CN218972829U - Energy-saving ventilation structure for building design - Google Patents

Abstract

The utility model discloses an energy-saving ventilation structure for building design, which comprises an air exchange pipe, a filtering mechanism and an ash removing mechanism, wherein the filtering mechanism is arranged on the inner side of the air exchange pipe, and the ash removing mechanism is arranged on the top of the filtering mechanism. This building design energy-conserving ventilation structure through all installing filtering mechanism and deashing mechanism at the inside of changing the tuber pipe, because the toper cartridge filter only is provided with the one deck, consequently when taking place slight jam, the air mass flow can not take place the multilayer to block up, guarantee normal flow, simultaneously through the suction of the fan of bleeding, the air of quick circulation can drive fan and a plurality of and scrape the pole and rotate, thereby scrape the dust on toper cartridge filter surface and scatter, the toper face of toper cartridge filter can make the quick velocity of wind slope of part downwards will scrape the dust of scattering and pass through the inside of wind-guiding mouth discharge change tuber pipe simultaneously, last the dust clearance on toper cartridge filter surface.

Description

Energy-saving ventilation structure for building design

Technical Field

The utility model relates to the technical field of building design, in particular to an energy-saving ventilation structure for building design.

Background

Ventilation, also known as ventilation, is a mechanical or natural method of supplying enough fresh air to the indoor space and simultaneously exhausting dirty air which does not meet the sanitary requirements in the room, so that the indoor air meets the sanitary requirements and the production process. All facilities for completing ventilation work in a building are collectively called ventilation equipment, however, most of the current ventilation equipment is provided with a ventilation fan on a wall body through an opening, the ventilation fan can suck outside air into a room for ventilation, but because of the current industrial and environmental pollution, haze and a large amount of dust and particle impurities exist in the air, if only unfiltered air is sucked into the room, people can directly suck the air to damage human bodies, and the prior patent documents improve the ventilation equipment.

Like chinese patent CN215570987U, building design energy-saving ventilation structure, including wall body and gas collecting tank, set up the mounting groove that runs through and set up on the wall body, the mounting inslot can be dismantled and be connected with the gas collecting tank, the front end of gas collecting tank is equipped with the air intake, the inner chamber of gas collecting tank and be located one side swing joint of air intake have first filter screen, the inner chamber of gas collecting tank and be close to one side fixedly connected with linking bridge of air intake, and one side of linking bridge is equipped with the fan, fan electric intercommunication external power source and control switch, the inner chamber intermediate position of gas collecting tank just is located the rear side of linking bridge and can dismantle and be connected with the filter layer, the rear end of gas collecting tank is equipped with the air outlet, the inner chamber of gas collecting tank just be located one side swing joint of air outlet has the second filter screen, the gas collecting tank of the utility model can filter the dust in the inflow air, and filter layer convenient to dismantle and change, avoid the dust to block up the filter layer, the practicality is good.

The above patent, although provided with two filters for filtering the inflowing air, allows clean air to enter the room and the filters can be detached to avoid dust blockage, has many drawbacks in practical use and is not improved, such as:

1. although two filter screens are arranged, the two filter screens have the same filter function, so that dust is filtered when the first filter screen is used, the second filter screen is not used, the ventilation quantity of the first filter screen is reduced after the first filter screen is blocked, and the ventilation effect is greatly reduced when the first filter screen is blocked through the second filter screen, so that the blocking performance of ventilation is multiplied as long as the first filter screen is slightly blocked, and the ventilation efficiency is influenced

2. Meanwhile, after the filter screen additionally arranged is blocked, the filter screen needs to be passively replaced and cleaned, the overall replacement frequency is determined according to the environment and the air quality, the shorter the service life of the air quality is, the more bad the air quality is, the more complicated degree is increased due to frequent replacement, and meanwhile, the cost is wasted.

Disclosure of Invention

Aiming at the defects of the prior art, the utility model provides an energy-saving ventilation structure for building design, which solves the problems that the current equipment is provided with two filter screens, which block the air flow and are influenced by the environment and have short service life.

In order to achieve the above purpose, the utility model is realized by the following technical scheme: the energy-saving ventilation structure for the building design comprises an air exchange pipe, a filtering mechanism and an ash removing mechanism, wherein the filtering mechanism is arranged on the inner side of the air exchange pipe, and the ash removing mechanism is arranged on the top of the filtering mechanism.

Preferably, the lower part fixedly connected with screw thread frame of trade tuber pipe inner wall, filtering mechanism includes the screwed ring, screwed ring screw thread installs in the inboard of screw thread frame, the top fixedly connected with of screwed ring and trade the toper cartridge filter that the tuber pipe cooperatees and use, trade the lower part of tuber pipe inner wall offered the wind guide mouth that cooperatees with toper cartridge filter and use, and the wind guide mouth runs through the tuber pipe and extends to outside.

Preferably, the lower part fixedly connected with of toper cartridge filter inner wall twists the frame, the bottom fixedly connected with driving box of twisting the frame, the bottom fixedly connected with motor of driving box inner chamber, the output shaft of motor passes through shaft coupling fixedly connected with dwang, the top of dwang runs through driving box in proper order and twists the frame and extends to the inside of toper cartridge filter, the dwang extends to the inside one end fixedly connected with exhaust fan of toper cartridge filter.

Preferably, the ash removal mechanism comprises a multi-surface rod which is rotatably mounted on the top of the conical filter cartridge through a bearing member.

Preferably, the top fixedly connected with fan of multiaspect pole, the surface fixedly connected with of multiaspect pole is scraped the pole with the cooperation of toper cartridge filter and is used, and scrape the pole and be annular equidistance and be provided with a plurality of.

Preferably, the surface fixedly connected with of the air exchange pipe is with the induced air frame that cooperatees with the wind guide mouth and induced air frame is annular equidistance and is provided with a plurality of.

Advantageous effects

The utility model provides an energy-saving ventilation structure for building design. Compared with the prior art, the method has the following beneficial effects:

(1) This building design energy-conserving ventilation structure through all installing filtering mechanism and deashing mechanism at the inside of trading the tuber pipe, because the toper cartridge filter only is provided with the one deck, consequently when taking place slight jam, the air mass flow can not take place the multilayer to block up, guarantee normal flow, simultaneously through the suction of the fan of bleeding, the air of quick circulation can drive fan and a plurality of and scrape the pole and rotate, thereby scrape the dust on toper cartridge filter surface and scatter, the toper face of toper cartridge filter can make the quick velocity of wind slope of part downwards will scrape the dust of scattering and pass through the inside of wind-guiding mouth discharge and trade the tuber pipe, keep on carrying out the dust clearance on toper cartridge filter surface, reduce the influence of environment, effectively prolong the life of toper cartridge filter and shorten the change frequency, reduce filtering cost.

(2) This building design energy-conserving ventilation structure through the internally mounted at the trade tuber pipe has the screw thread frame, and filtering mechanism and deashing mechanism be connected, and filtering mechanism carries out threaded connection through screw thread ring and screw thread frame simultaneously, and the setting of this structure can be through rotatory frame of twisting with filtering mechanism and deashing mechanism wholly demolishs, and the convenience is followed and is maintained and clear up, avoids loaded down with trivial details spare and accessory to demolish the process, is satisfied with current use.

Drawings

FIG. 1 is a schematic diagram of the structure of the present utility model;

FIG. 2 is a cross-sectional view of the construction of the ventilation tube and filter mechanism of the present utility model;

FIG. 3 is a schematic view of the structure of the filtering mechanism and ash removal mechanism of the present utility model;

FIG. 4 is a schematic view of the structure of the screw ring, screw rack and fan of the present utility model;

fig. 5 is a cross-sectional view of the structure of the drive housing of the present utility model.

In the figure: 1. an air exchanging pipe; 2. a filtering mechanism; 3. an ash removing mechanism; 4. a thread frame; 201. a threaded ring; 202. a conical filter cartridge; 203. an induced draft frame; 204. an air guide port; 205. twisting the frame; 206. a drive box; 207. a motor; 208. a rotating lever; 209. an air extraction fan; 301. a multi-faceted rod; 302. a fan; 303. a scraping rod.

Detailed Description

The following description of the embodiments of the present utility model 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 utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1-5, the present utility model provides a technical solution: the energy-saving ventilation structure for the building design comprises an air exchange pipe 1, a filtering mechanism 2 and an ash removing mechanism 3, wherein the filtering mechanism 2 is arranged on the inner side of the air exchange pipe 1, and the ash removing mechanism 3 is arranged on the top of the filtering mechanism 2.

As an alternative embodiment, in order to discharge accumulated dust particles out of the ventilation pipe 1, the lower part of the inner wall of the ventilation pipe 1 is fixedly connected with a thread frame 4, the filtering mechanism 2 comprises a thread ring 201, the thread ring 201 is installed on the inner side of the thread frame 4 in a thread way, the top of the thread ring 201 is fixedly connected with a conical filter cylinder 202 matched with the ventilation pipe 1, the lower part of the inner wall of the ventilation pipe 1 is provided with an air guide 204 matched with the conical filter cylinder 202, the air guide 204 penetrates through the ventilation pipe 1 and extends to the outside, the surface of the ventilation pipe 1 is fixedly connected with an air guide frame 203 matched with the air guide 204, and the air guide frame 203 is provided with a plurality of air guides at equal intervals in a ring shape.

Further, in order to be able to draw outside air into the room and increase the air flow rate, the lower part fixedly connected with of toper cartridge filter 202 inner wall is twisted the frame 205, twist the bottom fixedly connected with driving box 206 of frame 205, the bottom fixedly connected with motor 207 of driving box 206 inner chamber, motor 207 is servo motor, the output shaft of motor 207 passes through shaft coupling fixedly connected with dwang 208, the top of dwang 208 runs through driving box 206 and twists the frame 205 in proper order and extends to the inside of toper cartridge filter 202, the one end that dwang 208 extends to the inside of toper cartridge filter 202 fixedly connected with air exhaust fan 209.

Wherein, in order to break up the dust on toper cartridge filter 202 surface, ash removal mechanism 3 includes multiaspect pole 301, and multiaspect pole 301 passes through the bearing piece rotation and installs in the top of toper cartridge filter 202, and the top fixedly connected with fan 302 of multiaspect pole 301, the surface fixedly connected with of multiaspect pole 301 and the scraper 303 of toper cartridge filter 202 matched with use, scraper 303 is the whole light of aluminum product wave plate, and scraper 303 is annular equidistance and is provided with a plurality of.

And all that is not described in detail in this specification is well known to those skilled in the art.

When the air exchange tube 1 is used, firstly, the air exchange tube 1 is installed in a wall body, then, the conical filter tube 202 is fixed in the air exchange tube 1 through threaded connection between the threaded ring 201 and the threaded frame 4, the motor 207 is started when ventilation is carried out, the motor 207 drives the air suction fan 209 to rotate through the rotating rod 208, air outside is sucked after the air suction fan 209 rotates, dust and particulate matters doped in the air can be filtered by the conical filter tube 202 when the air outside enters the air exchange tube 1, finally, clean air enters a room, in the process, because the air outside is sucked in by the air suction fan 209, the self-flowing wave speed is relatively high, the fan 302 can be driven to rotate when the air passes through the fan 302, a plurality of scraping rods 303 scrape the surface of the conical filter tube 202, dust particles on the surface of the conical filter tube 202 are scraped, part of the flowing air can drive the dust to be discharged from the air guide port 204 through the conical surface of the conical filter tube 202, and the purpose of self-cleaning is achieved.

Although embodiments of the present utility model have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. The energy-conserving ventilation structure of architectural design, including trading tuber pipe (1), filtering mechanism (2) and deashing mechanism (3), its characterized in that: the filter mechanism (2) is arranged on the inner side of the air exchanging pipe (1), and the ash removing mechanism (3) is arranged on the top of the filter mechanism (2).

2. The architectural design energy efficient ventilation structure of claim 1, wherein: the lower part fixedly connected with screw thread frame (4) of trade tuber pipe (1) inner wall, filtering mechanism (2) are including screwed ring (201), screwed ring (201) screw thread installs in the inboard of screwed ring (4), the top fixedly connected with of screwed ring (201) is with trade toper cartridge filter (202) that tuber pipe (1) matched with used, trade wind guide (204) that tuber pipe (1) inner wall's lower part offered and cooperated with toper cartridge filter (202) used, and wind guide (204) run through trade tuber pipe (1) and extend to outside.

3. The architectural design energy efficient ventilation structure of claim 2, wherein: the lower part fixedly connected with of toper cartridge filter (202) inner wall twists frame (205), the bottom fixedly connected with driving box (206) of twisting frame (205), the bottom fixedly connected with motor (207) of driving box (206) inner chamber, the output shaft of motor (207) passes through shaft coupling fixedly connected with dwang (208), the top of dwang (208) runs through driving box (206) in proper order and twists frame (205) and extends to the inside of toper cartridge filter (202), the one end fixedly connected with fan (209) that dwang (208) extend to the inside of toper cartridge filter (202).

4. The architectural design energy efficient ventilation structure of claim 2, wherein: the ash cleaning mechanism (3) comprises a multi-surface rod (301), and the multi-surface rod (301) is rotatably arranged at the top of the conical filter cartridge (202) through a bearing piece.

5. The architectural design energy efficient ventilation structure of claim 4, wherein: the top fixedly connected with fan (302) of multiaspect pole (301), the surface fixedly connected with of multiaspect pole (301) is with scraping rod (303) of conical filter cartridge (202) cooperation use, and scraping rod (303) are annular equidistance and are provided with a plurality of.

6. The architectural design energy efficient ventilation structure of claim 2, wherein: the surface of the air exchange pipe (1) is fixedly connected with an air inducing frame (203) which is matched with the air guide port (204), and the air inducing frames (203) are in annular equidistant arrangement.

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