CN216735672U - Energy-saving device for architectural design - Google Patents

Abstract

The disclosed energy-saving device for architectural design comprises a base, a barrel and a cover body, wherein the base and the cover body are respectively arranged at two ends of the barrel, the base is provided with a hollow tube, the hollow tube and the barrel are coaxially arranged, a placing cavity for placing drawings is formed between the barrel and the hollow tube, a moisture absorbent is filled in the hollow tube, the hollow tube is provided with a plurality of communicated hole bodies for placing the cavity, so that the moisture absorbent adsorbs moisture in the placing cavity, wherein one end of the hollow tube, which is far away from the base, is provided with a sealing cover for preventing the moisture absorbent from leaking, and the hollow tube and the base are of an integrated structure. In the practical application process, the drawing can be placed in the placing cavity after being wound, and the moisture absorbent is filled in the hollow pipe and can effectively absorb moisture in the placing cavity, so that the constant humidity cabinet can be effectively replaced, the power resource is saved, and the energy-saving and environment-friendly performance is realized.

Description

Energy-saving device for architectural design

Technical Field

The disclosure relates to the technical field of architectural design, in particular to an energy-saving device for architectural design.

Background

In the process of designing the building among the prior art, the designer generally can put into the design drawing and be exclusively used in the filing cabinet of accomodating the drawing to the protection drawing is not damaged, but the accomodating cabinet among the prior art generally does not have moisture absorption capacity, and the drawing is depositing the in-process and can damage the drawing if ambient humidity is too big. For this reason, the papers are usually stored in a dedicated constant humidity cabinet. Although the constant humidity cabinet can effectively protect drawings, the operation cost of the constant humidity cabinet is high, and the electric energy waste is not beneficial to energy conservation and environmental protection.

In addition, drawings may need to be frequently taken in the design process, the power consumption of the constant humidity cabinet is further increased, and resource waste is caused.

SUMMERY OF THE UTILITY MODEL

The utility model provides an economizer for architectural design has solved among the prior art architectural design drawing and has preserved inconvenient technical problem.

Some embodiments adopted to solve the above technical problems include:

economizer for architectural design, including base, barrel and lid, wherein, the base with the lid do not set up in the both ends of barrel, the base is provided with the hollow tube, the hollow tube with the coaxial setting of barrel, the barrel with form the chamber of placing the drawing between the hollow tube, the hollow tube intussuseption is filled with the hygroscopic agent, the hollow tube is provided with a plurality of intercommunications place the hole body in chamber, so that the hygroscopic agent adsorbs place the moisture in the intracavity, wherein, the hollow tube is kept away from the one end of base is provided with the closing cap that prevents the hygroscopic agent and leak, the hollow tube with base formula structure as an organic whole.

In the practical application process, the drawing can be placed in the placing cavity after being wound, and the moisture absorbent is filled in the hollow pipe and can effectively absorb moisture in the placing cavity, so that the constant humidity cabinet can be effectively replaced, the power resource is saved, and the energy-saving and environment-friendly performance is realized.

In addition, the drawing paper is placed in the placing cavity, and the drawing paper is convenient to frequently take in the design process. The drawing does not need to be stored in a special constant humidity cabinet, and the operation is facilitated.

Preferably, the base is provided with an extension table extending into the placing cavity, the hollow pipe is arranged on the extension table and is coaxial with the extension table, and the cylinder body is sleeved on the extension table.

The extending platform has the function of positioning the cylinder, the cylinder has higher position precision relative to the base, and the application experience of the energy-saving device for architectural design is optimized.

Preferably, the cover body is arranged at one end of the barrel body through the hollow pipe, the hollow pipe is provided with an external thread, and the cover body is provided with an internal thread matched with the external thread on the hollow pipe.

The cover body is easy to assemble, and the structure of the energy-saving device for architectural design is simplified.

Preferably, the sealing cover is provided with an external thread, an internal thread matched with the external thread on the sealing cover is arranged in the hollow pipe, and the sealing cover is completely positioned in the hollow pipe.

The occupied space of the energy-saving device for architectural design is reduced.

Preferably, the cover is provided with an operating portion for facilitating rotation of the cover, the operating portion being recessed within the cover, and the operating portion having a polygonal cross-sectional shape.

The arrangement of the operating part enables the cover to be easily operated, and further saves the space occupied by the energy-saving device for building design.

Preferably, a sealing ring is arranged between the extension table and the cylinder body, and the sealing ring is bonded to the extension table.

The sealing ring can prevent external moisture from entering the placing cavity, and the application performance of the energy-saving device for building design is optimized.

Preferably, a sealing gasket is arranged between the cover body and the cylinder body, and the sealing gasket is adhered to the cover body.

The arrangement of the sealing gasket can prevent external moisture from entering the placing cavity, and the application performance of the energy-saving device for building design is optimized.

Preferably, the hollow pipe sleeve is provided with a winding frame convenient for winding drawings, the winding frame comprises two end rings, connecting ribs are uniformly distributed between the two end rings, the connecting ribs are uniformly distributed on the end rings along the circumferential direction of the end rings, the cross section of each connecting rib is circular, and the end rings and the connecting ribs are of an integrated structure.

The arrangement of the winding frame enables the drawing to be easily wound, the drawing cannot be damaged in the drawing winding process, and the application performance of the energy-saving device for building design is optimized.

Compared with the prior art, the energy-saving device for architectural design provided by the disclosure has the following advantages:

this scheme is through filling the hygroscopic agent in the hollow tube to, make the hygroscopic agent adsorb the moisture of placing the intracavity through the hole body, place the intracavity and have reasonable humidity environment, the drawing is placed in placing the intracavity, and in the long-term use, the drawing is not fragile. The scheme is mainly used for replacing the constant humidity cabinet specially used for storing drawings, and compared with the constant humidity cabinet, the scheme does not need electric energy, saves the electric energy and has the characteristics of energy conservation and environmental protection.

Drawings

For purposes of explanation, several embodiments of the disclosed technology are set forth in the following figures. The following drawings are incorporated herein and constitute a part of the detailed description. In some instances, well-known structures and components are shown in block diagram form in order to avoid obscuring the concepts of the disclosed subject technology.

Fig. 1 is a schematic illustration of the present disclosure.

Fig. 2 is an exploded view of the present disclosure in a first orientation.

Fig. 3 is an exploded view of the present disclosure in a second orientation.

Fig. 4 is a schematic view of a winding stand.

In the figure: 1. the sealing device comprises a base, 11, an extension table, 2, a barrel, 3, a cover body, 4, a hollow pipe, 41, a hole body, 42, a sealing cover, 43, an operation part, 5, a placing cavity, 6, a sealing ring, 7, a sealing gasket, 8, a winding frame, 81, an end ring, 82 and a connecting rib.

Detailed Description

The specific embodiments illustrated below are intended as descriptions of various configurations of the presently disclosed subject matter technology and are not intended to represent the only configurations in which the presently disclosed subject matter technology may be practiced. Specific embodiments include specific details for the purpose of providing a thorough understanding of the presently disclosed subject matter technology. It will be apparent, however, to one skilled in the art that the disclosed subject matter technology is not limited to the specific details shown herein and may be practiced without these specific details.

Referring to fig. 1 to 4, the energy saving device for architectural design includes a base 1, a cylinder 2 and a cover 3, wherein the base 1 and the cover 3 are respectively disposed at two ends of the cylinder 2, the base 1 is provided with a hollow tube 4, the hollow tube 4 is coaxially disposed with the cylinder 2, a placing cavity 5 for placing a drawing is formed between the cylinder 2 and the hollow tube 4, a moisture absorbent is filled in the hollow tube 4, the hollow tube 4 is provided with a plurality of hole bodies 41 for communicating the placing cavity 5, so that the moisture absorbent absorbs moisture in the placing cavity 5, wherein one end of the hollow tube 4, which is far away from the base 1, is provided with a sealing cover 42 for preventing the moisture absorbent from leaking, and the hollow tube 4 and the base 1 are of an integrated structure.

The moisture absorbent is a common moisture absorbent in the prior art, the specific components of the moisture absorbent are not limited, and the moisture absorbent can be reasonably selected by a person skilled in the art according to needs.

The base 1, the cover body 3, the cylinder body 2 and the hollow pipe 4 can be made of plastic materials, so that the weight of the energy-saving device for architectural design is reduced, and the energy-saving device for architectural design is convenient to carry.

This scheme is through filling the desiccator in hollow tube 4, makes the moisture absorbent absorption place the moisture in the chamber 5, can make place and have reasonable humidity environment in the chamber 5, plays the function of protection drawing. This scheme need not use the electric energy when guaranteeing to place the interior reasonable humidity environment that has of chamber 5, has energy-concerving and environment-protective characteristics.

In some embodiments, the base 1 is provided with an extension table 11 extending into the placing cavity 5, the hollow tube 4 is provided on the extension table 11, the hollow tube 4 is coaxially provided with the extension table 11, and the cylinder 2 is sleeved on the extension table 11.

The extension table 11 and the base 1 are of an integrated structure. The extension table 11 mainly functions to position the cylinder 2, and the cylinder 2 has high positional accuracy with respect to the base 1.

The cover body 3 is arranged at one end of the barrel body 2 through the hollow pipe 4, the hollow pipe 4 is provided with external threads, and the cover body 3 is provided with internal threads matched with the external threads on the hollow pipe 4.

The sealing cover 42 is provided with external threads, internal threads matched with the external threads on the sealing cover 42 are arranged in the hollow tube 4, and the sealing cover 42 is completely positioned in the hollow tube 4.

The embodiment simplifies the structure of the energy-saving device for architectural design and reduces the application cost of the energy-saving device for architectural design.

In some embodiments, the cover 42 is provided with an operation portion 43 for facilitating rotation of the cover 42, the operation portion 43 is recessed in the cover 42, and the cross-sectional shape of the operation portion 43 is polygonal.

This scheme mainly plays energy saving device occupation space's for the saving architectural design function, and energy saving device for the architectural design portable.

In some embodiments, a sealing ring 6 is disposed between the extension stage 11 and the barrel 2, and the sealing ring 6 is bonded to the extension stage 11.

A sealing gasket 7 is arranged between the cover body 3 and the cylinder body 2, and the sealing gasket 7 is bonded to the cover body 3.

Both the seal 7 and the seal ring 6 may be made of rubber material.

In some embodiments, the hollow tube 4 is sleeved with a winding frame 8 for winding a drawing sheet conveniently, the winding frame 8 comprises two end rings 81, connecting ribs 82 are uniformly distributed between the two end rings 81, the connecting ribs 82 are uniformly distributed on the end rings 81 along the circumferential direction of the end rings 81, the cross-sectional shape of the connecting ribs 82 is circular, and the end rings 81 and the connecting ribs 82 are of an integral structure.

The winding cradle 8 may be made of plastic material. The winding frame 8 is mainly used for winding drawings. In practical application process, can take out the winding frame 8 earlier, then, wind the picture on the winding frame 8 again, at last, place winding frame 8 in placing chamber 5 together with the drawing, this scheme makes the drawing easily place in placing chamber 5, and the drawing is not fragile.

While the subject matter of the present disclosure and its corresponding details have been described above, it is to be understood that the above description is only illustrative of some embodiments of the subject matter of the present disclosure and that some of the details may be omitted from the detailed description.

In addition, in some of the embodiments disclosed above, there is a possibility that a plurality of embodiments may be combined and implemented, and various combinations are not listed at length. The implementation embodiments can be freely combined according to the requirements when the technical personnel in the field carry out the implementation so as to obtain better application experience.

Other configurations of details or figures may be derived by those skilled in the art in practicing the presently disclosed subject matter, as well as figures, and it will be apparent that such details are within the scope of the presently disclosed subject matter and are covered by the presently disclosed subject matter without departing from the presently disclosed subject matter.

Claims (8)

1. Economizer for architectural design, its characterized in that: including base, barrel and lid, wherein, the base with the lid do not set up in the both ends of barrel, the base is provided with the hollow tube, the hollow tube with the coaxial setting of barrel, the barrel with form the chamber of placing the drawing between the hollow tube, the hollow tube intussuseption is filled with the hygroscopic agent, the hollow tube is provided with a plurality of intercommunications place the hole body in chamber, so that the hygroscopic agent adsorbs place the moisture in the intracavity, wherein, the hollow tube is kept away from the one end of base is provided with the closing cap that prevents the hygroscopic agent and leak, the hollow tube with base formula structure as an organic whole.

2. The energy-saving device for architectural design according to claim 1, wherein: the base is provided with extend to place the intracavity extend the platform, the hollow tube set up in extend the platform, and, the hollow tube with extend the coaxial setting of platform, the barrel cover is located extend the platform.

3. The energy saving device for architectural design according to claim 2, characterized in that: the cover body is arranged at one end of the barrel body through the hollow pipe, the hollow pipe is provided with external threads, and the cover body is provided with internal threads matched with the external threads on the hollow pipe.

4. The energy-saving device for architectural design according to claim 3, wherein: the sealing cover is provided with external threads, internal threads matched with the external threads on the sealing cover are arranged in the hollow pipe, and the sealing cover is completely positioned in the hollow pipe.

5. The energy-saving device for architectural design according to claim 4, wherein: the cover is provided with an operation part which is convenient for rotating the cover, the operation part is recessed into the cover, and the cross section of the operation part is polygonal.

6. The energy-saving device for architectural design according to claim 5, wherein: and a sealing ring is arranged between the extension table and the cylinder body, and the sealing ring is bonded to the extension table.

7. The energy-saving device for architectural design according to claim 6, wherein: a sealing gasket is arranged between the cover body and the cylinder body, and the sealing gasket is bonded to the cover body.

8. The energy-saving device for architectural design according to claim 1, wherein: the winding frame is convenient for winding drawings and comprises two end rings, connecting ribs are uniformly distributed between the two end rings and are uniformly distributed on the end rings along the circumferential direction of the end rings, the cross section of each connecting rib is circular, and the end rings and the connecting ribs are of an integrated structure.

Images