CN219454151U - Energy-saving ventilation structure for building design - Google Patents

Abstract

The utility model provides an energy-saving ventilation structure for building design, which comprises a ventilation pipe and an adjusting structure, wherein the adjusting structure comprises an air outlet, a connecting rod, a baffle, a first gear, a protective cover, a second connecting shaft, a second gear and a second driving motor, and a filtering mechanism is connected to the inner side of one end of the ventilation pipe in a sliding manner. This building design is with energy-conserving ventilation structure, through the air outlet, the connecting rod, the baffle, first gear, the protection casing, the second connecting axle, the setting of second gear and second driving motor, when using, drive the second gear of second connecting axle outer lane through second driving motor and rotate, the connecting rod that the second gear can drive first gear one end simultaneously carries out the switching, the connecting rod drives the baffle and rotates in the one end of air outlet, the size of air outlet is controlled through the rotation of baffle, when need not ventilating simultaneously, can rotate the baffle to closed state, can prevent that the dust from getting into from outside, can also reduce noise simultaneously.

Description

Energy-saving ventilation structure for building design

Technical Field

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

Background

In the aspect of building design, in order to guarantee the ventilation of inside and outside of building, generally all can install the ventilation passageway that link up inside and outside on the wall body, have the fan to drive the air flow, keep the good ventilation in the building, and the ventilation structure is at present all directly constituteed by pipeline and fan basically, simple structure, but when ventilating, still can bring in or take out the dust and cause air pollution, simultaneously because the vent is outdoor, outdoor noise or rainwater weather, cause the influence to the building indoor through the pipeline easily to influence the holistic result of use of building, therefore, especially, need a building design with energy-conserving ventilation structure.

But current architectural design is with energy-conserving ventilation structure, in the use, most ventilation structure's vent department all carries out fixed mounting with baffle or tripe fan, can't adjust, just so make the vent when not needing the ventilation, lack the leakproofness, can ponding in the rainwater weather pipeline when meetting, outdoor noise also can transmit indoor simultaneously.

To solve the above-mentioned problem, through retrieving, the patent with bulletin number CN217737427U discloses an energy-saving ventilation structure for architectural design, propose "install the framework in the vent of external wall body at first, make the outer wall of framework and the vent sealing installation of external wall body, when needing the ventilation, pull the slide bar forward, the slide bar drives the link frame and moves forward, the link frame passes through connecting rod and slider forward promotion triangle shaped board, when the triangle shaped board uses articulated department as the pivoted in-process, the slider slides along the sliding groove, can control four triangle shaped board pivoted angles through the distance that control slide bar forward slid, and then realize controlling the opening size of vent, make the control to the aperture of vent more accurate, be convenient for simultaneously opening and closing of vent, and the leakproofness is better", although carry out the opening closure control of vent through the mode of pulling the slide bar, generally manual mode control is very troublesome, and opening at every time is the manual regulation all, can take more time.

In view of the above, intensive studies have been conducted to solve the above problems.

Disclosure of Invention

The utility model aims to provide an energy-saving ventilation structure for building design, which solves the problems that in the prior art, the energy-saving ventilation structure for building design is provided, but in the use process, most ventilation openings of the energy-saving ventilation structure are fixedly provided with baffle plates or shutter fans, and the adjustment cannot be carried out, so that the ventilation openings lack tightness when ventilation is not needed, water can be accumulated in rainwater weather pipelines, and outdoor noise can be transmitted to the indoor space.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides an energy-conserving ventilation structure is used in architectural design, includes ventilation pipe and regulation structure, regulation structure includes air outlet, connecting rod, baffle, first gear, protection casing, second connecting axle, second gear and second driving motor, the inboard sliding connection of one end of ventilation pipe has filtering mechanism, the inner wall one side fixed mounting of ventilation pipe has ventilation mechanism, the one end fixed mounting of ventilation pipe has regulation structure.

Preferably, the filtering mechanism comprises a limit groove, a filter screen and a flip cover, wherein the limit groove is formed in the surface of the inner wall of the ventilation pipe, one end of the limit groove is slidably connected with the filter screen, and the flip cover is hinged to one side of the outer wall of the ventilation pipe.

Preferably, the filter screen forms a sliding structure through the limit groove and the ventilation pipe, and one side of the flip is tightly attached to one side of the filter screen.

Preferably, the ventilation mechanism comprises a fixed frame, a fixed support, a first driving motor, a first connecting shaft and fan blades, wherein the fixed frame is fixedly installed on one side of the inner wall of the ventilation pipe, the fixed support is welded on the surface of the inner wall of the fixed frame, the first driving motor is fixedly installed on one side of the fixed support, one end of the first driving motor is connected with the first connecting shaft, and the fan blades are fixedly installed on the outer ring of the first connecting shaft.

Preferably, the fan blade forms a rotating structure through the first connecting shaft and the first driving motor, and the fan blade and the filter screen are symmetrically arranged.

Preferably, the adjusting structure comprises an air outlet, a connecting rod, a baffle, a first gear, a protective cover, a second connecting shaft, a second gear and a second driving motor, wherein the air outlet is formed in one end of the ventilating pipe, the connecting rod penetrates through one side of the air outlet, the baffle is fixedly arranged at one end of the connecting rod in a penetrating mode, the first gear is fixedly connected with one end of the connecting rod, the protective cover is fixedly arranged on one side of the air outlet, the second connecting shaft is connected with an inner bearing of the protective cover, the second gear is fixedly sleeved at one end of the second connecting shaft, and the second driving motor is connected with one end of the second connecting shaft.

Preferably, the second gear is meshed with the first gear, and the second gear and the second driving motor form a rotating structure through a second connecting shaft.

Compared with the prior art, the utility model has the beneficial effects that: this building design is with energy-conserving ventilation structure, through the air outlet, the connecting rod, the baffle, first gear, the protection casing, the second connecting axle, the setting of second gear and second driving motor, when using, drive the second gear of second connecting axle outer lane through the second driving motor and rotate, the connecting rod of first gear one end is driven to the second gear simultaneously and is switched, the connecting rod drives the baffle and rotates in the one end of air outlet, the size of air outlet is controlled through the rotation of baffle, when need not ventilating simultaneously, can rotate the baffle to closed state, make the air outlet keep a confined state, can effectually mode dust get into from outside, noise can also be reduced simultaneously.

Drawings

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

FIG. 2 is a schematic diagram of a filtering mechanism according to the present utility model;

FIG. 3 is a schematic view of the ventilation mechanism of the present utility model;

fig. 4 is a schematic structural diagram of an adjusting structure of the present utility model.

In the figure: 1. a ventilation pipe; 2. a filtering mechanism; 201. a limit groove; 202. a filter screen; 203. a flip cover; 3. a ventilation mechanism; 301. a fixed frame; 302. a fixed bracket; 303. a first driving motor; 304. a first connecting shaft; 305. a fan blade; 4. an adjustment structure; 401. an air outlet; 402. a connecting rod; 403. a baffle; 404. a first gear; 405. a protective cover; 406. a second connecting shaft; 407. a second gear; 408. and a second driving motor.

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. 1-4, the present utility model provides a technical solution: the utility model provides an energy-conserving ventilation structure is used in architectural design, includes ventilation pipe 1 and regulation structure 4, and regulation structure 4 includes air outlet 401, connecting rod 402, baffle 403, first gear 404, protection casing 405, second connecting axle 406, second gear 407 and second driving motor 408, and the inboard sliding connection of one end of ventilation pipe 1 has filtering mechanism 2, and the inner wall one side fixed mounting of ventilation pipe 1 has ventilation mechanism 3, and the one end fixed mounting of ventilation pipe 1 has regulation structure 4.

Further, the filter mechanism 2 comprises a limit groove 201, a filter screen 202 and a flip 203, the limit groove 201 is formed in the inner wall surface of the ventilation pipe 1, the filter screen 202 is slidably connected to one end of the limit groove 201, the flip 203 is hinged to one side of the outer wall of the ventilation pipe 1, the flip 203 can be opened through the arrangement of the limit groove 201, the filter screen 202 and the flip 203, then the filter screen 202 is sequentially slidably put into the one end of the limit groove 201, and then the flip 203 is closed to squeeze one side of the filter screen 202, so that the filter screen 202 is kept stable, and meanwhile, the filter screen 202 can be quickly replaced by opening the flip 203.

Further, the filter screen 202 forms a sliding structure through the limiting groove 201 and the ventilation pipe 1, one side of the flip 203 is tightly attached to one side of the filter screen 202, and the dust in the air can be effectively filtered through the structure of the multiple layers of filter screens 202 due to the arrangement of the filter screens 202.

Further, the ventilation mechanism 3 includes a fixed frame 301, a fixed bracket 302, a first driving motor 303, a first connecting shaft 304 and a fan blade 305, the fixed frame 301 is fixedly installed on one side of the inner wall of the ventilation pipe 1, the fixed bracket 302 is welded on the inner wall surface of the fixed frame 301, the first driving motor 303 is fixedly installed on one side of the fixed bracket 302, one end of the first driving motor 303 is connected with the first connecting shaft 304, the fan blade 305 is fixedly installed on the outer ring of the first connecting shaft 304, and in use, the fixed frame 301 can be installed at one end of the ventilation pipe 1 through the fixed bracket 302, then the first driving motor 303 is installed on the inner ring of the fixed frame 301, the first connecting shaft 304 and the fan blade 305 are installed at one end of the first driving motor 303, and air is driven to flow through rotation of the fan blade 305.

Further, the fan blade 305 forms a rotating structure through the first connecting shaft 304 and the first driving motor 303, the fan blade 305 and the filter screen 202 are symmetrically arranged, and through the arrangement of the fan blade 305, the air flow can be accelerated, and the ventilation effect is increased.

Further, the adjusting structure 4 comprises an air outlet 401, a connecting rod 402, a baffle 403, a first gear 404, a protective cover 405, a second connecting shaft 406, a second gear 407 and a second driving motor 408, wherein one end of the ventilation pipe 1 is provided with the air outlet 401, one side of the air outlet 401 is penetrated with the connecting rod 402, one end of the connecting rod 402 is penetrated and fixed with the baffle 403, one end of the connecting rod 402 is fixedly connected with the first gear 404, one side of the air outlet 401 is fixedly provided with the protective cover 405, the inner bearing of the protective cover 405 is connected with the second connecting shaft 406, one end of the second connecting shaft 406 is fixedly sleeved with the second gear 407, one end of the second connecting shaft 406 is connected with the second driving motor 408, through the setting of air outlet 401, connecting rod 402, baffle 403, first gear 404, protection casing 405, second connecting axle 406, second gear 407 and second driving motor 408, drive the second gear 407 of second connecting axle 406 outer lane through second driving motor 408 and rotate, simultaneously second gear 407 can drive connecting rod 402 of first gear 404 one end and carry out the switching, connecting rod 402 drives baffle 403 and rotates in the one end of air outlet 401, the opening size of air outlet 401 is controlled through the rotation of baffle 403, simultaneously when not needing to carry out the ventilation, can rotate the baffle 403 to closed state, make air outlet 401 keep a confined state, can effectually prevent that the dust from getting into from the outside, simultaneously still can reduce the noise.

Further, the second gear 407 is engaged with the first gear 404, the second gear 407 forms a rotating structure with the second driving motor 408 through the second connecting shaft 406, and the synchronous movement of the plurality of baffles 403 can be realized through the arrangement of the first gear 404 and the second gear 407.

Working principle: firstly, the flip 203 is opened, then the filter screen 202 is put into the flip 203 by sliding in sequence from one end of the limit groove 201, then the flip 203 is closed to squeeze one side of the filter screen 202, so that the filter screen 202 is kept stable, then the fixed frame 301 is arranged at one end of the ventilation pipe 1, then the first driving motor 303 is arranged at the inner ring of the fixed frame 301 through the fixed bracket 302, secondly, the first connecting shaft 304 and the fan blade 305 are arranged at one end of the first driving motor 303, air flow is driven by rotation of the fan blade 305, secondly, the second gear 407 on the outer ring of the second connecting shaft 406 is driven by the second driving motor 408, meanwhile, the second gear 407 drives the connecting rod 402 at one end of the first gear 404 to transfer, the connecting rod 402 drives the baffle 403 to rotate at one end of the air outlet 401, the opening size of the air outlet 401 is controlled by rotation of the baffle 403, meanwhile, the baffle 403 can be rotated to a closed state when ventilation is not needed, the air outlet 401 is kept in a closed state, dust can be effectively prevented from entering from the outside, and thus the energy-saving ventilation structure for building design is completed.

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 (7)

1. The utility model provides an energy-conserving ventilation structure is used in architectural design, includes ventilation pipe (1) and regulation structure (4), its characterized in that: the utility model discloses a ventilation pipe, including ventilation pipe (1), regulation structure (4), including air outlet (401), connecting rod (402), baffle (403), first gear (404), protection casing (405), second connecting axle (406), second gear (407) and second driving motor (408), the inboard sliding connection of one end of ventilation pipe (1) has filtering mechanism (2), inner wall one side fixed mounting of ventilation pipe (1) has ventilation mechanism (3), one end fixed mounting of ventilation pipe (1) has regulation structure (4).

2. The energy-saving ventilation structure for building design according to claim 1, wherein the filtering mechanism (2) comprises a limit groove (201), a filter screen (202) and a flip (203), the limit groove (201) is formed in the inner wall surface of the ventilation pipe (1), one end of the limit groove (201) is slidably connected with the filter screen (202), and one side of the outer wall of the ventilation pipe (1) is hinged with the flip (203).

3. The energy-saving ventilation structure for building design according to claim 2, wherein the filter screen (202) forms a sliding structure through the limit groove (201) and the ventilation pipe (1), and one side of the flip cover (203) is tightly attached to one side of the filter screen (202).

4. The energy-saving ventilation structure for building design according to claim 1, wherein the ventilation mechanism (3) comprises a fixed frame (301), a fixed bracket (302), a first driving motor (303), a first connecting shaft (304) and fan blades (305), the fixed frame (301) is fixedly arranged on one side of the inner wall of the ventilation pipe (1), the fixed bracket (302) is welded on the surface of the inner wall of the fixed frame (301), the first driving motor (303) is fixedly arranged on one side of the fixed bracket (302), one end of the first driving motor (303) is connected with the first connecting shaft (304), and the fan blades (305) are fixedly arranged on the outer ring of the first connecting shaft (304).

5. The energy-saving ventilation structure for architectural design according to claim 4, wherein the fan blade (305) forms a rotating structure through the first connecting shaft (304) and the first driving motor (303), and the fan blade (305) and the filter screen (202) are symmetrically arranged.

6. The energy-saving ventilation structure for building design according to claim 1, wherein the adjusting structure (4) comprises an air outlet (401), a connecting rod (402), a baffle (403), a first gear (404), a protective cover (405), a second connecting shaft (406), a second gear (407) and a second driving motor (408), the air outlet (401) is arranged at one end of the ventilation pipe (1), the connecting rod (402) penetrates through one side of the air outlet (401), the baffle (403) penetrates through one end of the connecting rod (402), the first gear (404) is fixedly connected with one end of the connecting rod (402), the protective cover (405) is fixedly arranged at one side of the air outlet (401), the inner side bearing of the protective cover (405) is connected with the second connecting shaft (406), the second gear (407) is fixedly sleeved at one end of the second connecting shaft (406), and the second driving motor (408) is connected at one end of the second connecting shaft (406).

7. The energy-saving ventilating structure for building design according to claim 6, wherein the second gear (407) is engaged with the first gear (404), and the second gear (407) forms a rotating structure through the second connecting shaft (406) and the second driving motor (408).