection in the upper end wall and the lower end wall that hold the cavity, reciprocating motion realizes the control to indoor transmission heat speed in holding the cavity under drive arrangement's drive hot plate, and then the realization is to the regulation of indoor temperature. The application reduces the use frequency of the air conditioner, reduces the economic expenditure, effectively reduces the consumption of electric energy resources, improves the indoor temperature and improves the comfort level of residents.

Description

Energy-saving heat-insulating wall

Technical Field

The application relates to the technical field of green buildings, in particular to an energy-saving heat-insulating wall body.

Background

The heat preservation wall isolates indoor air from outdoor air, reduces indoor and outdoor airflow exchange, and is used for maintaining indoor temperature to be stable.

At present, the heat preservation wall body is directly installed on an outdoor external wall panel or an indoor internal wall body, when the outdoor temperature is high, the indoor temperature is low, and when the indoor temperature is higher, an air conditioner needs to be arranged to increase the indoor temperature, so that the resource waste is caused.

SUMMERY OF THE UTILITY MODEL

In order to effectively save resources, improve indoor temperature and improve the comfort level of residents,

the application provides an energy-conserving thermal insulation wall adopts following technical scheme:

the utility model provides an energy-conserving thermal insulation wall, is in including side fascia, setting the side fascia is towards the solar panel, the setting of outdoor one side deviate from on the side fascia the heat insulating board of solar panel one side, relatively the hot plate that the heat insulating board removed, set up and be in the hot plate is relative towards the interior wallboard of indoor one side and drive hot plate the drive arrangement that the heat insulating board removed, seted up on the side fascia and held the cavity, the hot plate sets up it is just relative to hold in the cavity the reciprocal linear motion of side fascia, interior wallboard seals hold the cavity.

Through adopting above-mentioned technical scheme, when outdoor temperature is higher, indoor for obtaining higher temperature, solar panel is used for absorbing solar radiation energy, turn into the electric energy with solar radiation energy, the realization is to the heating of hot plate, the hot plate is stored the heat in holding the cavity, the heat insulating board has reduced the heat of hot plate to outdoor transmission, the reciprocating motion of hot plate in holding the cavity under drive arrangement's drive, reciprocating motion through the hot plate realizes the control to indoor heat transfer speed, and then the realization is to the regulation of indoor temperature. By absorbing solar radiation energy, the indoor temperature is improved, the using amount of an air conditioner is reduced, economic expenditure is saved, and resource waste is reduced.

Optionally, the heating plate includes a frame body, a polyurethane plate disposed in the frame body, a steel mesh sheet clamping the polyurethane plate, and a cover plate closing the steel mesh sheet, and the cover plate is fixed to the frame body.

Through adopting above-mentioned technical scheme, the frame plays the supporting role to the wallboard, and polyurethane plate possesses characteristics such as dampproofing and waterproofing and thermal insulation performance is good, and polyurethane plate sets up in the frame, and the reinforcing bar net piece is fixed at the frame through reinforcing bar net piece in both sides, and reinforcing bar net piece plays support and guard action to polyurethane plate.

Optionally, the reinforcing mesh is provided with a plurality of transverse reinforcing bars and longitudinal reinforcing bars, the transverse reinforcing bars and the longitudinal reinforcing bars are arranged at certain intervals and are perpendicular to each other, and the intersection points of the transverse reinforcing bars and the longitudinal reinforcing bars are fixedly connected.

Through adopting above-mentioned technical scheme, form a network structure through crisscross fixed connection of horizontal reinforcing bar and vertical reinforcing bar, improved the bearing capacity of hot plate, prolong the life of hot plate.

Optionally, the upper end and the lower extreme of hot plate and side fascia contact all are equipped with the gyro wheel, the gyro wheel inlays to be established just relatively in the hot plate the side fascia is along the perpendicular to side fascia direction slides.

Through adopting above-mentioned technical scheme, the gyro wheel inlays to be established in the hot plate, has reduced the gliding frictional resistance of hot plate along the perpendicular to side fascia direction.

Optionally, the interior wallboard is including fixing installing frame, sliding connection on the side fascia first wallboard and the second wallboard of installing frame, first wallboard with the second wallboard seals hold the cavity, first wallboard is relative the second wallboard slides.

Through adopting above-mentioned technical scheme, the installing frame has improved interior wallboard's support intensity, and first wallboard sliding connection is convenient for observe and maintain the hot plate that holds in the cavity in the installing frame, simultaneously, when indoor when wanting to obtain higher temperature, also can promote first wallboard and make the heat in the hot plate fast to indoor transmission.

Optionally, the upper end and the lower end of the mounting frame are respectively provided with a slide rail, two parallel slide grooves are arranged in the slide rails, and the first wallboard and the second wallboard are respectively connected in the slide grooves in a sliding manner.

Through adopting above-mentioned technical scheme, first wallboard and second wallboard all slide along respective spout, when indoor needs obtain higher temperature fast, first wallboard or second wallboard slide, make hot plate and indoor intercommunication, through the sliding distance of adjusting first wallboard or second wallboard, adjust the thermal transmission speed of hot plate, do not need to obtain higher temperature fast indoor, first wallboard and second wallboard seal and hold the cavity, the hot plate is through interior wallboard to indoor transmission heat.

Optionally, an argon layer is arranged in the first wall plate and the second wall plate.

Through adopting above-mentioned technical scheme, be equipped with the argon gas layer in first wallboard and the second wallboard, the hot plate is less to the heat transmission of indoor outer environment for interior wallboard promotes indoor heat preservation effect, and the argon gas is inert gas simultaneously, and it is effectual to give sound insulation.

Optionally, the driving device comprises a sliding block fixed on the heating plate, a connecting rod hinged to the sliding block, a rotating rod hinged to the connecting rod, a base hinged to the rotating rod and a driving piece for driving the rotating rod to rotate around the base in the whole circumference, and the base is fixed on the external wall panel.

Through adopting above-mentioned technical scheme, realize the reciprocating motion of the relative side fascia of hot plate through slider-crank mechanism, simple structure, because slider-crank mechanism's motion is the face contact, pressure is little, can bear great load, and simultaneously, the geometry mechanism of motion pair is simple, the manufacturing of being convenient for.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the solar energy is utilized to store heat in the solar panel, the solar panel converts the heat into electric energy for heating the heating plate, the reciprocating movement of the heating plate is utilized to adjust the speed of heat transfer to the indoor space, the electric energy consumed by using an air conditioner is reduced, the resources are saved, and meanwhile, the economic expenditure of residents is also reduced;

2. interior wallboard is equipped with the argon gas layer, and setting up of argon gas layer has reduced outdoor and indoor thermal transmission for the heat preservation effect and the syllable-dividing effect of interior wallboard obtain promoting, improve the comfort level of resident's house.

Drawings

FIG. 1 is a schematic isometric view of an embodiment.

Fig. 2 is an exploded schematic view of the embodiment.

Fig. 3 is a sectional view of the embodiment.

Fig. 4 is an exploded view of the heating plate.

Fig. 5 is a schematic structural view of the interior wall panel.

Description of reference numerals: 1. an external wall panel; 101. an accommodating cavity; 102. a guide groove; 2. a solar panel; 3. a heat insulation plate; 4. heating plates; 401. a frame body; 402. a polyurethane board; 403. reinforcing mesh sheets; 404. a cover plate; 405. transverse reinforcing steel bars; 406. longitudinal reinforcing steel bars; 407. a roller; 408. a groove; 409. a rotating shaft; 410. a screw; 5. an inner wall panel; 501. installing a frame; 502. a first wall panel; 503. a second wall panel; 504. a slide rail; 505. a chute; 506. an elastic rubber strip; 507. a handle slot; 508. a square tube; 6. a drive device; 601. a slider; 602. a connecting rod; 603. a rotating rod; 604. a machine base; 605. an electric motor.

Detailed Description

The present application is described in further detail below with reference to figures 1-5.

The embodiment of the application discloses an energy-saving heat-insulating wall body,

referring to fig. 1 and 2, the energy-saving thermal insulation wall comprises an external wall panel 1, a solar panel 2, a thermal insulation board 3, a heating plate 4, an internal wall panel 5 and two sets of driving devices 6.

Be equipped with the cavity 101 that holds hot plate 4 and heat insulating board 3 on the side fascia 1, solar panel 2 bonds on side fascia 1 and is used for absorbing solar radiation energy with outdoor intercommunication, solar panel 2 turns into the electric energy of heating hot plate 4 with solar radiation energy, heat insulating board 3 sets up and just fixes in holding cavity 101 on the side fascia 1 that deviates from solar panel 2 one side, the heat insulating board is used for hindering hot plate heat to outdoor transmission, hot plate 4 sets up and is holding cavity 101 in and sliding connection in the upper end wall and the lower end wall that hold cavity 101, under drive arrangement 6's drive, hot plate 4 is holding cavity 101 in along being close to solar panel 2 and keeping away from the regulation that solar panel 2 removed the transfer speed that realizes heat.

Referring to fig. 3 and 4, the heating plate 4 includes a frame 401, a polyurethane plate 402, two reinforcing mesh sheets 403, and two cover plates 404.

The polyurethane plate 402 has a stable porosity structure, good heat insulation performance, good freeze-thaw resistance and sound absorption, the polyurethane plate 402 is embedded in the frame body 401, two sides of the polyurethane plate 402 are respectively supported and fixed by two reinforcing steel mesh sheets 403, the outer sides of the reinforcing steel mesh sheets 403 are compressed by the cover plate 404, the cover plate 404 is provided with screws 410, and the cover plate 404 is fixed on the frame body 401 through the screws 410.

The reinforcing mesh 403 comprises a plurality of transverse reinforcing bars 405 and a plurality of longitudinal reinforcing bars 406, the transverse reinforcing bars 405 and the longitudinal reinforcing bars 406 are arranged vertically and at intervals, the cross points of the transverse reinforcing bars 405 and the longitudinal reinforcing bars 406 are fixed by welding, and the transverse reinforcing bars 405 and the longitudinal reinforcing bars 406 form a mesh structure, so that the supporting strength of the frame body 401 is improved, and meanwhile, the reinforcing mesh 403 is arranged on two sides of the polyurethane plate 402, so that the polyurethane plate 402 is supported and protected.

Four idler wheels 407 are arranged on the frame body 401, the four idler wheels 407 are uniformly distributed at the upper end and the lower end of the frame body 401, a groove 408 for embedding the idler wheels 407 is formed in the frame body 401, a rotating shaft 409 is arranged in the groove 408, the idler wheels 407 are sleeved on the rotating shaft 409 and embedded in the groove 408, and the idler wheels 407 are slidably connected to the external wall panel 1. The upper and lower ends of the external wall panel 1 are respectively provided with two rectangular guide grooves 102 along the direction perpendicular to the heating plate 4, and the rollers 407 are slidably connected in the guide grooves 102.

The driving device 6 includes a slide 601, a connecting rod 602, a rotating rod 603, a base 604 and a driving member for driving the rotating rod 603 to rotate. The slide block 601 is fixed on the heating plate 4, and the driving device 6 is used for driving the slide block 601 to drive the heating plate 4 to reciprocate along the guide groove 102.

The base 604 is fixed at the lower end of the external wall panel 1 by welding, one end of the rotating rod 603 is hinged with the base 604, the other end of the rotating rod 603 is hinged with the connecting rod 602, the other end of the connecting rod 602 is hinged with the sliding block 601, the driving part is a motor 605, the motor 605 is fixed on the base 604 and is used for driving the rotating rod 603 to rotate in the whole circle relative to the base 604, and the rotating rod 603 rotates to drive the sliding block 601 to drive the heating plate 4 to reciprocate along the guide groove 102.

The inner wall panel 5 includes a mounting frame 501, a first wall panel 502 and a second wall panel 503. The inner wall panel 5 is used to enclose the receiving cavity 101. The mounting frame 501 is welded and fixed on the external wall panel 1.

Referring to fig. 3 and 5, the mounting frame 501 is formed by welding four square tubes 508, the upper end and the lower end of the mounting frame 501 are respectively provided with a sliding rail 504, two parallel sliding grooves 505 are arranged in the sliding rail 504, and the first wall plate 502 and the second wall plate 503 are respectively embedded in the two parallel sliding grooves 505 and are slidably connected in the sliding grooves 505. The width of the first wall plate 502 is the same as that of the second wall plate 503 and is equal to half of the width of the frame 401, and the first wall plate 502 and the second wall plate 503 slide to abut against the edge of the frame 401 in opposite directions to form a closed accommodating cavity 101.

For cavity setting formation cavity, pack the argon gas layer in the cavity, setting up of argon gas layer has reduced indoor and outdoor heat transmission, promotes the heat preservation effect indoor, and simultaneously, sound is slower than the solid propagation velocity at gaseous propagation velocity, lets in the argon gas and has improved interior wallboard 5's syllable-dividing effect in first wallboard 502 and the second wallboard 503. The elastic rubber strips 506 are bonded on the two sides of the frame body 401, which are in contact with the first wallboard 502 and the second wallboard 503, so that the noise generated when the first wallboard 502 and the second wallboard 503 are in contact with the frame body 401 is reduced, meanwhile, the sealing performance of the first wallboard 502 and the second wallboard 503, which are connected with the frame body 401, is improved, and the indoor heat insulation effect is improved. In order to move the first wall plate 502 and the second wall plate 503 along the sliding groove 505, a concave handle groove 507 is formed on one side of the first wall plate 502 and the second wall plate 503 close to the frame 401.

The application principle of the energy-saving heat-insulating wall body is as follows: when the outdoor temperature is high and the indoor temperature is low, the indoor temperature is higher,

firstly, moving the first wall plate 502 or the second wall plate 503 towards the center of the frame 401 along the direction of the sliding groove 505, starting the driving motor 605 to drive the heating plate 4 to move towards the heat insulation plate 3 along the guide groove 102, and converting the heat absorbed by the solar panel 2 into electric energy for heating the heating plate 4;

secondly, heat in the heating plate 4 is stored in the accommodating cavity, the heating plate 4 is driven to move towards the inner wall plate 5, and the heat in the heating plate 4 is rapidly transferred to the indoor space;

and thirdly, when the indoor temperature is proper, driving the heating plate 4 to move towards the heat insulation plate 3 along the guide groove 102, reducing the transmission of heat from the heating plate 4 to the indoor, and enabling the inner wall plate 5 to seal the outer wall plate 1 by moving the first wall plate 502 and the second wall plate 503 to maintain the indoor temperature to be constant.

The embodiments of the present invention are preferred embodiments of the present application, and the scope of protection of the present application is not limited by the embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. An energy-saving heat-insulating wall body is characterized in that: including side fascia (1), setting be in side fascia (1) is towards solar panel (2), the setting of outdoor one side deviate from on side fascia (1) heat insulating board (3), relative of solar panel (2) one side heat insulating board (4), the setting that heat insulating board (3) removed are in interior wallboard (5) and drive hot plate (4) of hot plate (4) towards indoor one side are relative drive arrangement (6) that heat insulating board (3) removed, seted up on side fascia (1) and held cavity (101), hot plate (4) set up hold in cavity (101) and relative side fascia (1) reciprocal linear motion, interior wallboard (5) seal hold cavity (101).

2. The energy-saving heat-insulating wall body of claim 1, characterized in that: the heating plate (4) comprises a frame body (401), a polyurethane plate (402) arranged in the frame body (401), a reinforcing steel mesh (403) clamping the polyurethane plate (402) and a cover plate (404) closing the reinforcing steel mesh (403), wherein the cover plate (404) is fixed on the frame body (401).

3. The energy-saving heat-insulating wall body of claim 2, characterized in that: the reinforcing mesh (403) is provided with a plurality of transverse reinforcing steel bars (405) and longitudinal reinforcing steel bars (406), the transverse reinforcing steel bars (405) and the longitudinal reinforcing steel bars (406) are arranged at certain intervals and are perpendicular to each other, and the cross points of the transverse reinforcing steel bars (405) and the longitudinal reinforcing steel bars (406) are fixedly connected.

4. The energy-saving heat-insulating wall body of claim 1, characterized in that: the upper end and the lower extreme of hot plate (4) and side fascia (1) contact all are equipped with gyro wheel (407), gyro wheel (407) inlay and are established just relative in hot plate (4) side fascia (1) is along the perpendicular to side fascia (1) direction slides.

5. The energy-saving heat-insulating wall body of claim 1, characterized in that: interior wallboard (5) including fix installing frame (501), sliding connection in on the side fascia (1) first wallboard (502) and second wallboard (503) of installing frame (501), first wallboard (502) and second wallboard (503) seal hold cavity (101), first wallboard (502) relative second wallboard (503) slide.

6. The energy-saving heat-insulating wall body of claim 5, characterized in that: the mounting frame (501) upper end and lower extreme are equipped with slide rail (504) respectively, be equipped with two parallel spout (505) in slide rail (504), first wallboard (502) with second wallboard (503) sliding connection respectively in spout (505).

7. The energy-saving heat-insulating wall body of claim 5, characterized in that: argon gas layers are arranged in the first wall plate (502) and the second wall plate (503).

8. The energy-saving heat-insulating wall body of claim 1, characterized in that: drive arrangement (6) including fixing hot plate (4) top sliding block (601), with slider (601) articulated connecting rod (602), with connecting rod (602) articulated bull stick (603), with bull stick (603) articulated frame (604) and drive bull stick (603) wind frame (604) whole week pivoted driving piece, frame (604) are fixed on side fascia (1).

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