CN220621230U - Outdoor panorama space capsule - Google Patents

Abstract

The outdoor panoramic space capsule comprises an outdoor space capsule, wherein an entrance door is arranged on the outdoor space capsule, panoramic windows are circumferentially arranged on the outdoor space capsule, and a skylight is arranged on a top plate of the outdoor space capsule; a shading mechanism is further arranged above the outdoor space capsule, and the shading mechanism is arranged right above the skylight and is larger than the skylight; the shading mechanism comprises a shading plate capable of moving in the horizontal direction, and the shading plate is driven to move by a driving unit; the output mechanism of the driving unit is connected with a light-operated switch, and the light-operated switch is arranged above the outdoor space capsule. On the basis of the existing mechanism, through the addition of the light shielding plate controlled by the photoswitch, after the brightness reaches the preset range, the light shielding plate can be automatically controlled to move and shield the skylight, so that the phenomenon that sunshine affects sleeping of tourists can be avoided.

Description

Outdoor panorama space capsule

Technical Field

The utility model relates to the technical field of movable houses, in particular to an outdoor panoramic space capsule.

Background

In leisure view field areas such as partial scenic spots and holiday villages, in order to reduce damage of building houses to the environment, building space capsule houses is selected for renting, and compared with a tent building mode, living experience of the space capsule is better, panoramic windows are adopted in a large area, and tourists can see more better;

in addition, in order to enable tourists to sit up in the sky during sleeping, a skylight for sightseeing is additionally arranged at the top of the space capsule, however, once the tourists forget to close the window before sleeping, after the sun appears in the early morning, the brightness in the space capsule can be increased due to the existence of the skylight, so that the sleeping of the tourists is affected, and the use experience of the tourists is reduced.

Disclosure of Invention

The utility model provides an outdoor panoramic space capsule, which aims to solve the problem that the skylight of the space capsule influences sleeping of tourists in the early morning.

The technical scheme of the utility model is as follows:

the outdoor panoramic space capsule comprises an outdoor space capsule, wherein an entrance door is arranged on the outdoor space capsule, panoramic windows are circumferentially arranged on the outdoor space capsule, and a skylight is arranged on a top plate of the outdoor space capsule;

a shading mechanism is further arranged above the outdoor space capsule, and the shading mechanism is arranged right above the skylight and is larger than the skylight;

the shading mechanism comprises a shading plate capable of moving in the horizontal direction, and the shading plate is driven to move by a driving unit;

the output mechanism of the driving unit is connected with a light-operated switch, and the light-operated switch is arranged above the outdoor space capsule.

On the basis of the existing mechanism, through adding the light-operated switch, after the brightness reaches the preset range, the light-shielding plate can be automatically controlled to move and shield the skylight, so that the phenomenon that the sunshine influences sleeping of tourists can be avoided.

The moving mode of the light shielding plate is that the light shielding plate is arranged on the guide rail and can move, and the guide rail is arranged along the length direction of the outdoor space capsule.

In order to reduce the stroke of a single light shielding plate, the light shielding plate comprises two light shielding plates which are adjacently arranged, and the two light shielding plates synchronously and reversely move. The two light shielding plates can be driven to synchronously move by one driving source, so that the state switching can be completed in a shorter stroke.

The driving unit comprises a telescopic electric cylinder connected with a light-operated switch, wherein the output end of the telescopic electric cylinder is provided with a connecting seat, two connecting arms are symmetrically arranged on the connecting seat and connected with a light shielding plate, and the two ends of the connecting arms are connected in a rotating manner in the horizontal direction. The synchronous reverse movement of the two light baffles is controlled through the extension of the output end of the extension electric cylinder, so that the structure is simpler, and only one driving source is needed.

In order to improve the sightseeing experience, the maximum distance between the adjacent light shielding plates is larger than the length of the skylight. Ensuring that the shading plate can not be influenced when the sun roof is used for viewing.

As a preferential scheme, one side of the length direction of the outdoor space capsule is provided with a sunshade, and the telescopic electric cylinder is fixed on the sunshade. Sunshade outside the space cabin is realized through setting up the awning, and after the telescopic electric cylinder is fixed with it, can form the support to it, and avoid telescopic electric cylinder to set up in the top of skylight and shelter from.

In order to protect the telescopic electric cylinder, the awning comprises a bracket and a awning frame, and the lower surface of the awning frame is fixedly provided with the telescopic electric cylinder. The telescopic electric cylinder is arranged under the awning frame, so that rain can be avoided.

As a preferential scheme, the connecting position of the connecting arm and the light shielding plate and the telescopic electric cylinder are arranged on the same side of the skylight. The shielding of the driving unit structure to the skylight can be avoided in a normal state.

The mode of realizing the synchronous reverse movement of the light shielding plate is that the setting direction of the telescopic electric cylinder is perpendicular to the movement direction of the light shielding plate.

As a preferred embodiment, the upper surface of the light shielding plate is provided with a photovoltaic panel. The light shielding device can be used for shielding light and can also be used for photovoltaic power generation.

The utility model has the beneficial effects that: according to the outdoor panoramic space capsule, the light shielding plate controlled by the light control switch is added on the basis of an existing structure, after the brightness of the sky light rises in the early morning, the light shielding plate can be automatically driven to move to the position above the sky light and is shielded, so that the influence of the brightness rise in the space capsule on sleeping of tourists can be avoided, and the design of the structure cannot shield the sky light by any structural component in a normal state, so that the viewing experience of the sky light cannot be influenced.

Drawings

The aspects and advantages of the present application will become apparent to those of ordinary skill in the art upon reading the following detailed description of the preferred embodiments. The drawings are only for purposes of illustrating the preferred embodiments and are not to be construed as limiting the utility model.

In the drawings:

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

FIG. 2 is a schematic top view (skylight view) of the present utility model;

FIG. 3 is a schematic top view of the present utility model (with the sunroof blocked);

FIG. 4 is a schematic diagram of the wiring structure of the light-operated switch of the present utility model;

the components represented by the reference numerals in the figures are:

1. an outdoor space capsule; 11. entrance door; 12. a panoramic window; 13. a balcony; 14. a skylight; 2. a light shielding mechanism; 21. a guide rail; 22. a light shielding plate; 3. driving a unit; 31. a telescopic electric cylinder; 32. a connecting seat; 33. a connecting arm; 4. sunshade awning; 41. a bracket; 42. a tent frame; 5. an optically controlled switch.

Detailed Description

The outdoor panoramic space capsule shown in fig. 1-3 comprises an outdoor space capsule 1, wherein an entrance door 11 is arranged on the outdoor space capsule 1, a tourist can normally enter and exit, a panoramic window 12 is arranged on the outdoor space capsule 1 circumferentially, a sightseeing can be carried out in the outdoor space capsule 1, and under a special scene, a balcony 13 is further arranged at one end of the length direction of the outdoor space capsule 1, and the sightseeing experience is further promoted.

And for the view of night, the roof of outdoor space capsule 1 is provided with skylight 14, and the bed setting of outdoor space capsule 1 is under skylight 14, when the visitor sleeps, can see the scene through skylight 14, experiences the effect of backstop, under this kind of atmosphere, the unavoidable visitor can forget to close the baffle of skylight 14, and then leads to early morning luminance to rise the back, and sleep is influenced.

In order to solve the problems, the structure design adopted by the device is as follows:

the outdoor space capsule 1 top still is provided with shading mechanism 2, shading mechanism 2 sets up just above skylight 14 and is greater than skylight 14 setting, can carry out the complete shading to skylight 14, avoids the indoor luminance of outdoor space capsule 1 to promote, and above-mentioned shading mechanism 2 is under the normality in addition, still needs to avoid influencing the sight of skylight 14, promptly as shown in fig. 2, 3.

And the light shielding mechanism 2 is specifically designed, wherein the light shielding mechanism 2 comprises a light shielding plate 22 capable of moving in the horizontal direction, and the light shielding plate 22 is driven to move by a driving unit 3 and performs state switching as shown in fig. 2 and 3.

On the basis of the above structure, further, the above-mentioned moving mode of light screen 22 is, light screen 22 sets up on the guide rail 21, can remove, just guide rail 21 sets up along the length direction of outdoor space capsule 1, therefore light screen 22 can remove along the length direction of outdoor space capsule 1, carries out the position change, and then realizes the state switching effect of demand.

Also in the above-described structure, in order to reduce the stroke of the single shade 22, the shade 22 includes two adjacent shade plates, and the two shade plates 22 are moved in opposite directions in synchronization, and the two shade plates 22 are symmetrically arranged with respect to the sunroof 14. In order to ensure the synchronization of the movement of the light shielding plates 22, the above structure switches by driving the two light shielding plates 22 to move synchronously by one driving source, and the speed of switching the state is faster because the stroke of the single light shielding plate 22 is shorter.

It should be noted that, to enhance the viewing experience, the maximum spacing between adjacent light shields 22 is greater than the length of skylight 14. The separated light shielding plate 22 is ensured not to be influenced when the light shielding plate passes through the skylight 14, and the width of the light shielding plate 22 is larger than that of the skylight 14, so that complete light shielding can be realized after the light shielding plate 22 is tightly attached.

Since the light shielding plate 22 is always located above the outdoor space capsule 1 and can be irradiated by sunlight, further, on the basis of the above structure, the upper surface of the light shielding plate 22 is provided with a photovoltaic panel. The light shielding device can be used for shielding light and can also be used for photovoltaic power generation.

After the design of the light shielding mechanism 2 is completed, the design of the driving structure can be performed, and in the design of the driving unit 3, not only the light shielding plate 22 needs to be driven to move, but also the influence on the normal view of the skylight 14 after the light shielding plate 22 is opened needs to be avoided.

For this reason, as shown in fig. 3, the driving unit 3 has a specific structure that the driving unit 3 includes a telescopic electric cylinder 31 connected with the photoswitch 5, an output end of the telescopic electric cylinder 31 is provided with a connecting seat 32, the connecting seat 32 is symmetrically provided with two connecting arms 33 connected with the light shielding plate 22, and two ends of the connecting arms 33 are both in rotational connection in a horizontal direction. The synchronous reverse movement of the two light shielding plates 22 is controlled through the extension and retraction of the output end of the extension and retraction electric cylinder 31, so that the structure is simpler, and only one driving source is needed. In addition, in a normal state, as shown in fig. 2, the driving unit 3 does not have a problem of shielding the skylight 14, and in a shading state, as shown in fig. 3, the driving unit 3 is positioned on the lower surface of the shading plate 22, and the skylight 14 cannot be seen at this time, so that the driving unit 3 can be positioned above the skylight 14.

In this regard, the present device is specifically designed such that the connection position between the connection arm 33 and the shade 22 is set on the same side of the sunroof 14 as the telescopic cylinder 31, that is, in the state shown in fig. 2. Shielding of the sunroof 14 by the drive unit 3 structure can be avoided in normal state. After the output end of the telescopic cylinder 31 is extended, one end of the connecting arm 33 can be driven to move, and then the state shown in fig. 3 is reached.

It should be noted that the direction in which the telescopic cylinder 31 is disposed is perpendicular to the moving direction of the shade 22, so that the shade 22 can be driven to move in a synchronous and reverse direction.

Then, in order to realize the automatic closing after the rising of early morning brightness, the output mechanism of the driving unit 3 is connected with a photoswitch 5, and the photoswitch 5 is arranged above the outdoor space capsule 1, so that the solar energy can timely react after rising.

Through the structure, on the basis of the existing mechanism, through adding the photoswitch 5, after the brightness reaches the preset range, the automatic control light shielding plate 22 moves and shields the skylight 14, so that the phenomenon that sunshine affects the sleeping of tourists can be avoided.

In addition to the above-mentioned necessary structure, in order to promote user experience, one side of the outdoor space capsule 1 in the length direction is provided with the awning 4, and the telescopic electric cylinder 31 is fixed on the awning 4. Sunshade outside the space cabin is realized by arranging the sunshade 4, and after the telescopic electric cylinder 31 is fixed with the sunshade, the telescopic electric cylinder 31 can be supported, and the telescopic electric cylinder 31 is prevented from being arranged above the skylight 14 to shield. And in order to protect the telescopic electric cylinder 31, the awning 4 comprises a bracket 41 and a awning frame 42, wherein the telescopic electric cylinder 31 is fixed on the lower surface of the awning frame 42. The telescopic cylinder 31 is arranged under the awning frame 42 to avoid rain. And the installation of the telescopic electric cylinder 31 is not abrupt to influence the appearance of the outdoor space capsule 1 by shielding the awning 4.

Claims (10)

1. The utility model provides an outdoor panorama space capsule, includes outdoor space capsule (1), outdoor space capsule (1) is provided with into door (11), and circumference is provided with panorama window (12), its characterized in that, the roof of outdoor space capsule (1) is provided with skylight (14);

a shading mechanism (2) is further arranged above the outdoor space capsule (1), and the shading mechanism (2) is arranged right above the skylight (14) and is larger than the skylight (14);

the shading mechanism (2) comprises a shading plate (22) capable of moving in the horizontal direction, and the shading plate (22) is driven to move by a driving unit (3);

the output mechanism of the driving unit (3) is connected with a light-operated switch (5), and the light-operated switch (5) is arranged above the outdoor space capsule (1).

2. An outdoor panoramic space capsule according to claim 1, wherein the light shield (22) is arranged on a guide rail (21) and is movable, and the guide rail (21) is arranged along the length direction of the outdoor space capsule (1).

3. An outdoor panoramic space capsule according to claim 1, wherein said light shield (22) comprises two light shields arranged adjacently, and wherein said two light shields (22) are moved in opposite directions in synchronization.

4. An outdoor panoramic space capsule according to claim 3, wherein the driving unit (3) comprises a telescopic electric cylinder (31) connected with a light-operated switch (5), the output end of the telescopic electric cylinder (31) is provided with a connecting seat (32), the connecting seat (32) is symmetrically provided with two connecting arms (33) to be connected with a light shielding plate (22), and two ends of the connecting arms (33) are connected in a rotating way in the horizontal direction.

5. An outdoor panoramic space capsule according to claim 3, wherein the maximum spacing between adjacent said light shields (22) is greater than the length of the skylight (14).

6. An outdoor panoramic space capsule according to claim 4, wherein a sunshade (4) is provided on one side in the length direction of the outdoor space capsule (1), and the telescopic cylinder (31) is fixed to the sunshade (4).

7. An outdoor panoramic space capsule according to claim 6, wherein said awning (4) comprises a bracket (41) and a awning frame (42), said awning frame (42) having a telescopic electric cylinder (31) fixed to its lower surface.

8. An outdoor panoramic space capsule according to claim 4, wherein the connecting arm (33) and the visor (22) are connected at the same position as the telescopic cylinder (31) on the same side of the sunroof (14).

9. An outdoor panoramic space capsule according to claim 8, wherein said telescopic cylinder (31) is arranged in a direction perpendicular to the direction of movement of the visor (22).

10. An outdoor panoramic space capsule according to any one of claims 1-9, wherein the upper surface of said light shield (22) is provided with a photovoltaic panel.