CN211819093U

CN211819093U - Novel dehumidification shutter

Info

Publication number: CN211819093U
Application number: CN201922338567.0U
Authority: CN
Inventors: 陈建华; 许吉航; 李复翔; 吴宇超; 李威亚
Original assignee: South China University of Technology SCUT
Current assignee: South China University of Technology SCUT
Priority date: 2019-12-24
Filing date: 2019-12-24
Publication date: 2020-10-30
Anticipated expiration: 2029-12-24

Abstract

The utility model relates to a novel dehumidification shutter installs on the window frame, including the casement, still include tripe and support piece, the casement is located to the tripe inboard, is equipped with moisture-absorbing material on the tripe, and the tripe upper end articulates in the window frame upper end, and support piece one end articulates in the window frame lower extreme, and when the tripe lower extreme pushed out the window outside, the support piece other end can support the tripe. The utility model discloses a moisture absorbent material and exterior window envelope's combination can regenerate forms a passive form dehydrating unit, can effectively solve damp and hot district house ventilation dehumidification problem, has indoor heat preservation and dehumidification function simultaneously concurrently to moisture absorbent material's dehumidification regeneration can be realized, user experience is good. Compared with mechanical dehumidification equipment such as an air conditioner and the like, the device does not consume electric energy and is suitable for 'returning south' ventilation in a transition season.

Description

Novel dehumidification shutter

Technical Field

The utility model relates to a building technical field especially relates to a novel dehumidification shutter.

Background

The climate characteristics of the south of the Yangtze region are high temperature, much rainfall, much sunlight and low wind speed, and the overall performance is as follows: high temperature and high humidity in summer and cold and damp in winter. Especially in "back-to-south" times, higher humidity has a great influence on the thermal comfort of the human body.

The main functions of the window are to realize the functions of lighting, ventilation and the like in a building room, and the existing window type mainly comprises a casement window, a sliding window and the like. The window structure mainly comprises a window frame, a window sash and the like, wherein the window frame comprises an upper sill and a lower sill. The window is used as an outer protective structure with light and thin wall, and plays an important role in reducing the heat transfer of the building to the outside and reducing the energy consumption of the building.

At present, structural research on window energy conservation mainly aims at enhancing the sealing property and the heat preservation property of a window, the pertinence to indoor high-temperature high-humidity in summer and cold and humid weather in winter in a damp and hot area is not enough, the window in the prior art cannot simultaneously have the heat preservation and dehumidification functions, the obvious effect is not played in the process of solving the indoor humidity problem, and the user experience is not good.

SUMMERY OF THE UTILITY MODEL

To the technical problem who exists among the prior art, the utility model aims at: the utility model provides a novel dehumidification shutter, through moisture-absorbing material and exterior window envelope's combination, have indoor heat preservation and dehumidification function simultaneously concurrently to moisture-absorbing material's dehumidification regeneration can be realized, user experience is good.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

the utility model provides a novel dehumidification shutter, installs on the window frame, includes the casement, still includes tripe and support piece, and the casement is located to the tripe inboard, is equipped with moisture absorbent on the tripe, and the tripe upper end articulates in the window frame upper end, and support piece one end articulates in the window frame lower extreme, and when the tripe lower extreme pushed out the window outside, the support piece other end can support the tripe.

Further, the other end of the supporting piece is provided with a hook, the shutter is provided with a groove, the groove and the hook are correspondingly arranged, the hook is matched with the groove, and the supporting piece is connected with the shutter.

Further, the louver length is x, and the strut length is 1.2 x.

Further, support piece includes first support section and second support section, and first support section is connected in the second support section collapsiblely, and first support section one end articulates in the window frame lower extreme, and the first support section other end is connected in second support section one end, and the second support section other end is located to the couple.

Further, the first support section and the second support section are equal in length.

Further, the tripe includes a plurality of blades, and every blade all is equipped with the fin that a plurality of intervals were arranged, and hygroscopic material locates a plurality of fin surfaces.

Furthermore, the interval between adjacent fins is 3cm, and the fin height is 1 cm.

Furthermore, the window sash is a casement window sash.

Compared with the prior art, the utility model, have following advantage:

1) compared with the common mechanical dehumidification, the utility model considers the climatic characteristics of the damp and hot areas and the living habit of windowing and ventilating local residents, and has the convenience that the adjustment of the louver and the start of the dehumidification function can be carried out simultaneously;

2) compared with the common shutter, the utility model has the advantages that the basic sun-shading and ventilating functions of the shutter are ensured, and the function of adjusting the indoor humidity is added, so that the damp and hot area can utilize the shutter to assist other modes to adjust the indoor heat and humidity environment more comprehensively;

3) compared with the common shutter, the utility model adopts the material with high adsorption performance and low desorption temperature, and the solar energy is utilized for heating and regeneration, so that the electric energy is not consumed in the dehumidification process, the renewable energy can be fully utilized, and the development requirement of green buildings is more met;

4) the louver blade type is subjected to finned treatment, the surface area is increased, and a moisture absorption coating which is tightly attached to the surface of the blade is formed on the dehumidifying material by utilizing an electrostatic spraying process, so that the effectiveness and the durability of the dehumidifying function of the louver are ensured;

5) the ion exchange resin is selected as the moisture absorption coating, has the characteristics of high adsorption performance, low desorption temperature and no corrosion to the substrate, and simultaneously has the advantages of cheap and easily obtained raw materials, repeated use, recovery and regeneration. Not only ensures the effective adsorption of the shutter to moisture, but also ensures the long-term effective operation of the passive moisture absorption and desorption.

Drawings

Fig. 1 is a schematic view of the moisture absorption state of the louver when the window sash is opened.

Fig. 2 is a schematic view of the moisture absorption state of the louver when the window sash is closed.

Fig. 3 is a schematic view of the moisture absorption state of the louver when the window sash is opened and the louver is supported by the supporting member.

Fig. 4 is a schematic diagram comparing the state of the support member when folded and the state after unfolded.

FIG. 5 is a schematic view of a louvered fin.

Description of reference numerals:

1-louver, 11-fin; 2-window frame; 3-a rotating shaft; 4-window sash; 5-support, 51-first support section, 52-second support section.

Detailed Description

The present invention will be described in further detail below.

The utility model provides a novel dehumidification shutter, installs on window frame 2, includes casement 4, still includes tripe 1 and

support piece

5, and 4 inboards of casement are located to tripe 1, is equipped with moisture-absorbing material on the

tripe

1, and 1 upper ends of tripe articulate in 2 upper ends of window frame, and 5 one ends of support piece articulate in 2 lower extremes of window frame, and when 1 lower extreme of tripe pushed out the window outward, the 5 other ends of support piece can support tripe 1.

Specifically, the window sash 4 is close to the outside and the louver 1 is close to the inside. When the louver 1 is vertically arranged, the louver 1 covers the window, and the louver 1 is parallel to the closed window sash 4. The upper sill on the window frame 2 is provided with a 60mm rotary groove, the upper sill is connected with a wall body through an M5 multiplied by 20 self-tapping screw, the middle of the upper sill is padded with fibers or felts and other flexible materials, a phi 50 steel rotating shaft 3 is pre-installed in the rotary groove, the outer edge of the steel rotating shaft 3 can be connected with a 150 multiplied by 30mm moisture-absorbing louver 1 through a 5mm bolt, or an integral component is adopted, and the steel rotating shaft 3 and the louver 1 are directly welded into a whole.

The louver 1 comprises a plurality of blades, and the surfaces of the blades are sprayed with ion exchange resin moisture absorption coatings by utilizing an electrostatic spraying process, so that the ion exchange resin is ensured to be tightly attached to the surfaces of the blades of the louver 1. The ion exchange resin has good adsorption performance and low desorption temperature, and can regenerate materials by utilizing solar radiation.

As shown in fig. 1, after the window sash 4 is opened, indoor and outdoor air circulates each other through the louver 1. Under outdoor high-humidity weather, the moisture absorption coating on the louver 1 can absorb moisture in the ventilation air, and the dehumidification effect is achieved. Meanwhile, the blades of the louver 1 can be adjusted in inclination angle to shade or ventilate, and the heat preservation effect is achieved.

As shown in fig. 2, after the window sash 4 is closed, the moisture absorption coating coated on the surface of the louver 1 can absorb indoor moisture, so as to achieve the purpose of dehumidification.

As shown in fig. 3, in the state of opening the window sash 4, because the upper end of the louver 1 is hinged to the upper end of the window frame 2, when the louver 1 is pushed out of the window, the louver 1 can rotate around the upper end of the louver 1, so that a larger included angle is formed between the surface of the louver 1 and the vertical surface, and the area of the surface of the louver 1 irradiated by the sun is increased; one end of the supporting piece 5 is hinged on the window frame 2, and the other end of the supporting piece 5 can support the shutter 1 through the rotation of one end of the supporting piece 5, so that the position of the shutter 1 is fixed. The sun-shading and heat-insulating effect can be achieved by adjusting the inclination angle of the blades of the louver 1, and meanwhile, the moisture absorption coating on the surface of the louver 1 can absorb solar radiation to perform a dehumidification regeneration process, so that a one-time moisture absorption-moisture release circulation process is realized.

The ventilation of windowing under outdoor high wet weather mainly aims at the natural ventilation under the condition of returning to south in transition season, and fresh air is sent into indoor after being dehumidified by hygroscopic material through tripe 1, and hygroscopic material absorbs moisture and is saturated and then pushes out tripe 1 out of the window through support piece 5, directly receives solar radiation heating, carries out the regeneration dehumidification process of hygroscopic material to this recycles.

Auxiliary dehumidification under the indoor air conditioning operating mode, close casement 4, tripe 1 moisture absorption material auxiliary air conditioning dehumidifies the room air, and outside moisture absorption saturation's back through support piece 5 with tripe 1 release window, directly received solar radiation heating, carries out moisture absorption material's regeneration dehumidification process to this recycles.

The utility model discloses a moisture absorbent material and exterior window envelope's combination can regenerate forms a passive form dehydrating unit, can effectively solve damp and hot district house ventilation dehumidification problem, has indoor heat preservation and dehumidification function simultaneously concurrently to moisture absorbent material's dehumidification regeneration can be realized, user experience is good. Compared with mechanical dehumidification equipment such as an air conditioner and the like, the device does not consume electric energy and is suitable for 'returning south' ventilation in a transition season.

The other end of the supporting piece 5 is provided with a hook, the louver 1 is provided with a groove, the groove and the hook are correspondingly arranged, the hook is matched with the groove, and the supporting piece 5 is connected with the louver 1.

When the lower end of the louver 1 is pushed, the louver 1 rotates around the upper end of the window frame 2; the supporting piece 5 rotates around the lower end of the window frame 2, and the supporting piece 5 can stably support the louver 1 through the matching of the hooks and the grooves, so that the louver 1 is favorably dehumidified by a sun-shading or moisture-absorbing material.

The length of the louver 1 is x, and the length of the supporting piece 5 is 1.2 x.

By adopting the structure, the louver 1 can rotate to the horizontal state, the window can be opened to the maximum extent, the normal use of a user is not influenced, and the supporting piece 5 can be supported at the 1/3 position at the lower end of the louver 1 in the vertical state and is more stable in supporting.

As shown in fig. 4, the support 5 includes a first support section 51 and a second support section 52, the first support section 51 is foldably connected to the second support section 52, one end of the first support section 51 is hinged to the lower end of the window frame 2, the other end of the first support section 51 is connected to one end of the second support section 52, and the hook is provided at the other end of the second support section 52.

In particular, the support 5 is of a foldable construction. The first support section 51 can be folded over the second support section 52. When the shutter 1 is put down, the first and

second support sections

51 and 52 of the support 5 can be folded up, which is beneficial to saving space and does not affect the normal use of the window sash 4; when the shutter 1 is pushed away, the first supporting section 51 and the second supporting section 52 are unfolded and folded to form a straight line, so that the supporting length is prolonged, and the opening of the window is facilitated to the maximum extent.

The first support section 51 and the second support section 52 are equal in length. Which contributes to saving the storage space of the support 5.

As shown in fig. 5, the louver 1 includes a plurality of blades, each of which is provided with a plurality of fins 11 arranged at intervals, and the moisture-absorbing material is provided on the surfaces of the plurality of fins 11.

The blades of the louver 1 are finned 11, so that the surface area of the blades of the louver 1 is increased, namely the covering area of the moisture absorption material is increased, the moisture exchange area with the moisture air is correspondingly increased, and the dehumidification effect is enhanced.

The interval between adjacent fins 11 is 3cm, and the height of the fin 11 is 1 cm.

The window sash 4 is a casement window sash.

By using the casement window sash 4, the openable area of the window sash 4 can be maximized, ventilation is facilitated, the moisture absorption louver 1 can be completely pushed out of the window in the regeneration process, and solar radiation is utilized for full dehumidification.

The above embodiments are preferred embodiments of the present invention, but the embodiments of the present invention are not limited to the above embodiments, and any other changes, modifications, substitutions, combinations, and simplifications which do not depart from the spirit and principle of the present invention should be equivalent replacement modes, and all are included in the scope of the present invention.

Claims

1. The utility model provides a novel dehumidification shutter, installs on the window frame, including the casement, its characterized in that: the window frame is characterized by further comprising a louver and a supporting piece, the louver is arranged on the inner side of the window sash, moisture absorption materials are arranged on the louver, the upper end of the louver is hinged to the upper end of the window frame, one end of the supporting piece is hinged to the lower end of the window frame, and when the lower end of the louver is pushed out of the window, the other end of the supporting piece can.

2. A novel dehumidifying louver according to claim 1, wherein: the other end of the supporting piece is provided with a hook, the shutter is provided with a groove, the groove and the hook are arranged correspondingly, the hook is matched with the groove, and the supporting piece is connected with the shutter.

3. A novel dehumidifying louver according to claim 1, wherein: the louver length is x and the strut length is 1.2 x.

4. A novel dehumidifying louver according to claim 1, wherein: the support piece includes first support section and second support section, and first support section is connected in the second support section foldingly, and first support section one end articulates in the window frame lower extreme, and the first support section other end is connected in second support section one end, and the second support section other end is located to the couple.

5. A novel dehumidifying louver according to claim 4, wherein: the first support section and the second support section are equal in length.

6. A new type of dehumidification louver according to any one of claims 1 to 5, wherein: the tripe includes a plurality of blades, and every blade all is equipped with the fin that a plurality of intervals were arranged, and hygroscopic material locates a plurality of fin surfaces.

7. A novel dehumidifying louver according to claim 6, wherein: the interval between adjacent fins is 3cm, and the fin height is 1 cm.

8. A novel dehumidifying louver according to claim 6, wherein: the window sash is a casement window sash.