CN219296922U - Sightseeing elevator with good heat insulation effect - Google Patents

Abstract

The utility model provides a sightseeing elevator with good heat insulation effect, which comprises a car main body, a frame body and a glass layer, wherein the frame body is fixedly connected with the car main body, the glass layer is fixedly connected with the frame body, the glass layer comprises a first layer body, a second layer body and a hollow layer, the first layer body, the second layer body and the hollow layer are sequentially and fixedly connected, a first heat insulation coating is fixedly arranged on the surface of the second layer body, and a second glass heat insulation coating is fixedly connected on the surface of the first layer body. Through the protective layer reinforcing as the protective nature of the first layer body of outer layer structure, from end angular position to its reinforcing stability in use and security, the first layer body is after carrying out heat conduction itself, and when heat was to inside gathering, reached cooling radiating effect through the louvre this moment, the reinforcement layer cooperation protective layer of inside setting strengthened the stability and the security of the structure of first layer body itself.

Description

Sightseeing elevator with good heat insulation effect

Technical Field

The utility model relates to the technical field of elevators, in particular to a sightseeing elevator with good heat insulation effect.

Background

The elevator is a vertical elevator taking a motor as power, is provided with a box-shaped nacelle and is used for taking passengers or carrying goods in a multi-storey building, and can be divided into a passenger elevator, a cargo elevator, an escalator, a medical elevator, a residential elevator, a sightseeing elevator and the like, wherein the wall of the elevator structure of the sightseeing elevator is transparent and is used for passengers to see, the elevator is generally arranged in a place with wide outdoor visual field, and meanwhile, the elevator also needs to pay attention to the heat insulation effect while meeting sightseeing and sightseeing sceneries.

In order to achieve the heat insulation effect, the conventional sightseeing elevator is generally structurally provided with double-layer glass, the double-layer glass is generally hollow glass, the two pieces of glass are separated by an effective sealing material and a spacing material, and a drying agent for absorbing water vapor is arranged between the two pieces of glass, so that the inside of the hollow glass is ensured to be a dry air layer for a long time, no water vapor and dust exist, but in the practical use process, the glass has certain heat conductivity, after the car glass structure used by the common sightseeing elevator is irradiated by sunlight, heat is concentrated in an outer layer glass structure, the heat conduction of an inner structure is reduced, the heat in the inner space of the car glass structure is simultaneously in a growing state along with the increase of the use time and the heat concentration time, and the heat insulation effect is poor.

The utility model mainly solves the problems that after the car glass structure used by the existing sightseeing elevator is irradiated by sunlight, heat is concentrated in the outer layer glass structure, the heat conduction of the inner structure is reduced, but the heat in the inner space is in a growing state along with the increase of the service time and the heat concentration time, and the heat insulation effect is poor.

Disclosure of Invention

In order to solve the technical problems, the utility model provides a sightseeing elevator with good heat insulation effect, so as to solve the problems described in the background art.

The utility model discloses a sightseeing elevator with good heat insulation effect, which is characterized by comprising the following specific technical means: the utility model provides a sightseeing elevator that thermal-insulated effect is good, including the car main part, support body and glass layer, support body and car main part fixed connection, glass layer and support body fixed connection, the glass layer is including first layer body, second layer body and cavity layer body, first layer body, second layer body and cavity layer body three fixed connection in proper order, the fixed surface of second layer body is provided with first thermal-insulated coating, the fixed surface of first layer body is connected with the second thermal-insulated coating, the inside fixedly connected with inoxidizing coating and the enhancement layer of first layer body, the louvre has been seted up to the fixed surface of first layer body, the inside fixedly connected with separate layer of cavity layer body, intermediate layer and adhesive layer, separate layer and intermediate layer adjacent setting, the adhesive layer is located between cavity layer body and first layer body and the second layer body.

Further, the first layer body, the second layer body and the hollow layer body are arranged in a matched mode, the hollow layer body is arranged between the first layer body and the second layer body, and the hollow layer body is fixedly connected with the second layer body through the adhesive layer and the first layer body.

Further, the first thermal insulation coating and the second thermal insulation coating are respectively positioned on the inner side surface of the second layer body and the outer side surface of the first layer body, and the first thermal insulation coating and the second thermal insulation coating are both arranged as glass thermal insulation coatings.

Further, the protective layer is distributed at the inner end angle position of the first layer body and is arranged as a thickened glass layer.

Further, the reinforcement layer is the slope setting in the inside of the first layer body, is vertical arrangement and sets up the multiunit, and the louvre distributes in the side position of the first layer body, is located between every group reinforcement layer.

Further, the separation layer is distributed at two lateral sides of the hollow layer body, and is positioned between the first layer body and the separation layer and is arranged adjacent to the bonding layer, and the separation layer is arranged as a rubber-plastic layer.

Further, the interlayer sets up two sets of, sets up to glass inlayer, distributes in the inside both sides position of cavity layer body, and laminating separate layer inboard surface sets up.

The beneficial effects are that:

1. the second heat insulation coating is arranged on the outer side surface of the first layer body, so that the high light transmittance of the glass layer structure is effectively maintained, and meanwhile, the heat insulation effect is achieved, and the effect of effectively blocking solar energy and insulating heat is achieved.

2. The protection of the first layer body as the outer layer structure is enhanced by the protective layer, and the use stability and safety of the first layer body are enhanced from the end angle position.

3. After the first layer body conducts heat per se, when heat is gathered to the inside, the cooling radiating effect is achieved through the radiating holes, and the reinforcing layer matched with the protective layer arranged in the inside enhances the stability and the safety of the structure of the first layer body per se.

4. Through setting up the separate layer of rubber and plastic layer and effectively insulating the heat transfer between first layer body and the cavity layer body, reach the effect of thermal insulation, reach the effect of strengthening structural stability between the cavity layer body and the first layer body through the intermediate layer, cooperate the separate layer to reach the effect of thermal insulation.

Drawings

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

FIG. 2 is a side view of a glass ply attachment structure of the present utility model.

Fig. 3 is an enlarged view of the structure of fig. 2 a according to the present utility model.

In fig. 1 to 3, the correspondence between the component names and the reference numerals is:

1-car main body, 2-support body, 3-glass layer, 4-first layer body, 5-second layer body, 6-hollow layer body, 7-first thermal insulation coating, 8-inoxidizing coating, 9-second thermal insulation coating, 10-reinforcement layer, 11-louvre, 12-separation layer, 13-intermediate layer, 14-adhesive layer.

Detailed Description

The technical solutions of the embodiments of the present utility model will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present utility model, and it is apparent that the described embodiments are only some embodiments of the present utility model, but not all embodiments, and all other embodiments obtained by those skilled in the art without making any inventive effort based on the embodiments of the present utility model are within the scope of protection of the present utility model.

Examples

As shown in fig. 1 to 3:

example 1: the utility model provides a sightseeing elevator that thermal-insulated effect is good, including car main part 1, support body 2 and glass layer 3, support body 2 and car main part 1 fixed connection, glass layer 3 and support body 2 fixed connection, glass layer 3 is including first layer body 4, second layer body 5 and cavity layer body 6, first layer body 4, second layer body 5 and cavity layer body 6 three fixed connection in proper order, the fixed surface of second layer body 5 is provided with first thermal-insulated coating 7, the fixed surface of first layer body 4 is connected with second thermal-insulated coating 9, the fixed surface of first layer body 4 is connected with inoxidizing coating 8 and reinforcement layer 10, the louvre 11 has been seted up to the fixed surface of first layer body 4, the inside fixedly connected with separating layer of cavity layer body 6, intermediate layer 13 and adhesive layer 14, separating layer 12 and intermediate layer 13 are adjacent to be set up, the adhesive layer 14 is located the position between cavity layer body 6 and first layer body 4 and the second layer body 5.

Wherein: the first layer body 4, the second layer body 5 and the hollow layer body 6 are arranged in a matched mode, the hollow layer body 6 is arranged between the first layer body 4 and the second layer body 5, and the hollow layer body 6 is fixedly connected with the second layer body 5 through the bonding layer 14 and the first layer body 4;

wherein: the first thermal insulation coating 7 and the second thermal insulation coating 9 are respectively positioned on the inner side surface of the second layer body 5 and the outer side surface of the first layer body 4, and the first thermal insulation coating 7 and the second thermal insulation coating 9 are both arranged as glass thermal insulation coatings;

the second heat insulation coating 9 is arranged on the outer side surface of the first layer body 4 to effectively keep high light transmittance of the glass layer structure, and meanwhile, the heat insulation effect is achieved by high heat insulation, and the effect of effectively blocking solar energy and insulating heat is achieved.

Wherein: the protective layers 8 are distributed at the inner end angle positions of the first layer body 4 and are arranged as thickened glass layers;

the protection of the first layer body 4 as an outer layer structure is enhanced by the protective layer 8, and the use stability and safety thereof are enhanced from the end angle position.

Wherein: the reinforcing layers 10 are obliquely arranged in the first layer body 4 and are vertically arranged in a plurality of groups, and the radiating holes 11 are distributed at the side positions of the first layer body 4 and are positioned between each group of reinforcing layers 10;

after the first layer body 4 conducts heat, heat is gathered to the inside, the effect of cooling and radiating is achieved through the radiating holes 1, and the stability and the safety of the structure of the first layer body 4 are enhanced by the reinforcing layer 10 arranged inside in combination with the protective layer 8.

Wherein: the separation layers 12 are distributed at two sides of the outer side of the hollow layer body 6, and are positioned between the first layer body 4 and the separation layers 12 and are arranged adjacent to the bonding layer 14, and the separation layers 12 are rubber and plastic layers;

the heat transfer between the first layer body 4 and the hollow layer body 6 is effectively isolated through the separation layer 12 which is arranged as a rubber and plastic layer, so that the heat insulation effect is achieved.

Wherein: the interlayer 13 is provided with two groups, is a glass inner layer and is distributed at two sides of the inner part of the hollow layer body 6, and is attached to the inner side surface of the separation layer 12;

the interlayer 13 achieves the effect of enhancing the structural stability between the hollow layer body 6 and the first layer body 4, and the partition layer 12 achieves the effect of heat insulation.

Claims (7)

1. Sightseeing elevator that thermal insulation is effectual, its characterized in that: including car main part (1), support body (2) and glass layer (3), support body (2) and car main part (1) fixed connection, glass layer (3) and support body (2) fixed connection, glass layer (3) are including first layer body (4), second layer body (5) and cavity layer body (6), first layer body (4), second layer body (5) and cavity layer body (6) three fixed connection in proper order, the fixed surface of second layer body (5) is provided with first thermal insulation coating (7), the fixed surface of first layer body (4) is connected with second thermal insulation coating (9), the inside fixedly connected with inoxidizing coating (8) and the reinforcement layer (10) of first layer body (4), the louvre (11) have been seted up to the fixed surface of first layer body (4), the inside fixedly connected with separation layer (12) of cavity layer body (6), intermediate layer (13) and bonding layer (14), separation layer (12) and bonding layer (13) are adjacent to be set up, bonding layer (14) are located between first layer body (6) and second layer body (4) and the position of cavity layer (5).

2. The sightseeing elevator with good heat insulation effect according to claim 1, wherein: the first layer body (4), the second layer body (5) and the hollow layer body (6) are arranged in a matched mode, the hollow layer body (6) is arranged between the first layer body (4) and the second layer body (5), and the hollow layer body (6) is fixedly connected with the second layer body (5) through the bonding layer (14) and the first layer body (4).

3. The sightseeing elevator with good heat insulation effect according to claim 1, wherein: the first thermal insulation coating (7) and the second thermal insulation coating (9) are respectively positioned on the inner side surface of the second layer body (5) and the outer side surface of the first layer body (4), and the first thermal insulation coating (7) and the second thermal insulation coating (9) are both arranged as glass thermal insulation coatings.

4. The sightseeing elevator with good heat insulation effect according to claim 1, wherein: the protective layers (8) are distributed at the inner end angle positions of the first layer body (4) and are arranged to thicken the glass layers.

5. The sightseeing elevator with good heat insulation effect according to claim 1, wherein: the reinforcing layers (10) are obliquely arranged in the first layer body (4) and are vertically arranged in a plurality of groups, and the radiating holes (11) are distributed at the side positions of the first layer body (4) and are positioned between each group of reinforcing layers (10).

6. The sightseeing elevator with good heat insulation effect according to claim 1, wherein: the separation layers (12) are distributed at two sides of the outer side of the hollow layer body (6), and are positioned between the first layer body (4) and the separation layers (12) and are arranged adjacent to the bonding layers (14), and the separation layers (12) are rubber and plastic layers.

7. The sightseeing elevator with good heat insulation effect according to claim 1, wherein: the interlayer (13) is provided with two groups, is arranged as a glass inner layer and is distributed at two sides of the inside of the hollow layer body (6), and is attached to the inner side surface of the separation layer (12).

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