CN219710779U - Building energy-saving roof - Google Patents

Abstract

The utility model relates to an energy-saving roof for a building, which belongs to the field of building energy conservation and comprises a top surface and a heat insulation chamber, wherein the top surface is fixedly connected with the heat insulation chamber, an auxiliary baffle is fixedly connected onto the top surface, a water inlet hole is formed in the auxiliary baffle, a water inlet pipe is arranged on the auxiliary baffle, a water storage tank is fixedly connected onto the inner wall of the heat insulation chamber, one end of the water inlet pipe is communicated with the water inlet hole, the other end of the water inlet pipe is communicated with the water storage tank, a water outlet pipe is arranged on the water storage tank, and a control valve is arranged on the water outlet pipe. According to the utility model, an operator can open the control valve to enable water in the water storage tank to flow out into the heat insulation chamber through the water outlet pipe, the inner bottom wall of the heat insulation chamber is fully filled with water, a cooling effect can be achieved on a building below the heat insulation chamber, heat transfer into a room is reduced, and therefore the condition that the temperature in the roof layer of the room is raised is relieved.

Description

Building energy-saving roof

Technical Field

The utility model relates to the field of building energy conservation, in particular to a building energy-saving roof.

Background

The building is a general name of the building and the structure, is an artificial environment created by utilizing the mastered material technical means and applying a certain scientific rule and aesthetic rule in order to meet the social life needs, and is an important measure for improving the living environment of people and the living comfort level, and building energy conservation is a great trend of world building development.

At present, most roofs are single in structure and poor in heat insulation effect, and in areas with strong sunlight irradiation, heat is easily transferred to the indoor space through roof boards, so that the indoor temperature of the top layer is increased, and the comfort level of the living environment of the top layer is reduced.

Disclosure of Invention

In order to solve the problem of indoor temperature rise, the utility model provides an energy-saving roof of a building.

The utility model provides a building energy-saving roof which adopts the following technical scheme:

the utility model provides an energy-conserving roof of building, includes top surface and heat-insulating chamber, top surface and heat-insulating chamber fixed connection, fixedly connected with auxiliary baffle on the top surface, the inlet port has been seted up on the auxiliary baffle, be provided with the inlet tube on the auxiliary baffle, fixedly connected with water storage box on the inner wall of heat-insulating chamber, the one end and the inlet port intercommunication of inlet tube, the other end and water storage box intercommunication, be provided with the outlet pipe on the water storage box, be provided with the control valve on the outlet pipe.

Through adopting above-mentioned technical scheme, auxiliary baffle can assemble the rainwater, and in the rainwater gets into the inlet tube through the inlet opening, flow into in the water storage tank through the inlet tube, the water storage tank can collect the rainwater, operating personnel can open the control valve, make the water in the water storage tank flow out to in the heat-proof chamber through the outlet pipe, when the interior bottom wall of water cover heat-proof chamber, operating personnel closes the control valve, the interior bottom wall of heat-proof chamber is full of water, can play the cooling effect to the building of heat-proof chamber below, it is indoor to reduce heat transfer, thereby alleviate the condition that the indoor temperature of top layer risees, the travelling comfort of top layer living environment has been improved.

Preferably, the heat insulation chamber is provided with a first ventilation hole and a second ventilation hole, the second ventilation hole is higher than the first ventilation hole, and the first ventilation hole and the second ventilation hole are both provided with filter plates.

Through adopting above-mentioned technical scheme, when the indoor temperature of thermal-insulated is higher than outdoors, there is higher pressure in the upper portion of thermal-insulated indoor inner chamber, and lower pressure exists in the lower part, and the air passes through first ventilation hole and gets into, flows out from the second ventilation hole, and the circulation of air of thermal-insulated room of being convenient for to reduce the indoor temperature of thermal-insulated, thereby alleviate the indoor temperature of top layer and rise the condition.

Preferably, the water outlet hole is formed in the heat insulation chamber, the water outlet hole is communicated with the inner cavity of the heat insulation chamber, the heat insulation chamber is provided with a drain pipe, the drain pipe is communicated with the water outlet hole, and the drain pipe is provided with a water suction pump.

Through adopting above-mentioned technical scheme, when the water of the indoor diapire of thermal-insulated time of placing for a long time, the water of the indoor diapire of thermal-insulated is more turbid, and operating personnel accessible suction pump makes the suction pump discharge the water of the indoor diapire of thermal-insulated to put into comparatively pure water.

Preferably, an auxiliary scraper is arranged in the heat insulation chamber, the auxiliary scraper is abutted to the inner bottom wall of the heat insulation chamber, the auxiliary scraper is positioned in the heat insulation chamber and slides relatively, a control assembly is arranged in the heat insulation chamber, and the control assembly is used for controlling the sliding of the auxiliary scraper.

Through adopting above-mentioned technical scheme, because auxiliary scraper blade and the interior bottom wall butt of heat-insulating chamber, auxiliary scraper blade can scrape the water of the interior diapire of heat-insulating chamber to the apopore, and auxiliary scraper blade also can play the cleaning action to the interior diapire of heat-insulating chamber, reduces the dust absorption on the interior diapire of heat-insulating chamber, has improved the indoor clean degree of heat-insulating.

Preferably, the control assembly comprises a control block, a control rod and a control piece, one end of the auxiliary scraping plate is fixedly connected with the control block, a sliding groove is formed in the inner side wall of the heat insulation chamber, the control block slides in the sliding groove, the control rod is rotationally connected with the groove wall of the sliding groove, the control rod is in threaded connection with the control block, and the control piece is used for controlling the rotation of the control rod.

Preferably, the control piece is a control motor, the control motor is a positive and negative rotation motor, a placing groove is formed in the inner side wall of the heat insulation chamber and communicated with the sliding groove, the control motor is installed in the placing groove, and an output shaft of the control motor is fixedly connected with the control rod in a coaxial mode.

Through adopting above-mentioned technical scheme, when auxiliary scraper blade needs to remove, operating personnel drive control motor, and the output shaft of control motor can drive the rotation of control lever, and the rotation of control lever can drive the removal of control block, makes the control block be located the slip and rubs the removal, and the removal of control block can drive the removal of auxiliary scraper blade, realizes the removal of auxiliary scraper blade.

Preferably, the auxiliary scraping plate comprises a control part, an auxiliary part and an auxiliary piece, wherein the control part and the auxiliary part are detachably connected, the auxiliary part is fixedly connected with the auxiliary piece, the auxiliary piece is abutted to the inner bottom wall of the heat insulation chamber, and the auxiliary piece is made of rubber.

Through adopting above-mentioned technical scheme, when auxiliary scraper blade removed, auxiliary member took place the friction with the interior bottom wall of heat-insulating chamber, and the auxiliary member can be promoted the clean degree of the interior diapire of heat-insulating chamber, and when the auxiliary member used for a long time appears wearing and tearing, operating personnel can dismantle auxiliary portion to dismantle auxiliary member, change auxiliary member.

Preferably, the control part is provided with a positioning groove, the auxiliary part is fixedly connected with a positioning block, the positioning groove is used for embedding the positioning block, the control part is provided with a positioning bolt, and the positioning bolt passes through the control part and is in threaded connection with the auxiliary part.

Through adopting above-mentioned technical scheme, when installation control portion and auxiliary part, remove the auxiliary part and make the locating piece imbed in the constant head tank, the constant head tank can be spacing to the locating piece, screw in locating bolt makes locating bolt pass control portion and auxiliary part threaded connection, makes control portion and auxiliary part relative positioning, realizes the installation of both to realize the installation of auxiliary part.

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

1. through the setting of auxiliary baffle, inlet tube, water storage box and outlet pipe, the auxiliary baffle can assemble the rainwater, and in the rainwater gets into the inlet tube through the inlet opening, in flowing into the water storage box through the inlet tube, the water storage box can collect the rainwater, operating personnel can open the control valve, make the water in the water storage box flow out to the thermal-insulated room through the outlet pipe, when the interior bottom wall of thermal-insulated room is covered to the water, operating personnel closes the control valve, the interior bottom wall of thermal-insulated room is full of water, can play the cooling effect to the building of thermal-insulated room below, reduce heat transfer to in the room, thereby alleviate the condition that the indoor temperature of top layer risees, the travelling comfort of top layer living environment has been improved;

2. through the setting of control assembly, when auxiliary scraper blade needs to remove, operating personnel drive control motor, and the output shaft of control motor can drive the rotation of control lever, and the rotation of control lever can drive the removal of control block, makes the control block be located the slip and rubs the removal of removing, and the removal of control block can drive auxiliary scraper blade, realizes auxiliary scraper blade's removal.

Drawings

Fig. 1 is a schematic view of an internal structure of a roof for embodying energy saving of a building according to an embodiment of the present utility model.

Fig. 2 is a schematic view of the overall structure of the auxiliary scraper according to the embodiment of the present utility model.

Fig. 3 is a schematic view of the overall structure of a roof for embodying energy saving in a building according to an embodiment of the present utility model.

Fig. 4 is a schematic view of the overall structure of a roof for embodying energy saving in a building according to an embodiment of the present utility model.

Reference numerals illustrate: 1. a top surface; 2. a thermally insulated chamber; 21. a first vent; 211. a filter plate; 22. a second vent hole; 23. a water outlet hole; 24. a drain pipe; 241. a water pump; 25. a sliding groove; 26. a placement groove; 3. an auxiliary baffle; 31. a water inlet hole; 32. a water inlet pipe; 4. a water storage tank; 41. a water outlet pipe; 42. a control valve; 5. an auxiliary scraper; 51. a control unit; 511. a positioning groove; 512. positioning bolts; 52. an auxiliary part; 521. a positioning block; 53. an auxiliary member; 6. a control assembly; 61. a control block; 62. a control lever; 63. and controlling the motor.

Detailed Description

The utility model is described in further detail below with reference to fig. 1-4.

The embodiment of the utility model discloses an energy-saving roof for a building, which is shown in fig. 1 and comprises a top surface 1 and a heat insulation chamber 2, wherein the top surface 1 is fixedly connected with the heat insulation chamber 2, the top surface 1 is positioned above the heat insulation chamber 2, and the top surface 1 is obliquely arranged.

As shown in fig. 1, an auxiliary baffle 3 is fixedly connected to the top surface 1, and the section of the auxiliary baffle is V-shaped. The auxiliary baffle plate 3 is provided with a water inlet hole 31, the auxiliary baffle plate 3 is provided with a water inlet pipe 32, the inner wall of the heat insulation chamber 2 is fixedly connected with a water storage tank 4, one end of the water inlet pipe 32 is communicated with the water inlet hole 31, and the other end is communicated with the water storage tank 4. A water outlet pipe 41 is arranged below the water storage tank 4, and a control valve 42 is arranged on the water outlet pipe 41. When encountering rain weather, the rainwater slides onto the auxiliary baffle 3 along the top surface 1, slides into the water inlet hole 31 along the auxiliary baffle 3, flows into the water inlet pipe 32 through the water inlet hole 31, flows into the water storage tank 4 through the water inlet pipe 32, and the water storage tank 4 can collect and store water. The operator can rotate the control valve 42 to enable the water in the water storage tank 4 to flow out from the water outlet pipe 41, so that the water in the water storage tank 4 is covered on the inner bottom wall of the heat insulation chamber 2, the temperature reduction effect is achieved on the building below the heat insulation chamber 2, the condition of indoor temperature rise is relieved, and the comfort of positioning living environment is improved.

As shown in fig. 1, a water outlet hole 23 is formed in the heat insulation chamber 2, the water outlet hole 23 is communicated with the inner cavity of the heat insulation chamber 2, a water drain pipe 24 is arranged on the heat insulation chamber 2, the water drain pipe 24 is communicated with the water outlet hole 23, and a water suction pump 241 is arranged on the water drain pipe 24. An auxiliary scraper 5 is arranged in the heat insulation chamber 2, the auxiliary scraper 5 is positioned in the heat insulation chamber 2 and slides relatively, and the auxiliary scraper 5 is used for pushing the water body to the water outlet 23 and cleaning the inner bottom wall of the heat insulation chamber 2. When the bottom wall in the heat insulation chamber 2 is full of water, the operator can move the auxiliary scraping plate 5, so that the auxiliary scraping plate 5 cleans the bottom wall in the heat insulation chamber 2, the water suction pump 241 is started after cleaning, the water of the bottom wall in the heat insulation chamber 2 is discharged, meanwhile, the auxiliary scraping plate 5 is moved, the water of the bottom wall in the heat insulation chamber 2 is pushed to the water outlet hole 23, and the water in the heat insulation chamber 2 is discharged conveniently.

As shown in fig. 2, the auxiliary scraper 5 includes a control portion 51, an auxiliary portion 52, and an auxiliary member 53, the auxiliary portion 52 and the auxiliary member 53 are fixedly connected, the auxiliary member 53 abuts against the inner bottom wall of the heat insulation chamber 2, and the auxiliary member 53 is made of rubber. The control part 51 and the auxiliary part 52 are detachably connected, the control part 51 is provided with two positioning grooves 511, the auxiliary part 52 is fixedly connected with a positioning block 521, and the positioning grooves 511 are used for embedding the positioning block 521. The control portion 51 is provided with three positioning bolts 512, the length direction of the positioning bolts 512 is perpendicular to the sliding direction of the auxiliary scraper 5, and the positioning bolts 512 penetrate through the control portion 51 and are in threaded connection with the auxiliary portion 52. When the auxiliary member 53 is worn in contact with the inner bottom wall of the heat insulation chamber 2 for a long time, an operator can rotate the positioning bolt 512 to release the limit of the positioning bolt 512 to the auxiliary portion 52, so that the auxiliary portion 52 is detached, the auxiliary member 53 is replaced, and cleaning of the auxiliary member 53 and auxiliary drainage work are facilitated.

As shown in fig. 1, a control unit 6 is provided in the heat insulating chamber 2, and the control unit 6 is used for controlling sliding of the auxiliary scraper 5. The control assembly 6 includes a control block 61, a control lever 62, and a control member, and one end of the control portion 51 is fixedly connected to the control block 61. The inside wall of the heat insulation chamber 2 is provided with a sliding groove 25, the length direction of the sliding groove 25 is consistent with the sliding direction of the auxiliary scraping plate 5, a control block 61 is positioned in the sliding groove 25 to slide, the length direction of a control rod 62 is consistent with the length direction of the sliding groove 25, the control rod 62 is rotationally connected with the groove wall of the sliding groove 25, and the control rod 62 is in threaded connection with the control block 61. The control piece is a control motor 63, the control motor 63 is a positive and negative rotation motor, the inner side wall of the heat insulation chamber 2 is provided with a placing groove 26, the placing groove 26 is communicated with the sliding groove 25, the control motor 63 is arranged in the placing groove 26, and an output shaft of the control motor 63 is fixedly connected with the control rod 62 in a coaxial way.

When the inner bottom wall of the heat insulation chamber 2 needs cleaning or draining, an operator drives the control motor 63, the rotation of the output shaft of the control motor 63 can drive the control rod 62 to rotate, the rotation of the control rod 62 can drive the control block 61 to move, the movement of the control block 61 can drive the control part 51 to move, and the movement of the control part 51 can drive the auxiliary piece 53 to move, so that the cleaning or auxiliary draining work of the auxiliary piece 53 on the inner bottom wall of the heat insulation chamber 2 is realized.

As shown in fig. 3 and 4, the heat insulation chamber 2 is provided with a first ventilation hole 21 and a second ventilation hole 22, the second ventilation hole 22 is higher than the first ventilation hole 21, and the filter plates 211 are installed at the positions of the first ventilation hole 21 and the second ventilation hole 22. When the temperature in the heat-insulating chamber 2 is higher than that in the outdoor, air enters through the first ventilation holes 21 and flows out from the second ventilation holes 22, thereby facilitating the ventilation of the heat-insulating chamber 2 and reducing the temperature in the heat-insulating chamber 2.

The implementation principle of the building energy-saving roof provided by the embodiment of the utility model is as follows:

rainwater flows to the auxiliary baffle 3 through the top surface 1, flows into the water inlet hole 31 through the auxiliary baffle 3, flows into the water inlet pipe 32 through the water inlet hole 31, flows into the water storage tank 4 through the water inlet pipe 32, and the water storage tank 4 can collect the rainwater. The operator rotates the control valve 42 to enable the water in the water storage tank 4 to flow out through the water outlet pipe 41 and spread on the inner bottom wall of the heat insulation chamber 2, after the water in the bottom wall of the heat insulation chamber 2 is placed for a long time, the driving control motor 63 enables the output shaft of the control motor 63 to drive the auxiliary scraping plate 5 to move, after the auxiliary scraping plate 5 cleans the inner bottom wall of the heat insulation chamber 2, the operator drives the water suction pump 241 to pump water to drain the water in the bottom wall of the heat insulation chamber 2, the driving control motor 63 enables the auxiliary scraping plate 5 to push the water to the water outlet hole 23, the water suction pump 241 is closed after the water is drained, and the control valve 42 is opened again to enable the water in the water storage tank 4 to flow out and spread on the inner bottom wall of the heat insulation chamber 2.

The above embodiments are not intended to limit the scope of the present utility model, so: all equivalent changes in structure, shape and principle of the utility model should be covered in the scope of protection of the utility model.

Claims (8)

1. The utility model provides a building energy-conserving roof which characterized in that: including top surface (1) and heat-insulating chamber (2), top surface (1) and heat-insulating chamber (2) fixed connection, fixedly connected with auxiliary baffle (3) on top surface (1), inlet opening (31) have been seted up on auxiliary baffle (3), be provided with inlet tube (32) on auxiliary baffle (3), fixedly connected with water storage tank (4) on the inner wall of heat-insulating chamber (2), the one end and inlet opening (31) intercommunication of inlet tube (32), the other end and water storage tank (4) intercommunication, be provided with outlet pipe (41) on water storage tank (4), be provided with control valve (42) on outlet pipe (41).

2. A building energy saving roof according to claim 1, wherein: the heat insulation chamber (2) is provided with a first ventilation hole (21) and a second ventilation hole (22), the second ventilation hole (22) is higher than the first ventilation hole (21), and the first ventilation hole (21) and the second ventilation hole (22) are both provided with filter plates (211).

3. A building energy saving roof according to claim 1, wherein: the novel heat insulation device is characterized in that a water outlet hole (23) is formed in the heat insulation chamber (2), the water outlet hole (23) is communicated with the inner cavity of the heat insulation chamber (2), a drain pipe (24) is arranged on the heat insulation chamber (2), the drain pipe (24) is communicated with the water outlet hole (23), and a water suction pump (241) is arranged on the drain pipe (24).

4. A building energy saving roof according to claim 3, wherein: be equipped with auxiliary scraper blade (5) in insulated chamber (2), auxiliary scraper blade (5) and the interior bottom wall butt of insulated chamber (2), auxiliary scraper blade (5) are located the relative slip in insulated chamber (2), be equipped with control assembly (6) in insulated chamber (2), control assembly (6) are used for controlling the slip of auxiliary scraper blade (5).

5. A building energy saving roof according to claim 4, wherein: the control assembly (6) comprises a control block (61), a control rod (62) and a control piece, one end of the auxiliary scraping plate (5) is fixedly connected with the control block (61), a sliding groove (25) is formed in the inner side wall of the heat insulation chamber (2), the control block (61) is located in the sliding groove (25) and slides, the control rod (62) is rotationally connected with the groove wall of the sliding groove (25), the control rod (62) is in threaded connection with the control block (61), and the control piece is used for controlling rotation of the control rod (62).

6. A building energy saving roof according to claim 5, wherein: the control piece is a control motor (63), the control motor (63) is a forward and reverse rotation motor, a placing groove (26) is formed in the inner side wall of the heat insulation chamber (2), the placing groove (26) is communicated with the sliding groove (25), the control motor (63) is installed in the placing groove (26), and an output shaft of the control motor (63) is fixedly connected with the control rod (62) in a coaxial mode.

7. A building energy saving roof according to claim 4, wherein: the auxiliary scraping plate (5) comprises a control part (51), an auxiliary part (52) and an auxiliary piece (53), wherein the control part (51) and the auxiliary part (52) are detachably connected, the auxiliary part (52) and the auxiliary piece (53) are fixedly connected, the auxiliary piece (53) is abutted to the inner bottom wall of the heat insulation chamber (2), and the auxiliary piece (53) is made of rubber.

8. A building energy saving roof according to claim 7, wherein: the control part (51) is provided with a positioning groove (511), the auxiliary part (52) is fixedly connected with a positioning block (521), the positioning groove (511) is used for embedding the positioning block (521), the control part (51) is provided with a positioning bolt (512), and the positioning bolt (512) penetrates through the control part (51) to be in threaded connection with the auxiliary part (52).