CN117847674B - Energy-saving ventilation equipment for green building - Google Patents

Abstract

The invention relates to the technical field of energy-saving ventilation and discloses an energy-saving ventilation device for a green building, which comprises a base, wherein an outer cylinder body is fixed on the base, a plurality of air channels are formed in the outer peripheral surface of the outer cylinder body, a rotating seat is rotatably arranged at the top end of the outer cylinder body, a plurality of connecting rods are fixed on the rotating seat, and a wind cup is fixed at one end, far away from the rotating seat, of each connecting rod, and the energy-saving ventilation device further comprises: the air inducing barrel is fixed in the outer barrel, the bottom end of the air inducing barrel extends to the outside of the outer barrel, and the outer peripheral surface of the air inducing barrel is mutually attached to the inner surface of the outer barrel. According to the invention, the drying component, namely the drying box and the drying agent, is arranged in the induced air cylinder, so that moisture in the air flow can be effectively adsorbed, and when the air passes through the drying box, the drying agent adsorbs the moisture, so that the humidity in the air flow is reduced, and the indoor air humidity is prevented from being too high.

Description

Energy-saving ventilation equipment for green building

Technical Field

The invention relates to the technical field of energy-saving ventilation, in particular to energy-saving ventilation equipment for a green building.

Background

Green building ventilation devices are designed to improve building energy efficiency, reduce energy consumption and environmental impact, and these devices are intended to achieve efficient ventilation, comfortable indoor environment and minimal energy consumption.

Through retrieving, chinese patent with bulletin number CN214791698U discloses a ventilation economizer system of green building, it includes negative pressure fan, negative pressure fan is fixed in the outside of building wall, the air outlet intercommunication of negative pressure fan has the ventilation pipe, the ventilation pipe wears to locate building wall and communicates in indoor, the interior sliding connection of ventilation pipe has a plurality of deep bead, a plurality of deep bead encircle the central distribution of ventilation pipe, all be connected with the linkage subassembly between the adjacent deep bead, the linkage subassembly is used for driving a plurality of deep bead and draws close or disperse each other, above-mentioned technical scheme has the effect of the air outlet size of being convenient for adjust the ventilation pipe, but above-mentioned technical scheme still has following not enough when in actual use:

The ventilation energy-saving system of the green building provided by the technical scheme does not have the function of dehumidifying the air introduced into the room, and the dehumidifying function is very important for the ventilation energy-saving system of the green building, if the humidity in the indoor air is too high, the comfort can be reduced, people feel stuffy and uncomfortable, the high humidity can also cause the growth of mold and bacteria, so that the indoor air quality is influenced, even health problems are caused, the lack of the dehumidifying function can cause the incompleteness of the ventilation system of the green building, and the living quality of residents and the sustainability of the building are influenced.

Therefore, there is a need to design a green building energy-saving ventilation device to solve the above problems.

Disclosure of Invention

The invention aims to solve the defects in the prior art and provides green building energy-saving ventilation equipment.

In order to achieve the above purpose, the present invention adopts the following technical scheme:

The utility model provides an energy-conserving ventilation equipment of green building, includes the base, be fixed with outer barrel on the base, a plurality of wind channels have been seted up on the outer peripheral face of outer barrel, the top rotation of outer barrel is installed and is rotated the seat, it is fixed with a plurality of connecting rods to rotate on the seat, a plurality of the connecting rod is kept away from the one end of rotating the seat and all is fixed with the wind cup, still includes:

The air inducing barrel is fixed in the outer barrel, the bottom end of the air inducing barrel extends to the outside of the outer barrel, and the outer peripheral surface of the air inducing barrel is mutually attached to the inner surface of the outer barrel;

The air guide sleeve is fixed on the inner surface of the outer cylinder body;

The air inducing assembly is arranged in the outer cylinder body and is driven by the rotating seat;

the wind direction adjusting component is arranged in the outer cylinder body and is matched with the induced air component;

The drying component is arranged in the air guiding tube, the drying component is positioned below the air guiding component, and the air guiding cover is arranged opposite to the drying component;

the cleaning component is arranged in the air draft tube and is opposite to the drying component;

the air suction assembly is arranged in the air suction barrel and driven by the cleaning assembly to operate, and the air suction assembly is communicated with the cleaning assembly;

and the heating component is arranged on the drying component and is communicated with the air suction component.

As a preferred technical solution of the present invention, the air induction assembly includes:

The two fixing brackets are fixed on the inner surface of the outer cylinder body;

The first rotating shaft is rotatably arranged on the fixed support at the upper end, and the top end of the first rotating shaft is fixedly connected with the rotating seat;

the second rotating shaft is rotatably arranged on the fixed support at the lower end;

The mounting disc is fixed between the first rotating shaft and the second rotating shaft, and the first rotating shaft, the second rotating shaft and the mounting disc are coaxially arranged;

The shaft rods are rotatably arranged on the outer peripheral surface of the mounting disc, and are distributed in a circumferential array around the central position of the mounting disc;

the axial flow blades are respectively fixed at one ends of the shaft rods, which are far away from the mounting disc.

As a preferred embodiment of the present invention, the wind direction adjusting assembly includes:

the motor bracket is fixed on the second rotating shaft;

a first motor mounted on the motor bracket;

The first gear is fixedly sleeved on the output shaft of the first motor;

The rotating cylinder is rotatably sleeved on the second rotating shaft;

The second gear is fixedly sleeved on the rotating cylinder, and the first gear and the second gear are meshed with each other;

The gear ring is positioned below the mounting disc, and is coaxially arranged between the gear ring and the rotating cylinder;

The other ends of the connecting rods are fixedly connected with the gear ring;

the gear shafts are fixedly sleeved with the third gears respectively, and the third gears are meshed with the gear rings.

As a preferred embodiment of the present invention, the drying module includes:

The drying box is rotatably arranged in the air guiding cylinder through the rotating rod and comprises two side plates and a grid cylinder, both ends of the grid cylinder are of an opening structure, the two side plates are respectively fixed at both ends of the grid cylinder, and a plurality of meshes are arranged on the grid cylinder;

and a desiccant filled in the interior of the desiccant cartridge.

As a preferred embodiment of the present invention, the cleaning assembly includes:

the cleaning roller is positioned at one side of the drying box and is of a hollow structure;

the bristles are adhered to the outer peripheral surface of the cleaning roller and are contacted with the grid cylinder of the drying box;

A plurality of dust collection openings which are all arranged on the cleaning roller;

The second motor is arranged in the air guiding cylinder, the cleaning roller is fixed on an output shaft of the second motor, the cleaning roller and the output shaft of the second motor are coaxially arranged, and the output shaft of the second motor is in transmission connection with the rotating rod through a transmission piece.

As a preferred embodiment of the present invention, the air suction assembly includes:

the installation cylinder is fixed on the inner surface of the air guiding cylinder;

The driving rod penetrates through one end of the mounting cylinder and is in rotary connection with the mounting cylinder, one end of the driving rod is positioned in the mounting cylinder, the other end of the driving rod extends to the outside of the mounting cylinder, and the driving rod is in transmission connection with an output shaft of the second motor through a transmission part II;

The rotating block is fixed at one end of the driving rod, which is positioned in the mounting cylinder;

The moving block is connected to the inner surface of the mounting cylinder in a sliding manner and is positioned on one side of the rotating block;

The two sliding blocks are fixed on the moving block;

the two sliding grooves are formed in the inner surface of the mounting cylinder, and the two sliding blocks are respectively and slidably connected in the two sliding grooves;

One end of the air bag is connected with the moving block;

one end of each air pipe is communicated with the air bag;

The two check valves are respectively arranged on the two air pipes;

the dust filtering piece is arranged in the installation barrel, the other end of the air bag is connected with the dust filtering piece, one of the other ends of the air pipe is communicated with the dust filtering piece, and the dust filtering piece is communicated with the inside of the cleaning roller.

As a preferred embodiment of the present invention, the heating assembly includes:

an outer layer tube fixed inside the drying box;

an inner layer pipe fixed inside the outer layer pipe, wherein a heat-conducting medium is accumulated between the outer layer pipe and the inner layer pipe, and one end of the inner layer pipe is communicated with the other end of the other air pipe;

the electric heating wire is arranged between the outer layer pipe and the inner layer pipe and immersed in the heat conducting medium;

the air ejector is arranged below the drying box;

The air nozzles are arranged on the air ejector pipes and face the drying box;

and one end of the communicating pipe is communicated with the other end of the inner layer pipe, and the other end of the communicating pipe is communicated with the air injection pipe.

As a preferred technical scheme of the present invention, the outer cylinder is provided with a water blocking assembly, and the water blocking assembly includes:

The water retaining cylinder is sleeved on the outer cylinder body in a sliding way;

the floating bag is fixedly sleeved on the water blocking cylinder and is of an annular structure;

the limiting groove is formed in the outer peripheral surface of the outer cylinder body and is of an annular structure;

The limiting block is fixed on the inner ring of the water blocking cylinder, the limiting block is slidably connected in the limiting groove, and the limiting block is of an annular structure.

As a preferable technical scheme of the invention, the rotating block and the moving block form a cylinder structure together, the sizes of the rotating block and the moving block are the same, one ends of the rotating block and the moving block opposite to each other are provided with inclined planes, and the outer edges of the rotating block and the moving block are mutually attached to the inner surface of the mounting cylinder.

As a preferable technical scheme of the invention, the bottom end of the air guide sleeve is provided with an inward concave arc opening, the shape of the arc opening is matched with that of the drying box, and the arc opening is arranged opposite to the drying box.

The invention has the following beneficial effects:

1. the drying component, namely the drying box and the drying agent, is arranged in the induced air cylinder, so that moisture in air flow can be effectively adsorbed, and when air passes through the drying box, the drying agent adsorbs the moisture, so that the humidity in the air flow is reduced, the indoor air humidity is prevented from being too high, the indoor air quality and comfort level are improved, the indoor air humidity is kept within a proper range, the growth of mold and bacteria is prevented, the occurrence of anaphylactic reaction and respiratory diseases is reduced, and the indoor air is more fresh through dehumidification, so that a healthy living environment is created;

2. by adjusting the angle of the axial flow blades, a user can adjust the air exhaust function of the device to be an exhaust function, which means that the device can exhaust air in the indoor environment outwards when needed so as to realize the update and circulation of the air, thereby improving the indoor air quality;

3. The grid cylinder on the drying box not only has a dehumidification function, but also can serve as a filter screen for intercepting dust and impurities in air flow, which is helpful for improving indoor air quality, reducing the entry of harmful substances such as dust, pollen and bacteria, and providing a cleaner and healthy indoor environment;

4. the cleaning roller continuously brushes the peripheral surface of the drying box by rotating at the same speed with the second motor and utilizing the rotating speed difference, so that dust attached to the peripheral surface of the drying box is brushed off, the drying box is kept clean, the dust accumulation is prevented from being blocked, when the air bag is compressed, the air bag discharges dust-containing air flow into the dust filtering piece, the dust filtering piece can effectively filter dust doped in the air, the dust is prevented from entering the environment again, and meanwhile, the air filtered by the dust filtering piece finally enters the inner layer pipe, so that the dust is collected and filtered;

5. the heating assembly integrates two modes of pipe heating and air heating, when the electric heating wire is electrified, the drying agent is directly heated through the outer layer pipe, and heated air flow is sprayed towards the drying box through the air nozzle to further heat the drying agent, the multiple heating modes complement each other, the drying agent can be quickly and efficiently heated and dehydrated, the heating efficiency is improved, and the drying agent is periodically heated to evaporate water in the drying agent, so that the water absorption performance of the drying agent is recovered, the recycling of the drying agent can be realized, the service life of the drying agent is prolonged, the frequency of replacing the drying agent is reduced, and the use cost is reduced;

6. when rainwater is accumulated on the roof, the water retaining cylinder can be moved by the rising of the buoyancy bag, and the air duct is shielded by the water retaining cylinder, so that rainwater is effectively prevented from being poured into the outer cylinder body through the air duct, the waterproof effect is achieved, and the building is protected from being invaded by the rainwater.

Drawings

Fig. 1 is a schematic structural view of an energy-saving ventilation device for green buildings according to the present invention;

FIG. 2 is a schematic plan sectional view of a green building energy-saving ventilation device according to the present invention;

FIG. 3 is a diagram showing the positional relationship among a dome, a drying box, a cleaning roller and an air jet pipe of the energy-saving ventilation device for a green building;

FIG. 4 is a schematic view of a cleaning assembly;

FIG. 5 is a schematic cross-sectional structure of the drying box;

FIG. 6 is a schematic view of a mounting plate and axial flow blades;

FIG. 7 is a schematic view of a mounting plate and axial flow blades from another perspective;

FIG. 8 is a schematic perspective sectional view of a green building energy-saving ventilation device according to the present invention;

FIG. 9 is an enlarged view of the structure at A of FIG. 8;

FIG. 10 is an enlarged view of the structure at B of FIG. 6;

FIG. 11 is an enlarged view of the structure at C of FIG. 7;

FIG. 12 is an enlarged view of the structure at D of FIG. 5;

Fig. 13 is a schematic structural view of the suction assembly.

In the figure: 1. a base; 2. an outer cylinder; 3. an air duct; 4. a rotating seat; 5. a connecting rod; 6. a wind cup; 7. an air draft tube; 8. a guide cover; 91. a fixed bracket; 92. a first rotating shaft; 93. a second rotating shaft; 94. a mounting plate; 95. a shaft lever; 96. axial flow blades; 101. a motor bracket; 102. a first motor; 103. a first gear; 104. a rotating cylinder; 105. a second gear; 106. a gear ring; 107. a connecting rod; 108. a third gear; 111. a drying box; 112. a drying agent; 121. a cleaning roller; 122. brushing; 123. a dust collection port; 124. a second motor; 131. a mounting cylinder; 132. a driving rod; 133. a rotating block; 134. a moving block; 135. a slide block; 136. a chute; 137. an air bag; 138. an air pipe; 139. a one-way valve; 1310. a dust filter; 141. an outer layer tube; 142. an inner layer tube; 143. an electric heating wire; 144. a gas lance; 145. an air jet; 146. a communicating pipe; 151. a water blocking cylinder; 152. a buoyancy bag; 153. a limit groove; 154. and a limiting block.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments.

Referring to fig. 1-13, a green building energy-saving ventilation device, including base 1, be fixed with outer barrel 2 on the base 1, offered a plurality of wind channels 3 on the outer peripheral face of outer barrel 2, the top rotation of outer barrel 2 is installed and is rotated seat 4, is fixed with a plurality of connecting rods 5 on rotating seat 4, and a plurality of connecting rods 5 keep away from the one end of rotating seat 4 and all are fixed with wind cup 6, still include: the air inducing barrel 7, the air inducing barrel 7 is fixed in the outer barrel 2, the bottom end of the air inducing barrel 7 extends to the outside of the outer barrel 2, and the outer peripheral surface of the air inducing barrel 7 is mutually attached to the inner surface of the outer barrel 2; the air guide sleeve 8, the air guide sleeve 8 is fixed in the inner face of the outer cylinder 2, and the outer cylinder 2 is provided with a water retaining component. The manger plate subassembly includes: a water retaining cylinder 151, wherein the water retaining cylinder 151 is sleeved on the outer cylinder body 2 in a sliding way; the floating bag 152 is fixedly sleeved on the water retaining cylinder 151, and the floating bag 152 is of an annular structure; the limiting groove 153 is formed on the outer circumferential surface of the outer cylinder 2 (as shown in fig. 9), and the limiting groove 153 is in an annular structure; the limiting block 154, the limiting block 154 is fixed on the inner ring of the water blocking barrel 151, the limiting block 154 is slidably connected in the limiting groove 153, and the limiting block 154 is of an annular structure.

When the roof is in a ponding phenomenon in rainy days, the rising of the water level can drive the floating bag 152 to move upwards, because the floating bag 152 always floats on the water surface under the action of the floating force, the water blocking barrel 151 can be driven to move upwards when the floating bag 152 moves upwards, the water blocking barrel 151 shields a plurality of air channels 3, the water blocking barrel 151 plays a role in shielding a plurality of air channels 3 at the moment, rainwater can be prevented from being poured into the outer barrel 2 through the air channels 3, and the rainwater is prevented from being poured into a room.

Still include the induced air subassembly in the device, the induced air subassembly sets up in the inside of urceolus body 2, and the induced air subassembly is by rotating seat 4 drive, and the induced air subassembly includes: two fixing brackets 91, both fixing brackets 91 are fixed on the inner face of the outer cylinder 2; the first rotating shaft 92 is rotatably arranged on the fixed bracket 91 at the upper end, and the top end of the first rotating shaft 92 is fixedly connected with the rotating seat 4; a second rotating shaft 93 rotatably installed on the fixed bracket 91 at the lower end; the mounting plate 94, the mounting plate 94 is fixed between the first rotating shaft 92 and the second rotating shaft 93, and the first rotating shaft 92, the second rotating shaft 93 and the mounting plate 94 are coaxially arranged; the plurality of shaft rods 95 are rotatably mounted on the outer peripheral surface of the mounting disc 94, and the plurality of shaft rods 95 are distributed in a circumferential array around the central position of the mounting disc 94; the axial flow blades 96 are respectively fixed at one ends of the shaft rods 95 away from the mounting plate 94.

The rotating seat 4 drives the mounting plate 94 to rotate through the first rotating shaft 92, the plurality of axial flow blades 96 also rotate along with the rotating plate, and air suction action can be carried out when the plurality of axial flow blades 96 rotate, so that air in the external environment enters the air guiding tube 7 through the plurality of air channels 3 and finally enters the indoor environment.

Still include wind direction adjusting part in the device, wind direction adjusting part sets up in the inside of urceolus body 2, and wind direction adjusting part uses with induced air subassembly cooperation, and wind direction adjusting part includes: a motor bracket 101, the motor bracket 101 being fixed on the second rotation shaft 93; a first motor 102, the first motor 102 being mounted on the motor bracket 101; the first gear 103, the first gear 103 is fixedly sleeved on the output shaft of the first motor 102; the rotating cylinder 104 is rotatably sleeved on the second rotating shaft 93; the second gear 105 is fixedly sleeved on the rotating cylinder 104, and the first gear 103 and the second gear 105 are meshed with each other; the gear ring 106, the gear ring 106 is positioned below the mounting plate 94, and the gear ring 106 and the rotary cylinder 104 are coaxially arranged; the connecting rods 107, one ends of the connecting rods 107 are fixed on the rotating cylinder 104, and the other ends of the connecting rods 107 are fixedly connected with the gear ring 106; the third gears 108, the third gears 108 are respectively and fixedly sleeved on the shaft rods 95, and the third gears 108 are meshed with the gear rings 106.

When the first motor 102 runs, the first gear 103 and the second gear 105 which are meshed with each other can drive the rotary cylinder 104 to rotate, when the rotary cylinder 104 rotates, the gear ring 106 can be driven to rotate through the connecting rods 107, and when the gear ring 106 rotates, the gear ring 106 can drive the third gears 108 which are meshed with the gear ring to synchronously rotate, so that the shaft rods 95 can synchronously rotate, when each shaft rod 95 rotates, the corresponding axial flow blade 96 can be driven to rotate, and finally the shaft flow blades 96 can synchronously rotate. When the axial flow blades 96 are rotated 180 °, the first motor 102 is stopped, and in this case, the exhaust operation can be performed when the plurality of axial flow blades 96 are rotated, thereby realizing the wind direction adjusting function of the device.

Still include drying component in the device, drying component sets up in the inside of induced air section of thick bamboo 7, and drying component is located the below of induced air subassembly, and kuppe 8 is just to drying component setting, and drying component includes: the drying box 111 is rotatably arranged in the air guiding cylinder 7 through a rotating rod, the bottom end of the air guiding cover 8 is provided with an inward concave arc opening, the shape of the arc opening is matched with that of the drying box 111, the arc opening is opposite to the drying box 111, the drying box 111 comprises two side plates and a grid cylinder, both ends of the grid cylinder are of an opening structure, the two side plates are respectively fixed at both ends of the grid cylinder, and a plurality of meshes are arranged on the grid cylinder; desiccant 112. Desiccant 112 fills the interior of desiccant cartridge 111. The air flow can flow to the drying box 111 along the air guide sleeve 8 after entering the inside of the outer cylinder 2, and passes through the drying box 111 through a plurality of meshes on the drying box 111, in the process, the drying agent 112 in the drying box 111 can adsorb the water doped in the air flow, the effect of dehumidifying the air entering the room is achieved, the excessive high humidity of the indoor air is avoided, and the design is particularly suitable for the environment with more overcast and rainy weather.

Still include clean subassembly in the device, clean subassembly sets up in the inside of induced air section of thick bamboo 7, and clean subassembly just sets up dry subassembly, and clean subassembly includes: a cleaning roller 121, the cleaning roller 121 being located at one side of the drying box 111, the cleaning roller 121 having a hollow structure; bristles 122, the bristles 122 being adhered to the outer circumferential surface of the cleaning roller 121, and the bristles 122 being in contact with the mesh drum of the drying box 111; a plurality of dust collection openings 123, wherein the dust collection openings 123 are all arranged on the cleaning roller 121; the second motor 124, the second motor 124 is installed in the inside of dryer 7, and the cleaning roller 121 is fixed on the output shaft of second motor 124, and sets up between the output shaft of cleaning roller 121 and second motor 124 coaxial line, is connected through driving medium one transmission between the output shaft of second motor 124 and the bull stick. The second motor 124 can drive the cleaning roller 121 to rotate when running, meanwhile, the first driving part drives the drying box 111 to rotate through the driving part, the driving ratio of the first driving part is smaller than 1, the drying box 111 can rotate slowly at a rotating speed lower than that of the second motor 124, the cleaning roller 121 can rotate at the same speed with the second motor 124, a rotating speed difference exists between the cleaning roller 121 and the drying box 111, the rotating speed difference is favorable for brushing the outer peripheral surface of the drying box 111 continuously by the bristles 122 on the cleaning roller 121, dust attached to the outer peripheral surface of the drying box 111 is brushed down, and the cleaning and dredging effects on the drying box 111 are achieved.

The device also comprises an air suction component which is arranged in the air guide cylinder 7 and is driven to operate by a cleaning component, the air suction component is communicated with the cleaning component, and the air suction component comprises: a mounting tube 131, the mounting tube 131 being fixed to the inner surface of the air duct 7; the driving rod 132 penetrates through one end of the mounting cylinder 131 and is in rotary connection with the mounting cylinder 131, one end of the driving rod 132 is positioned in the mounting cylinder 131, the other end of the driving rod 132 extends to the outside of the mounting cylinder 131, and the driving rod 132 is in transmission connection with an output shaft of the second motor 124 through a transmission part II; a rotating block 133, the rotating block 133 being fixed to one end of the driving rod 132 located inside the installation cylinder 131; the movable block 134 is slidably connected to the inner surface of the mounting cylinder 131, the movable block 134 is located on one side of the rotary block 133, the rotary block 133 and the movable block 134 form a cylindrical structure together, the rotary block 133 and the movable block 134 are the same in size, inclined surfaces are arranged at the opposite ends of the rotary block 133 and the movable block 134, and the outer edges of the rotary block 133 and the movable block 134 are mutually attached to the inner surface of the mounting cylinder 131; two sliders 135, both sliders 135 being fixed to the moving block 134; the two sliding grooves 136 are formed in the inner surface of the mounting barrel 131, and the two sliding blocks 135 are respectively and slidably connected in the two sliding grooves 136; the air bag 137, one end of the air bag 137 is connected with the moving block 134, the inclined surface part of the moving block 134 can be extruded by the inclined surface part of the rotating block 133 in the rotating process, and the moving block 134 cannot rotate along with the moving block 133 under the limiting action of the two sliding blocks 135 and the two sliding grooves 136, so that the moving block 134 can move under the extrusion action of the rotating block 133, and therefore, the moving block 134 can continuously extrude the air bag 137; two air pipes 138, one ends of the two air pipes 138 are communicated with the air bag 137; two check valves 139, the two check valves 139 are respectively installed on the two air pipes 138; the dust filtering piece 1310, the dust filtering piece 1310 is installed in the installation barrel 131, the other end of the air bag 137 is connected with the dust filtering piece 1310, the other end of one air pipe 138 is communicated with the dust filtering piece 1310, the dust filtering piece 1310 is communicated with the inside of the cleaning roller 121, dust doped in gas can be filtered out of the dust filtering piece 1310, the dust can be collected, the gas filtered by the dust filtering piece 1310 can finally enter the inside of the inner layer pipe 142, the dust attached to the drying box 111 can be cleaned and collected through the design, the dust is prevented from blocking the drying box 111, and the air flow can smoothly flow through the drying box 111.

Still include heating element in the device, heating element sets up on drying component, and heating element is linked together with the subassembly of breathing in, and heating element includes: an outer layer tube 141, the outer layer tube 141 being fixed inside the drying box 111; an inner tube 142, the inner tube 142 being fixed inside the outer tube 141, a heat conductive medium being accumulated between the outer tube 141 and the inner tube 142, one end of the inner tube 142 being communicated with the other end of the other air tube 138; the electric heating wire 143, the electric heating wire 143 is placed between the outer layer tube 141 and the inner layer tube 142, and the electric heating wire 143 is immersed in the heat-conducting medium; an air lance 144, the air lance 144 being disposed below the drying box 111; the air nozzles 145 are formed in the air nozzles 144, and the air nozzles 145 are arranged towards the drying box 111; and the communicating pipes 146, one end of the communicating pipe 146 communicates with the other end of the inner layer pipe 142, and the other end of the communicating pipe 146 communicates with the gas injection pipe 144. When the electric heating wire 143 is electrified, the electric heating wire can generate heat, and heat the heat conducting medium between the outer layer pipe 141 and the inner layer pipe 142, the heat conducting medium can directly heat the drying agent 112 in the drying box 111 through the outer layer pipe 141, the heat conducting medium can also heat the air flow flowing in the inner layer pipe 142, the heated air flow can enter the air injection pipe 144 through the communicating pipe 146 and is injected towards the drying box 111 through the plurality of air injection ports 145, the high-temperature air flow injected by the plurality of air injection ports 145 can uniformly cover the drying agent 112 in the drying box 111, and the electric heating device can also heat the drying agent 112.

The specific working principle of the invention is as follows:

The energy-saving ventilation equipment for the green building provided by the invention can be arranged at a roof position, the air guide cylinder 7 extends to an indoor environment, the rotating seat 4 is provided with a plurality of air cups 6 distributed in a circumferential array, the air cups 6 can be driven by air flow and drive the rotating seat 4 to rotate, the rotating seat 4 can drive the air guide assembly to operate through the first rotating shaft 92 when rotating, the air guide assembly can perform air suction action when operating, and air in the external environment is led into the air guide cylinder 7 through the plurality of air channels 3, so that air flows enter the room through the air guide cylinder 7, and the effect of green energy-saving ventilation is realized. Specifically, wind drives through a plurality of cups 6 and rotates seat 4, rotates seat 4 and drives the mounting disc 94 through first pivot 92 and rotate, a plurality of axial flow blade 96 also can rotate thereupon, can bleed the action when a plurality of axial flow blade 96 rotate, this makes the air in the external environment get into in the induced duct 7 through a plurality of wind channels 3, and finally get into indoor environment, it is to be noted that every wind channel 3 all is the slope setting, the one end that wind channel 3 is located outer barrel 2 outer peripheral face is less than the one end that wind channel 3 is located outer barrel 2 inside, this kind of design can prevent that the rainy day rainwater from filling the inside of outer barrel 2 through wind channel 3, realize rain-proof function.

The drying component is arranged in the air guide cylinder 7 and is opposite to the air guide sleeve 8, specifically, the air flow flows to the drying box 111 along the air guide sleeve 8 after entering the inside of the outer cylinder 2, and passes through the drying box 111 through a plurality of meshes on the drying box 111, in the process, the drying agent 112 in the drying box 111 can adsorb the water doped in the air flow, the effect of dehumidifying the air entering the room is achieved, the excessive high indoor air humidity is avoided, and the design is particularly suitable for the environment with more overcast and rainy weather;

The angles of a plurality of axial flow blades 96 in the device are adjustable, and a user can adjust the air suction action of the plurality of axial flow blades 96 during rotation to be an air discharge action by adjusting the angles of the axial flow blades 96, and after adjustment, the air in the indoor environment can be discharged outwards during rotation of the plurality of axial flow blades 96. Specifically, the user starts the first motor 102, when the first motor 102 runs, the first gear 103 and the second gear 105 which are meshed with each other can drive the rotary cylinder 104 to rotate, when the rotary cylinder 104 rotates, the gear ring 106 can be driven by the connecting rods 107 to rotate, when the gear ring 106 rotates, the gear ring 106 can drive the third gears 108 which are meshed with each other to synchronously rotate, so that the shaft levers 95 can synchronously rotate, when each shaft lever 95 rotates, the corresponding axial flow blade 96 can be driven to rotate, and finally, the shaft flow blades 96 can synchronously rotate. When the axial flow blades 96 are rotated 180 °, the first motor 102 is stopped, and in this case, the exhaust operation can be performed when the plurality of axial flow blades 96 are rotated, thereby realizing the wind direction adjusting function of the device.

The mesh drum on the drying box 111 can also serve as a filter screen, and when the airflow passes through the mesh drum, the mesh drum can intercept dust doped in the airflow, the dust is prevented from entering a room, the cleaning of the mesh drum is realized by the cleaning component, and a user can clean the mesh drum regularly through the cleaning component. When cleaning, the user starts the second motor 124, the second motor 124 can drive the cleaning roller 121 to rotate when running, meanwhile, the first transmission part drives the drying box 111 to rotate, the transmission ratio of the first transmission part is smaller than 1, the drying box 111 can rotate slowly at a rotating speed lower than that of the second motor 124, the cleaning roller 121 can rotate at the same speed with the second motor 124, a rotating speed difference exists between the cleaning roller 121 and the drying box 111, the rotating speed difference is favorable for brushing the peripheral surface of the drying box 111 continuously by the bristles 122 on the cleaning roller 121, dust attached to the peripheral surface of the drying box 111 is brushed off, cleaning and dredging effects are achieved on the drying box 111, and in addition, the second motor 124 can also drive the air suction assembly to run when running.

Specifically, when the second motor 124 runs, the driving rod 132 can be driven to rotate by the second driving member, and the rotating block 133 also rotates along with the driving rod, and since the rotating block 133 and the moving block 134 jointly form a cylindrical structure, the rotating block 133 and the moving block 134 have the same size, one end of the rotating block 133 opposite to the moving block 134 is provided with an inclined surface, and the outer edges of the rotating block 133 and the moving block 134 are mutually attached to the inner surface of the mounting barrel 131, the inclined surface part of the rotating block 133 can squeeze the inclined surface part of the moving block 134 in the rotating process. Under the limiting action of the two sliding blocks 135 and the two sliding grooves 136, the moving block 134 cannot rotate along with the rotating block 133, so that the moving block 134 can move under the extrusion action of the rotating block 133, the moving block 134 can continuously extrude the air bag 137, when the moving block 134 extrudes the air bag 137, the air bag 137 can be compressed, when the moving block 134 does not extrude the air bag 137, the air bag 137 can be restored under the action of self-elasticity, and the air bag 137 can be continuously compressed and stretched, and the flow limiting directions of the two one-way valves 139 are opposite.

Specifically, one of the check valves 139 restricts air flow only into the interior of the airbag 137, and the other check valve 139 restricts air flow only out of the interior of the airbag 137. When the air bag 137 is stretched, the air bag 137 can draw air inside the cleaning roller 121, which enables the dust brushed by the bristles 122 to be absorbed by the dust suction openings 123 on the cleaning roller 121. When the air bag 137 is compressed, the air bag 137 can discharge the dust-containing air flow into the dust filter 1310, and in the process, the dust filter 1310 can filter dust doped in the air, so as to collect the dust, and the air filtered by the dust filter 1310 finally enters the inner layer pipe 142. The design can clean and collect dust attached to the drying box 111, prevent the dust from blocking the drying box 111, and ensure that air flow can smoothly flow through the drying box 111.

In addition, the drying box 111 is further provided with a heating component, and a user can regularly heat the drying agent 112 through the heating component to evaporate moisture in the drying agent 112, so that the water absorption performance of the drying agent 112 is recovered, the recycling of the drying agent 112 can be realized, and the service life of the drying agent 112 is prolonged. Specifically, the user starts the second motor 124, and simultaneously energizes the electric heating wire 143, and when the second motor 124 operates, the second driving member drives the drying box 111 to rotate slowly, so that the drying agent 112 continuously tumbles in the drying box 111. When the electric heating wire 143 is energized, heat is generated, and the heat medium between the outer tube 141 and the inner tube 142 is heated, and the heat medium can directly heat the desiccant 112 inside the drying box 111 through the outer tube 141. Since the outer tube 141 is provided inside the drying box 111, the drying agent 112 can uniformly come into direct contact with the outer tube 141 during the tumbling of the drying agent 112 following the rotation of the drying box 111, which is advantageous in that the drying agent 112 accumulated inside is dehydrated by heat.

In addition, the heat-conducting medium can also heat the air flow flowing inside the inner tube 142, according to the above principle, when the second motor 124 is operated, the air suction assembly can continuously pump the air flow into the inner tube 142, the air flow can gradually rise in temperature under the heating action of the heat-conducting medium in the process of flowing in the inner tube 142, finally, the heated air flow can enter the air injection tube 144 through the communicating tube 146 and be injected towards the drying box 111 through the plurality of air injection ports 145, the high-temperature air flow injected by the plurality of air injection ports 145 can uniformly cover the drying agent 112 inside the drying box 111, and the drying agent 112 is also heated, so that the heating assembly integrates two heating modes of tube heating and air heating, and can rapidly and efficiently perform the operation of heating and dehydrating the drying agent 112. It should be noted that, when the desiccant 112 is heated and dehydrated, the user can adjust the angles of the axial flow blades 96, so that the axial flow blades 96 can exhaust air when rotating, and the axial flow blades 96 rotate, so that the steam dissipated from the desiccant 112 can be exhausted from the outer cylinder 2 when the axial flow blades 96 rotate, the backward flow of the steam into the indoor environment is avoided, and the ventilation operation can also improve the dissipation effect of the steam.

Still be provided with the manger plate subassembly on the outer barrel 2, when the ponding phenomenon appears on the roof in the rainy day, the rising of water level can drive the flotation cell 152 and upwards move, this is because the flotation cell 152 can float on the surface of water all the time under the effect of buoyancy, can also drive the manger plate section of thick bamboo 151 and upwards move when the flotation cell 152 upwards moves for manger plate section of thick bamboo 151 shields a plurality of wind channels 3, and the manger plate section of thick bamboo 151 plays the shielding effect to a plurality of wind channels 3 this moment, can avoid the rainwater to pour into the inside of outer barrel 2 through wind channel 3, prevents that the rainwater from pouring into indoor. In addition, in the moving process of the water blocking cylinder 151, the limiting groove 153 and the limiting block 154 play a limiting role in the moving of the water blocking cylinder 151, so that the stability of the moving process of the water blocking cylinder 151 can be ensured.

The foregoing is only a preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art, who is within the scope of the present invention, should make equivalent substitutions or modifications according to the technical scheme of the present invention and the inventive concept thereof, and should be covered by the scope of the present invention.

Claims (5)

1. The utility model provides an energy-conserving ventilation equipment of green building, includes base (1), be fixed with outer barrel (2) on base (1), a plurality of wind channels (3) have been seted up on the outer peripheral face of outer barrel (2), rotation seat (4) are installed in the top rotation of outer barrel (2), be fixed with a plurality of connecting rods (5) on rotation seat (4), a plurality of the one end that rotation seat (4) was kept away from to connecting rod (5) all is fixed with wind cup (6), its characterized in that still includes:

The air inducing barrel (7), the air inducing barrel (7) is fixed in the outer barrel (2), the bottom end of the air inducing barrel (7) extends to the outside of the outer barrel (2), and the outer peripheral surface of the air inducing barrel (7) is mutually attached to the inner surface of the outer barrel (2);

the air guide sleeve (8), the air guide sleeve (8) is fixed on the inner surface of the outer cylinder body (2);

the air inducing assembly is arranged in the outer cylinder body (2) and is driven by the rotating seat (4);

The wind direction adjusting component is arranged in the outer cylinder body (2) and is matched with the air inducing component;

The drying assembly is arranged in the air guiding cylinder (7), the drying assembly is positioned below the air guiding assembly, and the air guide sleeve (8) is opposite to the drying assembly;

The cleaning component is arranged in the induced air cylinder (7) and is opposite to the drying component;

The air suction assembly is arranged in the air guide cylinder (7), is driven to operate by the cleaning assembly and is communicated with the cleaning assembly;

The heating component is arranged on the drying component and is communicated with the air suction component;

The induced draft assembly includes:

two fixing brackets (91), wherein the two fixing brackets (91) are fixed on the inner surface of the outer cylinder (2);

the first rotating shaft (92) is rotatably arranged on a fixed bracket (91) at the upper end, and the top end of the first rotating shaft (92) is fixedly connected with the rotating seat (4);

The second rotating shaft (93), the said second rotating shaft (93) is installed on fixed support (91) of the lower end rotatably;

The mounting disc (94), the mounting disc (94) is fixed between the first rotating shaft (92) and the second rotating shaft (93), and the first rotating shaft (92), the second rotating shaft (93) and the mounting disc (94) are coaxially arranged;

The shaft rods (95) are rotatably arranged on the outer peripheral surface of the mounting disc (94), and the shaft rods (95) are distributed in a circumferential array around the central position of the mounting disc (94);

The axial flow blades (96), the axial flow blades (96) are respectively fixed at one ends of the shaft rods (95) far away from the mounting disc (94);

The wind direction adjustment assembly includes:

a motor bracket (101), wherein the motor bracket (101) is fixed on the second rotating shaft (93);

A first motor (102), the first motor (102) being mounted on a motor mount (101);

the first gear (103) is fixedly sleeved on the output shaft of the first motor (102);

a rotating cylinder (104), wherein the rotating cylinder (104) is rotatably sleeved on the second rotating shaft (93);

The second gear (105) is fixedly sleeved on the rotating cylinder (104), and the first gear (103) and the second gear (105) are meshed with each other;

the gear ring (106) is positioned below the mounting disc (94), and the gear ring (106) and the rotating cylinder (104) are coaxially arranged;

One end of each connecting rod (107) is fixed on the rotating cylinder (104), and the other end of each connecting rod (107) is fixedly connected with the gear ring (106);

the plurality of third gears (108) are respectively fixedly sleeved on the plurality of shaft rods (95), and the plurality of third gears (108) are meshed with the gear rings (106);

The drying assembly includes:

the drying box (111), the drying box (111) is installed in the air draft tube (7) through the rotation of the bull stick, the drying box (111) includes two curb plates and net section of thick bamboo, the both ends of net section of thick bamboo all are open-ended structure, two the curb plate is fixed respectively at the both ends of net section of thick bamboo, be provided with a plurality of meshes on the net section of thick bamboo;

A desiccant (112), the desiccant (112) being filled inside the desiccant cartridge (111);

The cleaning assembly includes:

a cleaning roller (121), wherein the cleaning roller (121) is positioned at one side of the drying box (111), and the cleaning roller (121) is in a hollow structure;

bristles (122), wherein the bristles (122) are adhered to the outer circumferential surface of the cleaning roller (121), and the bristles (122) are in contact with the grid cylinder of the drying box (111);

A plurality of dust collection openings (123), wherein the dust collection openings (123) are all arranged on the cleaning roller (121);

The second motor (124), the said second motor (124) is installed in the inside of the induced draft tube (7), the said cleaning roller (121) is fixed on output shaft of the second motor (124), and set up coaxially between output shaft of the second motor (124) and the cleaning roller (121), connect through transmission of the transmission part one between output shaft and turning rod of the said second motor (124);

the aspirator assembly includes:

a mounting cylinder (131), wherein the mounting cylinder (131) is fixed on the inner surface of the air guiding cylinder (7);

the driving rod (132) penetrates through one end of the mounting cylinder (131) and is in rotary connection with the mounting cylinder (131), one end of the driving rod (132) is positioned in the mounting cylinder (131), the other end of the driving rod extends to the outside of the mounting cylinder (131), and the driving rod (132) is in transmission connection with an output shaft of the second motor (124) through a transmission part II;

a rotating block (133), wherein the rotating block (133) is fixed at one end of the driving rod (132) positioned in the mounting cylinder (131);

a moving block (134), wherein the moving block (134) is slidably connected to the inner surface of the mounting cylinder (131), and the moving block (134) is positioned at one side of the rotating block (133);

two sliding blocks (135), wherein both sliding blocks (135) are fixed on the moving block (134);

The two sliding grooves (136), the two sliding grooves (136) are formed in the inner surface of the mounting cylinder (131), and the two sliding blocks (135) are respectively and slidably connected in the two sliding grooves (136);

An air bag (137), wherein one end of the air bag (137) is connected with the moving block (134);

Two air pipes (138), one end of each air pipe (138) is communicated with the air bag (137);

Two one-way valves (139), the two one-way valves (139) are respectively arranged on the two air pipes (138);

The dust filtering piece (1310), the dust filtering piece (1310) is installed in the installation barrel (131), the other end of the air bag (137) is connected with the dust filtering piece (1310), one of the other ends of the air pipes (138) is communicated with the dust filtering piece (1310), and the dust filtering piece (1310) is communicated with the inside of the cleaning roller (121).

2. The green building energy saving ventilation apparatus of claim 1, wherein the heating assembly comprises:

an outer layer tube (141), the outer layer tube (141) being fixed inside the drying box (111);

an inner tube (142), wherein the inner tube (142) is fixed inside the outer tube (141), a heat-conducting medium is accumulated between the outer tube (141) and the inner tube (142), and one end of the inner tube (142) is communicated with the other end of the other air tube (138);

an electric heating wire (143), the electric heating wire (143) is arranged between the outer layer pipe (141) and the inner layer pipe (142), and the electric heating wire (143) is immersed in the heat conducting medium;

an air lance (144), the air lance (144) being disposed below the drying box (111);

The air nozzles (145) are formed in the air nozzles (144), and the air nozzles (145) are arranged towards the drying box (111);

and one end of the communicating pipe (146) is communicated with the other end of the inner layer pipe (142), and the other end of the communicating pipe (146) is communicated with the air injection pipe (144).

3. The green building energy-saving ventilation device according to claim 1, characterized in that the outer cylinder (2) is provided with a water blocking assembly comprising:

A water blocking cylinder (151), wherein the water blocking cylinder (151) is sleeved on the outer cylinder body (2) in a sliding way;

The floating bag (152) is fixedly sleeved on the water retaining cylinder (151), and the floating bag (152) is of an annular structure;

The limiting groove (153) is formed in the outer circumferential surface of the outer cylinder body (2), and the limiting groove (153) is of an annular structure;

The limiting block (154), the limiting block (154) is fixed on the inner ring of the water blocking barrel (151), the limiting block (154) is connected in the limiting groove (153) in a sliding mode, and the limiting block (154) is of an annular structure.

4. The green building energy-saving ventilation device according to claim 1, wherein the rotating block (133) and the moving block (134) together form a cylindrical structure, the rotating block (133) and the moving block (134) are the same in size, one ends of the rotating block (133) and the moving block (134) opposite to each other are provided with inclined planes, and the outer edges of the rotating block (133) and the moving block (134) are mutually attached to the inner face of the mounting cylinder (131).

5. The green building energy-saving ventilation device according to claim 1, wherein the bottom end of the air guide sleeve (8) is provided with an inward concave arc opening, the shape of the arc opening is matched with that of the drying box (111), and the arc opening is opposite to the drying box (111).