CN112984605A

CN112984605A - Heating device for building

Info

Publication number: CN112984605A
Application number: CN202110358952.0A
Authority: CN
Inventors: 徐玉梅; 黄蕾; 蔡良君; 孙克春; 杨修飞
Original assignee: Luoyang Institute of Science and Technology
Current assignee: Luoyang Institute of Science and Technology
Priority date: 2021-04-02
Filing date: 2021-04-02
Publication date: 2021-06-18

Abstract

The invention relates to the technical field of building heat preservation, in particular to a heating device for a building, which comprises a wall body, an air bag layer is arranged outside the wall body and comprises a plurality of air bag units with the same structure, the air bag unit is provided with an extension pipe communicated with the air bag unit, the wall body is provided with a through hole for the extension pipe to pass through, a cavity is arranged in the wall body to form a structure that the heat absorbed by the air bag layer is transferred to the interior of the wall body through the extension pipe, the invention discloses a solar energy heating system, which is characterized in that a valve for opening or closing is arranged at one end, far away from an air bag unit, of an extension pipe, and a heating plate is arranged at one end, far away from the air bag unit, of a cavity, so that the problem that the temperature requirement of people and the resource use in the heating process cannot be met by sunlight irradiation in cold areas, particularly rural self-built houses in the prior art under the condition of good weather is solved.

Description

Heating device for building

Technical Field

The invention belongs to the technical field of building heat preservation, and particularly relates to a heating device for a building.

Background

The building generally adopts the heated board to keep warm, but is in cold areas especially rural house of building by oneself, relies on the building itself alone and can not satisfy the demand to the temperature. The electric energy is utilized for heating, a lot of resources can be wasted and the electric energy is unsafe when the energy is converted, and the coal is used for heating, so that the environmental pollution can be caused, the cleaning is not enough, and the current green concept is not met. Solar energy resources are clean, but most of the solar energy resources are used for power generation, and the indoor temperature rise cannot be well realized only by sunlight irradiation in good weather.

Disclosure of Invention

Aiming at the situation, in order to overcome the defects of the prior art, the invention provides a heating device for a building, which solves the problem that the self-built houses in cold areas, particularly rural areas, cannot meet the temperature requirement of people and cannot be green and environment-friendly enough for resource use in the heating process by means of sunlight irradiation under the condition of good weather in the prior art.

The heating device for the building comprises a wall body, wherein an air bag layer is arranged outside the wall body, the air bag layer comprises a plurality of air bag units with the same structure, a fixing strip for fixing each air bag unit is arranged on the wall body, the air bag units are of hollow rectangular plate-shaped structures, one surface, far away from the wall body, of each air bag unit is arc-shaped, one surface, close to the wall body, of each air bag unit is black, an extension pipe communicated with the air bag units is arranged on each air bag unit, a through hole for the extension pipe to penetrate through is formed in the wall body, a cavity is formed in the wall body, a structure for transmitting heat absorbed by the air bag layer to the interior of the wall body through the extension pipe is formed, a valve for opening or closing is arranged at one end, far away from the air bag units, of the extension pipe is provided with a control, control mechanism is including the stay cord of guaranteeing that the valve is in normally open state and being used for control flap to rotate the gum cover that changes its normally open state into closed state, be provided with the trompil on the extension tube, the trompil runs through the thickness direction of gas post and is the rectangle structure, the trompil position is provided with solid fixed ring, gu fixed ring inner wall has the gum cover that extends to the extension tube inside and can promote the valve rotation under the exogenic action, form the gum cover deformation after drive the rotatory and structure of closing of valve, the one end that the gasbag was kept away from to the cavity is provided with the heating panel.

Preferably, control mechanism is still including being located the link inner wall and keeping away from a gasbag unit tip and being used for supporting valve pivoted protruding circle, be provided with the sealing strip that is used for guaranteeing the gas tightness on the protruding circle, the tip of valve is provided with magnet, the link inner wall is provided with the iron plate that uses with the magnet cooperation, be provided with the stay cord on the valve, the stay cord is kept away from and is provided with the balancing weight, the link inner wall is provided with the link that is used for the stay cord to pass.

Preferably, be provided with the gas board in the wall body, be provided with the rectangular channel that uses with the extension pipe cooperation on the gas board, be provided with the tube seat in the gas board, be provided with the trachea in the tube seat, be provided with on the wall body and be used for aerifing and with the sacculus of trachea intercommunication, be provided with between gas board and the gas board and be used for fixed packing plate, packing plate and gas board interval set up the structure that forms to be covered with the wall body inner wall, be provided with the passageway that is used for the trachea to pass in the packing plate, the trachea is located rectangular channel position intercommunication has the first gas column of following the setting direction deformation of aerifing, forms gaseous process trachea and gets into first gas column after expansion gum cover sealing valve, and the heavy object drives the valve rotation and guarantees the structure of gasbag unit and wall body inner cavity intercommunication after first gas column and gum cover shrink after gaseous.

Preferably, the one end of keeping away from the gasbag unit in the cavity is provided with the air cushion layer, the one side that the gasbag was kept away from to the air cushion layer is provided with the recess, the joint has the heating panel in the recess, and the formation gasbag unit is full of the cavity after the air is heated, and with the structure of the inside air cushion layer of cavity and heating panel of heat conduction.

Preferably, the air cushion layer is provided with a plurality of hollow grooves which are uniformly arranged at intervals in the vertical direction of the air cushion layer, and the surface, far away from the heat dissipation plate, of the air cushion layer is provided with a movable baffle layer, so that a structure that the baffle layer vertically moves up and down to seal the hollow grooves is formed.

Preferably, the baffle layer comprises baffle sheets, the width of each baffle sheet is slightly larger than that of the hollow groove, the baffle sheets are arranged at intervals, slide bars used for connecting the baffle sheets are arranged at two ends of each baffle sheet, slide rails used with the slide bars in a matched mode are arranged on the air cushion layer, the slide rails are arranged symmetrically about the center line of the baffle sheets, and sealing strips are arranged on the edges of the hollow grooves.

Preferably, the sliding connection that the separation blade was kept away from to the draw runner has the slide, the slide is the quadrangular structure, be provided with on the slide and sunken to its inside spout that just is used for the draw runner to remove, be provided with the push pedal in the spout, be provided with second gas post between push pedal and the spout bottom, second gas post passes through trachea and gasbag intercommunication, forms the structure that second gas post promotes the push pedal and then drives the draw runner and remove after aerifing.

Preferably, the air cushion layer is a sealing structure and is filled with carbon dioxide.

The invention has the advantages that the air bag layer for absorbing heat is arranged on the outer wall of the wall body, the heat dissipation plate with better heat dissipation effect is arranged on the inner wall of the wall body, the cavity in the wall body is provided with the extension pipe which is communicated with the air bag layer and can be opened or closed to control the heat to flow in and out, and the start and stop of the heat transfer from the outside of the wall to the inside of the room can be met according to the actual requirement;

the air bag layer is formed by the air bag units, the fixing strip for fixing is arranged on the wall body, one surface of each air bag unit, which is far away from the wall body, is arc-shaped, and the black structure is formed by matching one surface of each air bag unit, which is close to the wall body, so that the heat in the external environment can be absorbed;

the arrangement of the valve, the pull rope and the balancing weight in the extension pipe is used for ensuring that the valve is in a normally open state, and the matching use of the air pipe, the first air column, the rubber sleeve and the balloon for inflating is used for ensuring that the valve is in a closed state;

the setting of fretwork groove on the air cushion layer for air bag layer heat increases indoor temperature behind the heat dissipation board fast transfer, and the setting of air cushion layer inside packing carbon dioxide is used for guaranteeing to prolong its heat preservation time behind the heat absorption, and the setting on baffle layer can protect the fretwork groove simultaneously, and the setting of second gas column cooperation trachea and sacculus provides power for the removal on baffle layer.

Drawings

Fig. 1 is a sectional view of a heating apparatus for a building according to the present invention;

FIG. 2 is an enlarged view of a cross-sectional view A of a heating apparatus for a building according to the present invention;

FIG. 3 is an enlarged view of a heating apparatus for a building according to the present invention in a cross-sectional view B;

FIG. 4 is a front view of a gas panel and a fill panel of a heating system for a building according to the present invention;

FIG. 5 is an enlarged view at C of a front view of a gas panel and a filling panel of a heating apparatus for a building according to the present invention;

fig. 6 is a front view of an air cushion layer of a heating unit for a building according to the present invention.

The air bag type air bag comprises a wall body 1, an air bag layer 2, an air bag unit 3, a fixing strip 4, an extension tube 5, a through hole 6, a cavity 7, a valve 8, a pulling rope 9, a rubber sleeve 10, an opening 11, a fixing ring 12, a heat dissipation plate 14, a convex ring 15, a sealing strip 16, a magnet 17, an iron block 18, a counterweight 20, a hanging ring 21, an air plate 22, a rectangular groove 23, a pipe groove 24, an air pipe 25, a balloon 26, a filling plate 27, a channel 28, a first air column 29, an air cushion layer 30, a groove 31, a hollow groove 32, a baffle plate 33, a baffle plate 34, a sliding strip 35, a sliding rail 36, a sliding seat 37, a sliding groove 38, a push plate 39, a second air column.

Detailed Description

The following detailed description of the embodiments of the present invention is provided in conjunction with the accompanying drawings.

The first embodiment is as follows: according to the attached drawings in the specification, the heating device for the building comprises a wall body 1, an air bag layer 2 is arranged outside the wall body 1, and the air bag layer 2 comprises a plurality of air bag units 3 with the same structure. Be provided with the fixed strip 4 that is used for fixed each gasbag unit 3 on the wall body 1, fixed strip 4 and wall body 1 structure as an organic whole, fixed strip 4 has a plurality ofly and all has the setting along wall body 1's level and two vertical directions, forms the lattice structure of fixed gasbag unit 3 one by one. Gasbag unit 3 is hollow rectangular plate structure, and the one side that the wall body 1 was kept away from to gasbag unit 3 is the arc, and the arcwall face can accept more shining of sunshine, increases its inside temperature, and gasbag unit 3 is close to one of wall body 1 and personally submits black, and the preferred transparent structure that forms of arcwall face intensifies temperature faster. The air bag unit 3 is provided with an extension pipe 5 communicated with the air bag unit, the extension pipe 5 is located at the center of the air bag unit 3, a through hole 6 for the extension pipe 5 to pass through is formed in the wall body 1, and the extension pipe 5 is of a quadrangular structure. A cavity 7 is arranged in the wall body 1, and a structure that heat absorbed by the air bag layer 2 is transferred to the interior of the wall body 1 through the extension pipe 5 is formed. The one end that gasbag unit 3 was kept away from to extension 5 is provided with the valve 8 that is used for opening or closes, be provided with control flap 8 on the extension 5 and open or confined control mechanism, control mechanism is including the stay cord 9 that guarantees that valve 8 is in normally open state and being used for control flap 8 to rotate and change its normally open state into the gum cover 10 of closed state, the one end that gasbag unit 3 was kept away from to extension 5 is provided with trompil 11, trompil 11 runs through the thickness direction of gas column and is the rectangle structure. 11 positions of trompil are provided with solid fixed ring 12, gu fixed ring 12 is the rectangle annular structure, gu fixed ring 12 is structure as an organic whole with extension pipe 5, gu fixed ring 12 inner wall is the same with 11 sizes of trompil, gu fixed ring 12 inner wall is spliced to have and extends to 5 inside and can promote the gum cover 10 of the rotation of valve 8 under the exogenic action of extension pipe, gum cover 10 is similar to the balloon structure, the deformation of setting for the structure takes place under the inflation condition, form the structure that drives the rotation of valve 8 and close after the deformation of gum cover 10. Control mechanism is still including being located the link inner wall and keeping away from 3 tip of gasbag unit and being used for supporting valve 8 pivoted protruding circle 15, protruding circle 15 and extension pipe 5 structure as an organic whole, protruding circle 15 is rectangle annular structure and is applicable to extension pipe 5 inner wall, is provided with the sealing strip 16 that is used for guaranteeing the gas tightness on protruding circle 15, and sealing strip 16 splices with protruding circle 15. The tip of valve 8 is provided with magnet 17, and magnet 17 is located valve 8 and keeps away from the intermediate position of trompil 11 one end, is provided with the rectangular channel 23 that is used for placing magnet 17 on the valve 8, and magnet 17 splices in rectangular channel 23, and the link inner wall is provided with rather than the snap ring of body structure, and articulated in the snap ring have be used for fixed iron plate 18 with magnet 17 cooperation use. The valve 8 is tied with a pull rope 9, one end of the pull rope 9, which is far away from the valve 8, is tied with a balancing weight 20, the inner wall of the connecting end is provided with a hanging ring 21 which is integrated with the connecting end and is used for the pull rope 9 to pass through, and the hanging ring 21 comprises a fixed pulley. An air plate 22 is arranged in the wall body 1, the air plate 22 is of a rectangular plate-shaped structure, and the air plate 22 is fixed on the inner wall of the cavity 7 through screws. The air plate 22 is provided with a rectangular groove 23 matched with the extension pipe 5 for use, a pipe groove 24 is arranged in the air plate 22, an air pipe 25 is clamped in the pipe groove 24, the wall body 1 is provided with a balloon 26 used for inflation and communicated with the air pipe 25, and the wall body 1 is provided with a clamp which is integrated with the wall body and is used for fixing the balloon 26. A filling plate 27 for fixing is arranged between the air plate 22 and the air plate 22, the filling plate 27 can be an insulation plate, the filling plate 27 is fixed with the wall body 1 through screws, and the filling plate 27 and the air plate 22 are arranged at intervals to form a structure which is fully distributed on the inner wall of the wall body 1. A passage 28 for the air tube 25 to pass through is provided in the filling plate 27, and the passage 28 is recessed inside the filling plate 27. The air pipe 25 is located in the rectangular groove 23 and is communicated with a first air column 29 which deforms along a set direction after being inflated, so that a structure that air enters the first air column 29 through the air pipe 25, the rubber sleeve 10 is expanded to seal the valve 8, and after the air is exhausted, the first air column 29 and the rubber sleeve 10 contract, a heavy object drives the valve 8 to rotate to ensure that the air bag unit 3 is communicated with the cavity 7 in the wall body 1 is formed. And a heat dissipation plate 14 fixed with the wall 1 through screws is arranged at one end of the cavity 7 far away from the air bag.

In one embodiment, as shown in the drawings, an air cushion layer 30 is disposed at an end of the cavity 7 away from the airbag unit 3, the air cushion layer 30 covers an inner wall of one surface of the cavity 7 away from the airbag unit 3, the air cushion layer 30 is fixed to the wall 1 by screws, a groove 31 recessed into the air cushion layer 30 is disposed at the surface of the air cushion layer 30 away from the airbag, and the heat sink 14 is engaged with the groove 31, so that the cavity 7 is filled with heated air in the airbag unit 3, and the heat is conducted to the air cushion layer 30 and the heat sink 14 inside the cavity 7. The air cushion layer 30 is provided with five hollow grooves 32, the hollow grooves 32 penetrate through the thickness direction of the air cushion layer 30, and the hollow grooves 32 are uniformly arranged at intervals along the vertical direction of the air cushion layer 30. The side of the air cushion layer 30 away from the heat dissipation plate 14 is provided with a movable baffle layer 33, and a structure is formed in which the baffle layer 33 moves up and down in the vertical direction to close the hollow groove 32. The baffle layer 33 comprises baffle sheets 34, the number of the baffle sheets 34 is the same as that of the hollow grooves 32, the width of the baffle sheets 34 is slightly larger than that of the hollow grooves 32, the baffle sheets 34 are arranged at equal intervals, two ends of each baffle sheet 34 in the length direction are provided with sliding strips 35 for connecting the baffle sheets, the connecting mode of the sliding strips 35 and the baffle sheets 34 includes but is not limited to screw fixation, sliding rails 36 matched with the sliding strips 35 for use are glued on the air cushion layer 30, and the two sliding rails 36 are symmetrically arranged about the center line of the baffle sheets 34. The edge of the hollow groove 32 is provided with a sealing tape 41, and the sealing tape 41 is connected with the air cushion layer 30 in an adhesive manner. One end of the sliding strip 35, which is far away from the blocking piece 34, is slidably connected with a sliding seat 37, the sliding seat 37 is of a quadrangular structure, a sliding groove 38 which is recessed into the sliding seat 37 and used for the sliding strip 35 to move is arranged on the sliding seat 37, a push plate 39 is slidably connected with the sliding groove 38, and the push plate 39 is of a rectangular structure suitable for the inner wall of the sliding groove 38. A second air column 40 is arranged between the push plate 39 and the bottom of the sliding groove 38, the second air column 40 is communicated with the air bag through the air pipe 25, and a structure that the push plate 39 is pushed after the second air column 40 is inflated so as to drive the slide bar 35 to move is formed.

In one embodiment, and as illustrated in the figures, the gas cushion layer 30 is a sealed structure, with the gas cushion layer 30 filled with carbon dioxide.

The outer wall of the wall body is provided with the air bag layer for absorbing heat, the inner wall of the wall body is provided with the heat dissipation plate with a good heat dissipation effect, and the inner cavity of the wall body is provided with the extension pipe which is communicated with the air bag layer and can be opened or closed to control heat to enter and exit, so that the starting and stopping of heat transfer from the outside of the wall to the inside of the room can be met according to actual needs; the air bag layer is formed by the air bag units, the fixing strip for fixing is arranged on the wall body, one surface of each air bag unit, which is far away from the wall body, is arc-shaped, and the black structure is formed by matching one surface of each air bag unit, which is close to the wall body, so that the heat in the external environment can be absorbed; the arrangement of the valve, the pull rope and the balancing weight in the extension pipe is used for ensuring that the valve is in a normally open state, and the matching use of the air pipe, the first air column, the rubber sleeve and the balloon for inflating is used for ensuring that the valve is in a closed state; the setting of fretwork groove on the air cushion layer for air bag layer heat increases indoor temperature behind the heat dissipation board fast transfer, and the setting of air cushion layer inside packing carbon dioxide is used for guaranteeing to prolong its heat preservation time behind the heat absorption, and the setting on baffle layer can protect the fretwork groove simultaneously, and the setting of second gas column cooperation trachea and sacculus provides power for the removal on baffle layer.

The present invention has been described in detail with reference to the specific embodiments and examples, but these are not intended to limit the present invention. Many variations and modifications may be made by one of ordinary skill in the art without departing from the principles of the present invention, which should also be considered as within the scope of the present invention.

Claims

1. A heating device for a building comprises a wall body (1), and is characterized in that an air bag layer (2) is arranged outside the wall body (1), the air bag layer (2) comprises a plurality of air bag units (3) with the same structure, a fixing strip (4) for fixing each air bag unit (3) is arranged on the wall body (1), each air bag unit (3) is of a hollow rectangular plate-shaped structure, one surface, far away from the wall body (1), of each air bag unit (3) is arc-shaped, one surface, close to the wall body (1), of each air bag unit (3) is black, an extension pipe (5) communicated with the air bag unit (3) is arranged on each air bag unit, a through hole (6) for the extension pipe (5) to penetrate through is formed in the wall body (1), a cavity (7) is arranged in the wall body (1), and the heat absorbed by the air bag layer (2) is transmitted to the structure inside the wall body (1) through the extension pipe (5, the one end that gasbag unit (3) was kept away from in extension pipe (5) is provided with valve (8) that are used for opening or close, be provided with control flap (8) on extension pipe (5) and open or confined control mechanism, control mechanism is including stay cord (9) of guaranteeing that valve (8) are in normally open state and be used for control flap (8) to rotate gum cover (10) that changes its normally open state into closed state, be provided with trompil (11) on extension pipe (5), trompil (11) run through the thickness direction of gas column and are the rectangle structure, trompil (11) position is provided with solid fixed ring (12), gu fixed ring (12) inner wall splice have extend to extension pipe (5) inside and can promote gum cover (10) rotatory of valve (8) under the exogenic action, form gum cover (10) deformation after drive the rotatory structure of valve (8), and a heat dissipation plate (14) is arranged at one end of the cavity (7) far away from the air bag.

2. The heating device for the building according to claim 1, wherein the control mechanism further comprises a convex ring (15) which is located on the inner wall of the connecting end, is far away from one end of the air bag unit (3) and is used for supporting the valve (8) to rotate, a sealing strip (16) used for guaranteeing air tightness is arranged on the convex ring (15), a magnet (17) is arranged on the end of the valve (8), an iron block (18) used with the magnet (17) is arranged on the inner wall of the connecting end, a pull rope (9) is arranged on the valve (8), a balancing weight (20) is arranged on the far away of the pull rope (9), and a hanging ring (21) used for the pull rope (9) to pass through is arranged on the inner wall of.

3. The heating device for the building according to claim 1, wherein an air plate (22) is arranged in the wall body (1), a rectangular groove (23) matched with the extension pipe (5) for use is arranged on the air plate (22), a pipe groove (24) is arranged in the air plate (22), an air pipe (25) is arranged in the pipe groove (24), a balloon (26) used for inflating and communicated with the air pipe (25) is arranged on the wall body (1), a filling plate (27) used for fixing is arranged between the air plate (22) and the air plate (22), the filling plate (27) and the air plate (22) are arranged at intervals to form a structure which is fully distributed on the inner wall of the wall body (1), a channel (28) used for the air pipe (25) to pass through is arranged in the filling plate (27), and a first air column (29) which deforms along a set direction after being inflated is arranged at the position of the rectangular groove (23) of the air pipe (25), after gas enters the first gas column (29) through the gas pipe (25), the rubber sleeve (10) is expanded to seal the valve (8), and after the gas is discharged, the first gas column (29) and the rubber sleeve (10) contract, the heavy object drives the valve (8) to rotate to ensure that the airbag unit (3) is communicated with the cavity (7) in the wall body (1).

4. The heating device for the building according to claim 3, wherein an air cushion layer (30) is arranged at one end of the cavity (7) far away from the air bag unit (3), a groove (31) is arranged at one side of the air cushion layer (30) far away from the air bag, and the heat dissipation plate (14) is clamped in the groove (31), so that the cavity (7) is filled with the heated air in the air bag unit (3), and the heat is conducted to the air cushion layer (30) and the heat dissipation plate (14) in the cavity (7).

5. The heating device for the building according to claim 4, wherein the air cushion layer (30) is provided with a plurality of hollowed-out grooves (32), the hollowed-out grooves (32) are uniformly arranged at intervals in the vertical direction of the air cushion layer (30), a movable baffle layer (33) is arranged on one side of the air cushion layer (30) far away from the heat dissipation plate (14), and a structure that the baffle layer (33) moves up and down in the vertical direction to close the hollowed-out grooves (32) is formed.

6. The heating device for the building according to claim 5, wherein the baffle plate layer (33) comprises a baffle plate (34), the width of the baffle plate (34) is slightly larger than that of the hollow groove (32), the baffle plate (34) is provided with a plurality of strips which are evenly spaced, two ends of each baffle plate (34) are provided with slide bars (35) for connecting the baffle plates, the air cushion layer (30) is provided with slide rails (36) matched with the slide bars (35), the slide rails (36) are provided with two strips which are symmetrically arranged about the center line of the baffle plate (34), and the edges of the hollow groove (32) are provided with sealing strips (41).

7. The heating device for the building according to claim 6, wherein a sliding seat (37) is connected to the sliding strip (35) far away from the blocking sheet (34) in a sliding manner, the sliding seat (37) is of a quadrangular prism structure, a sliding groove (38) which is recessed into the sliding seat (37) and used for moving the sliding strip (35) is formed in the sliding seat (37), a push plate (39) is arranged in the sliding groove (38), a second air column (40) is arranged between the push plate (39) and the bottom of the sliding groove (38), and the second air column (40) is communicated with the air bag through an air pipe (25) to form a structure that the second air column (40) pushes the push plate (39) after being inflated so as to drive the sliding strip (35) to move.

8. The heating system for buildings according to claim 4, wherein the air cushion layer (30) is a sealed structure, and the air cushion layer (30) is filled with carbon dioxide.