阅读说明：本技术 一种利于睡眠的智能调节床围系统 (Intelligent adjustment bed surrounding system beneficial to sleep ) 是由 赵维珂 于 2021-08-27 设计创作，主要内容包括：本发明属于家居用品领域,具体涉及一种利于睡眠的智能调节床围系统,包括床体、固定架、保温帐和空调系统,其特征在于：还包括伸缩折叠装置,所述保温帐与伸缩折叠装置相连,伸缩折叠装置能带动保温帐伸展或收缩；空调系统的出风口位于保温帐内。本发明能使人们的睡眠体验更智能化,同时能够折叠收纳,占用空间小。(The invention belongs to the field of household articles, and particularly relates to an intelligent adjusting bed surrounding system beneficial to sleep, which comprises a bed body, a fixing frame, a heat preservation tent and an air conditioning system, and is characterized in that: the heat-preservation tent is connected with the telescopic folding device, and the telescopic folding device can drive the heat-preservation tent to extend or contract; the air outlet of the air conditioning system is positioned in the heat-insulating tent. The invention can make the sleeping experience of people more intelligent, and meanwhile, the invention can be folded and stored, and the occupied space is small.)

1. The utility model provides a do benefit to intelligent regulation bed surrounding system of sleep, includes the bed body, mount, heat preservation account and air conditioning system, its characterized in that: the heat-preservation tent is connected with the telescopic folding device, and the telescopic folding device can drive the heat-preservation tent to extend or contract; the air outlet of the air conditioning system is positioned in the heat-insulating tent.

2. The sleep-facilitating smart conditioning bed enclosure system of claim 1, wherein: the sleep monitoring system can control the video playing device to be turned on or turned off.

3. The sleep-facilitating smart conditioning bed enclosure system of claim 2, wherein: the sleep monitoring system can control the operation of the air conditioning system.

4. The sleep-facilitating smart conditioning bed enclosure system of claim 3, wherein: the telescopic folding device is a horizontal telescopic device, the horizontal telescopic device is connected with the lifting device, and the air conditioning system is connected with the fixing frame.

5. The sleep-facilitating smart conditioning bed enclosure system of claim 3, wherein: the telescopic folding device is a vertical folding device, the air conditioning system is connected with the fixing frame, and the fixing frame is connected with the vertical folding device.

6. The sleep-facilitating smart conditioning bed enclosure system of claim 5, wherein: the vertical folding device comprises a push rod motor, a scissor type telescopic frame and a telescopic sleeve rod, a track is fixed at the rear end of the bed body, the top of the scissor type telescopic frame is hinged to the rear end of the bottom of the fixed frame in a sliding mode, the bottom of the scissor type telescopic frame is hinged to the track in a sliding mode, and the push rod motor is fixed on the track; the left side and the right side of the fixing frame are respectively provided with a loop bar, the bottom of the telescopic loop bar is connected to the bed body, the top of the telescopic loop bar is connected to the fixing frame, and the telescopic loop bar comprises a plurality of sections of loop bars which are mutually nested.

7. The sleep-facilitating smart conditioning bed enclosure system of claim 6, wherein: pulleys are fixed on two sides of the bottom of the inner layer loop bar of two adjacent loop bars, and the pulleys are connected to the inner wall of the outer layer loop bar in a rolling manner.

8. The sleep-facilitating smart conditioning bed enclosure system of claim 5, wherein: the vertical folding device comprises a support frame, a cross shaft is arranged on the support frame, two ends of the cross shaft are connected and respectively connected with a rotating motor, the rotating motor can drive the cross shaft to rotate, a left gear and a right gear are symmetrically fixed on the cross shaft, a transmission chain is hung on each gear respectively, one end of each transmission chain is connected with a fixed frame, and the other end of each transmission chain is fixed with a balancing weight; the supporting frame is evenly distributed with sliding rails in the vertical direction, the rear end of the fixing frame is correspondingly provided with pulleys, and the pulleys can roll up and down in the sliding rails.

9. The sleep-facilitating smart conditioning bed enclosure system of claim 5, wherein: the horizontal telescopic device comprises a push rod motor and a scissor type telescopic frame, the push rod motor can drive the scissor type telescopic frame to horizontally stretch, the hinged parts at the left end and the right end of the scissor type telescopic frame are respectively hinged with a connecting rod, and the heat-insulating tent is fixed on the connecting rods.

10. A sleep facilitating smart conditioning bed enclosure system as claimed in any one of claims 1 to 9, wherein: the top of heat preservation account is provided with the air dispersion chamber, a plurality of ventilation holes have evenly been seted up towards the inside one side of heat preservation account in air dispersion chamber, air conditioning system's air outlet is linked together with the air dispersion chamber.

Technical Field

The invention belongs to the field of household articles, and particularly relates to an intelligent adjusting bed surrounding system beneficial to sleep.

Background

With the development of modern society high technology, more and more intelligent products appear in people's daily life, such as sports watches, can observe information such as the heart rate and the motion data of the wearer in real time; for example, the voice control device can control the automatic start and stop of curtains, furniture and the like through voice.

In the aspects of improving the sleeping environment of people and saving energy and electricity, the Chinese patent application with the application number of 202010278976.0 discloses a multifunctional air conditioning bed, wherein an air conditioning temperature adjusting area communicated with an air conditioner is arranged above a bed body, and meanwhile, equipment such as a massager, a projector and the like is combined with the bed body to form a local sleeping bin, so that the sleeping environment of a user is improved to a certain extent, and meanwhile, electric energy is saved. However, the operation implementation of the scheme still depends on manual operation, and the intelligence sense and the technological sense are lacked, so that the user experience is extremely limited. Meanwhile, the bed enclosure of the scheme has a complex structure and is difficult to disassemble and assemble, so that the use difficulty of a user is increased; and the occupied space is large, the folding bed can not be stored, when no one has a rest, the surrounding sense of the whole bed is not good enough, and the bed is far from the delicate life of the modern society.

Disclosure of Invention

The technical problem to be solved by the invention is as follows: overcome prior art's not enough, provide an intelligent regulation bed that does benefit to sleep and enclose system, enable people's sleep and experience more intellectuality, can fold simultaneously and accomodate, occupation space is little.

The technical scheme adopted by the invention for solving the technical problems is as follows: the utility model provides a do benefit to intelligent regulation bed surrounding system of sleep, includes the bed body, mount, heat preservation account and air conditioning system, its characterized in that: the heat-preservation tent is connected with the telescopic folding device, and the telescopic folding device can drive the heat-preservation tent to extend or contract; the air outlet of the air conditioning system is positioned in the heat-insulating tent.

Furthermore, the air conditioner also comprises a sleep monitoring system, and the sleep monitoring system can control the operation of the air conditioning system.

Furthermore, the intelligent heat-preservation tent also comprises a video playing device, wherein the video playing device is positioned in the heat-preservation tent, and the sleep monitoring system can control the video playing device to be opened or closed.

Preferably, the telescopic folding device is a horizontal telescopic device, the horizontal telescopic device is connected with the lifting device, and the air conditioning system is connected with the fixing frame.

Preferably, the telescopic folding device is a vertical folding device, the air conditioning system is connected with the fixing frame, and the fixing frame is connected with the vertical folding device.

Further, the top of heat preservation account is provided with the air dispersion chamber, a plurality of ventilation holes have evenly been seted up towards the inside one side of heat preservation account in air dispersion chamber, air conditioning system's air outlet is linked together with the air dispersion chamber.

Furthermore, the vertical folding device comprises a push rod motor, a scissor type telescopic frame and a telescopic sleeve rod, a track is fixed at the rear end of the bed body, the top of the scissor type telescopic frame is hinged at the rear end of the bottom of the fixed frame in a sliding manner, the bottom of the scissor type telescopic frame is hinged on the track in a sliding manner, and the push rod motor is fixed on the track; the left side and the right side of the fixing frame are respectively provided with a loop bar, the bottom of the telescopic loop bar is connected to the bed body, the top of the telescopic loop bar is connected to the fixing frame, and the telescopic loop bar comprises a plurality of sections of loop bars which are mutually nested.

Furthermore, pulleys are fixed on two sides of the bottom of the inner layer loop bar of two adjacent loop bars, and the pulleys are connected to the inner wall of the outer layer loop bar in a rolling mode.

Furthermore, the vertical folding device comprises a support frame, a cross shaft is arranged on the support frame, two ends of the cross shaft are connected and respectively connected with a rotating motor, the rotating motor can drive the cross shaft to rotate, a left gear and a right gear are symmetrically fixed on the cross shaft, a transmission chain is hung on each gear, one end of each transmission chain is connected with the fixed frame, and the other end of each transmission chain is fixed with a balancing weight; the supporting frame is evenly distributed with sliding rails in the vertical direction, the rear end of the fixing frame is correspondingly provided with pulleys, and the pulleys can roll up and down in the sliding rails.

Furthermore, the horizontal telescopic device comprises a push rod motor and a scissor type telescopic frame, the push rod motor can drive the scissor type telescopic frame to horizontally stretch, the hinged parts at the left end and the right end of the scissor type telescopic frame are respectively hinged with a connecting rod, and the heat-insulating tent is fixed on the connecting rod.

Compared with the prior art, the invention has the beneficial effects that:

1. the telescopic folding structure is adopted to realize the stretching of the heat-preservation tent, the independent sleeping bin can be established when the heat-preservation tent is stretched, and the integral storage of the bed enclosure system can be realized when the heat-preservation tent is contracted, so that the bed enclosure system does not occupy the space on the bed and is elegant and beautiful.

2. The sleep monitoring system is used for automatically detecting the sleep state of the user and automatically adjusting the sleep environment in real time, the whole process is fully automatic and intelligent, the operation is simple, the modern feeling is achieved, and the intelligent requirements of people in the modern society are met.

3. The horizontal telescopic structure can realize the lifting in a specific range through the lifting device, so that the air environment inside and outside the heat-preservation tent is consistent, an independent space is formed in the heat-preservation tent, and different use requirements and experience of users are met.

4. The air dispersing cavity communicated with the air conditioning system is arranged on the rear side of the heat insulation net, and air generated by the air conditioning system is dispersed by the air dispersing cavity and then enters the heat insulation net, so that the direct blowing of cold and hot air to a human body can be avoided, the air is softer, and a user feels more comfortable.

Drawings

FIG. 1 is a schematic diagram of a forward structure of the first embodiment;

FIG. 2 is a schematic view of the structure of FIG. 1 along the direction B;

FIG. 3 is a schematic diagram of the structure A-A of FIG. 1;

FIG. 4 is a schematic view of the direction B of the heat-insulating net in a contracted state;

FIG. 5 is a schematic top view of the second embodiment;

FIG. 6 is a schematic top view of the third embodiment;

FIG. 7 is a schematic view of the structure of FIG. 6 in the direction D;

FIG. 8 is a schematic view of the structure in the direction D of FIG. 6 when the heat-insulating net is in a contracted state;

FIG. 9 is a schematic top view of the fourth embodiment;

FIG. 10 is a schematic top view of the fourth embodiment in a folded state;

FIG. 11 is a schematic view of the structure of FIG. 9 in direction E;

FIG. 12 is a schematic side view of the fifth embodiment;

FIG. 13 is a schematic side view of the sixth embodiment;

FIG. 14 is a schematic view of the cross-sectional structure A-A of FIG. 13;

FIG. 15 is an enlarged schematic view at I of FIG. 14;

FIG. 16 is a schematic side view of a sixth collapsed state of the embodiment;

FIG. 17 is a schematic view of a forward structure of the seventh embodiment;

fig. 18 is a schematic view of the structure of section E-E in fig. 17.

Labeled as:

1. a fixed mount; 2. a heat-preservation tent; 21. front canopy; 22. side accounts; 23. an outlet; 3. an air conditioning system; 4. a push rod motor; 5. a scissor type telescopic frame; 6. a connecting rod; 61. a rear cross bar; 62. a front cross bar; 63. a support; 7. a slider; 8. a lifting device; 9. a track; 10. a video playing device; 11. an air dispersion chamber; 12. a shielding device; 121. a shielding cloth; 13. a folding bar; 131. a front bar; 132. a rear bar; 14. a connecting rod; 15. a left and a right push rod motor; 16. a push rod motor is pulled up; 17. left and right pull rod motors; 18. a winding device; 19. a pendant; 20. a track; 30. a bed body; 31. a telescopic loop bar; 32. a loop bar; 33. a pulley; 34. a mattress; 35. a bed sheet; 38. a backrest; 40. a support frame; 41. a slide rail; 42. a pulley; 43. a horizontal axis; 44. a rotating electric machine; 45. a gear; 46. a drive chain; 47. and a balancing weight.

Detailed Description

The invention will be further described with reference to the following examples:

it should be understood that the embodiments described herein are only for the purpose of illustrating the present invention and are not to be construed as limiting the present invention. For the purpose of the description, the direction away from the wall is taken as the front, and the direction close to the wall is taken as the back in the embodiment.

Example one

As shown in fig. 1-4, the present embodiment provides an intelligent adjusting bed enclosure system beneficial to sleep, which includes a fixing frame 1, a heat-insulating tent 2, an air conditioning system 3, a telescopic folding device, a lifting device 8, a controller, a video playing device, a sleep monitoring system, a bed body 30, and the like.

In this embodiment, the heat-insulating net 2 can be folded and unfolded in the horizontal direction. The telescopic folding device is a horizontal telescopic device, the heat-preservation tent 2 is connected with the horizontal telescopic device, and the horizontal telescopic device is connected with the lifting device 8. The horizontal telescopic device comprises a push rod motor 4 and a plurality of groups of scissor type telescopic frames 5, the left end and the right end of each group of scissor type telescopic frames 5 are respectively hinged on a connecting rod 6 in a sliding mode, and the heat preservation tent 2 is fixed on the connecting rod 6. The connecting rod at the rearmost end is a rear cross rod 61, the connecting rod at the foremost end is a front cross rod 62, the push rod motor 4 is fixed on the rear cross rod 61, and the push rod motor 4 can drive the scissor type telescopic frame 5 to extend forwards or contract backwards under the control of the sleep monitoring system. The left end and the right end of the rear cross rod 61 are respectively fixed with a sliding block 7, the bottoms of the left sliding block 7 and the right sliding block 7 are respectively provided with a lifting device 8, the rear side of the left sliding block 7 and the rear side of the right sliding block 7 are provided with a sliding groove, a track 9 matched with the sliding groove is arranged on the fixing frame 1 at the position corresponding to the sliding block 7, and the lifting device 8 can drive the sliding block 7 to move up and down along the track 9. When the lifting device 8 is in a rising state, a specific distance, such as 10cm, is arranged between the tail end of the heat-preservation net 2 and the bed surface, and when the lifting device 8 is in a falling state, the bottom of the heat-preservation net 2 is attached to the bed surface. The lifting device 8 can adopt a push rod motor or an air cylinder and the like, and both belong to conventional mechanical design. The video playing device 10 is hung on the front cross bar 62, and the video playing device 10 is positioned inside the heat preservation tent 2. In this embodiment, a bracket 63 is fixed on the rear side of the front cross bar 62, and the video playing device 10 is hung on the bracket 63.

The heat-preservation tent 2 comprises a top tent, a side tent 22, a front tent 21 and a back tent, wherein the top tent, the side tent 22, the front tent 21 and the back tent are connected together in the embodiment, and an independent space is formed on the bed. The top of heat preservation account 2 is provided with air dispersion chamber 11, and air dispersion chamber 11 is for setting up the triangle-shaped space between top and back account, and a plurality of ventilation holes have evenly been seted up towards on the diapire of heat preservation account 2 inside in air dispersion chamber 11. The present embodiment includes two air conditioning systems 3 fixed to the left and right sides of the fixing frame 1. The left end and the right end of the air dispersion cavity 11 are respectively provided with an air inlet communicated with an air outlet of the air conditioning system 3, and the air inlet and the air outlet are movably communicated. Air generated by the air conditioning system 3 is dispersed by the air dispersing cavity 11 and then enters the heat preservation tent 2, so that the direct blowing of cold and hot air to a human body can be avoided, the air is softer, and a user feels more comfortable. The rear net of the heat-insulating net 2 is detachably fixed on the wall surface or the fixed mount 1 at the rear side of the bed body 30, the front net 21 and the side net 22 are respectively provided with an outlet 23, and the heat-insulating nets 2 at the two sides of the outlet 23 are attracted together through the magnetic attraction strips. The bottom of the heat-insulating net 2 can be provided with a pendant to ensure that the heat-insulating net 2 is always in a vertical falling state. The location of the air dispersion chamber 11 and the number of air conditioning systems 3 are not limited. The air dispersion chamber 11 can also be arranged between the top of the heat-preservation tent 2 and the side tent 22, and the number of the air conditioning systems 3 can also be increased or decreased according to the needs.

The front end of mount 1 is provided with shelters from device 12, shelter from device 12 and include the coiling mechanism and shelter from cloth 121, the end that shelters from cloth 121 is provided with flagging strip, shelters from cloth 121 and can fall or the rolling under the drive of coiling mechanism. After the telescopic folding device is retracted backwards, the shielding cloth 121 can shield the telescopic folding device and the heat preservation tent 2 after falling down, thereby achieving the effect of beautiful appearance. The winding device is remotely connected with the sleep monitoring system.

In order to ensure the stability of the scissor type telescopic frame 5 after being extended, a pull rope can be further arranged on the middle scissor type telescopic frame 5 in the embodiment, the pull rope is fixed with the wall surface, when the scissor type telescopic frame 5 is retracted backwards, the pull rope is in a relaxed state, when the scissor type telescopic frame 5 is extended forwards to a specific position, the pull rope is in a straightened state, the scissor type telescopic frame is provided with pulling force, and the stability of the whole bed enclosure system is improved.

Besides the air conditioning system, a constant temperature system, a humidity conditioning system, a fresh air machine, a treatment and health care system, a sterilization system, a spraying system and the like can be arranged. An intelligent sound box, a lighting lamp, a temperature sensor, a humidity sensor, an air index sensor and the like which are respectively connected with the sleep monitoring system in a remote way are arranged in the heat preservation tent 2. The heat-insulating tent 2 is made of materials capable of shading light, resisting noise and reducing electromagnetic radiation.

The working principle and the specific implementation of the embodiment are as follows:

firstly, the fixing frame 1 of the bed surrounding system is fixed on a bed or a wall surface at the rear side of the bed body 30, and a user can set or change sleep parameters suitable for the user on the sleep monitoring system according to needs, such as sleep temperature, air humidity, oxygen concentration in the air, light on-off time, sterilization time and the like.

After the user enters the room, the sleep monitoring system can be awakened by voice or manually operated, and the sleep monitoring system controls the shielding device 12 to work, so that the shielding cloth 121 rises and is rolled back to the top end. Then the sleep monitoring system controls the push rod motor 4 to push the scissor type telescopic frame 5 to extend forwards, and the heat preservation tent 2 is unfolded accordingly. At the moment, the sliding block 7 and the whole telescopic folding device are in a high position state, and a specific distance, such as 10cm, is reserved between the heat-preservation curtain 2 and the bed surface, so that the flatness of the heat-preservation curtain 2 in the moving process is ensured. The user enters the heat-insulating tent 2, and at the moment, the heat-insulating tent 2 and the external space are in the same air environment, so that the user is not uncomfortable. The user wears the sleep monitoring bracelet independently, can carry out leisure entertainment activity through sleep monitoring system and video play device before sleeping.

When a user wants to fall asleep, the sleep monitoring system can be operated through voice or manually, or the sleep monitoring system automatically detects that the user is in a critical sleep state, the sleep mode is entered, a signal is sent to the controller, the controller starts the corresponding control system, the lifting device 8 is lowered, the tail end of the heat-preservation tent 2 is lowered and attached to the bed surface, and an independent sleep space is formed in the heat-preservation tent 2. Then the air conditioning system 3 is started to perform heating/cooling, humidification, oxygen generation, air filtration and other operations according to the user setting. Air prepared by the air conditioning system 3 enters the air dispersion cavity 11 at the top of the heat preservation curtain 3 through the air inlet and then uniformly enters the heat preservation curtain 2 through the vent at the bottom of the air dispersion cavity 11, so that the sleeping environment of a user is comfortable and pleasant.

In the sleeping process of a user, data information of the sleep environment continuously monitored by the temperature and humidity sensor, the air index sensor and the like is transmitted to the sleep monitoring system, and the sleep monitoring system adjusts the environment in the heat preservation tent 2 to ensure the stability of the sleep environment of the user. When the user rises up night temporarily, the sleep monitor bracelet transmits user's activity information for the controller, and the control light lights up to the user returns the back in bed, and the control light is closed.

When the time for getting up set by the user is reached, the sleep monitoring system controls the sound box to sound the ring for getting up to wake up the user. Or after the user naturally wakes up, when the sleep monitoring system monitors that the sleep state of the user changes, the sleep monitoring system controls the video playing device 10 to display the sleep condition, the body health data, the diet and the exercise advice of the user, and the information such as the weather, the journey, the news and the like of the day to the user.

After the user leaves the heat preservation account 2 for a certain time, the sleep monitoring system judges that the user gets up, the sleep monitoring system controls the air conditioning system 3, the video playing device 10 and the like to be closed, then the lifting device 8 is started to drive the horizontal telescopic device to drive the heat preservation account to integrally ascend for a certain distance, the push rod motor 4 drives the scissor type telescopic frame 5 to contract backwards, then the shielding device 12 is started to drive the shielding cloth 121 to descend to the drooping strip to be attached to the bed surface.

The whole process does not need to be operated by a mobile phone, the whole bed surrounding system can be controlled by the sleep monitoring system and the voice, the mobile phone can be placed in other rooms, electromagnetic radiation is effectively reduced, entertainment and leisure experience of a user is not influenced, and the whole product is made to have intelligentization and modern feeling.

In this embodiment, the sleep monitoring system may adopt an intelligent bracelet, a mobile phone APP for sleep detection, or other sleep monitoring devices. When the intelligent bracelet is adopted, the bracelet is sleeved on the wrist. When the user is in a critical sleep state, the bracelet can detect the signal and transmit the signal to the controller, and then the controller controls the operation of the corresponding device. The bracelet is connected with the controller in a wireless mode, and can be connected to a local area network and the Internet. This control technique belongs to the mature prior art and is not described in detail.

Example two

As shown in fig. 5, the present embodiment is different from the first embodiment in that: the horizontal telescopic device of this embodiment adopts a structure that the motor drives the folding rod 13 to extend and retract. Wherein the folding bar 13 includes left and right folding bars 13, and the left and right folding bars 13 respectively include a front bar 131 and a rear bar 132 hinged to each other. The front ends of the left and right folding bars 13 are connected together by a front cross bar 62, and the rear ends are connected together by a rear cross bar 61. The heat-preservation tent 2 is uniformly hinged and fixed between the left folding rod 13 and the right folding rod 13 through the connecting rod 14, and when the folding rods 13 are contracted, the heat-preservation tent 2 is driven to be contracted; when the folding rod 13 is extended, the heat-preservation curtain 2 is driven to be extended.

Other structures and specific use manners of this embodiment are the same as those of the first embodiment, and are not described again.

EXAMPLE III

As shown in fig. 6 to 8, the present embodiment is different from the first embodiment in that: the horizontal telescopic device of this embodiment includes left and right push rod motor 15, the push rod front end of left and right push rod motor 15 articulates respectively on horizontal pole 62 in the front, and the rear end of left and right push rod motor 15 articulates respectively on mount 1. The heat preservation tent 2 is hinged below the left and right push rod motors 15 and the front cross bar 62. The front end of the front cross bar 62 is provided with a shielding device 12, and the shielding device 12 has the same structure as that of the first embodiment. The left and right push rod motors 15 are respectively connected with the sleep monitoring system in a remote mode.

The left side and the right side of a fixing frame 1 above the heat preservation tent 2 are respectively hinged with an upward-pulling push rod motor 16, the upward-pulling push rod motor 16 on the left side is hinged with a left push rod motor, and the upward-pulling push rod motor 16 on the right side is hinged with a right push rod motor. The pull-up push rod motors 16 on the left side and the right side are respectively connected with the sleep monitoring system in a remote mode. When the push-up rod motor 16 is extended, the left and right push-rod motors 15 fall to a horizontal state, and when the push-up rod motor 16 is retracted, the left and right push-rod motors 15 rotate upward to a folded state.

The embodiment is different from the first embodiment in the following specific implementation:

after the user enters the room, the sleep monitoring system can be awakened by voice or manually operated, and the sleep monitoring system controls the shielding device 12 to work, so that the shielding cloth 121 rises and is rolled back to the top end. Meanwhile, the sleep monitoring system controls the pull-up push rod motor 16 to start, and the push rod extends out, so that the left and right push rod motors 15 fall to a specific state. Then, the sleep monitoring system controls the push rods of the left and right push rod motors 15 to extend forwards, and the heat preservation tent 2 is unfolded accordingly. At this time, a certain distance, such as 10cm, is arranged between the bottom of the front net of the heat-preservation net 2 and the bed surface.

When a user wants to fall asleep or the user does not actively operate, and the sleep monitoring bracelet monitors that the user enters a sleep state, the sleep monitoring system controls the pull-up push rod motor 16 to continue to act, so that the left and right push rod motors 15 fall to a horizontal state, the tail end of the heat-insulation tent 2 is attached to the bed surface, an independent sleep space is formed in the heat-insulation tent 2 at the moment, and the sleep monitoring system continues to regulate and control a sleep environment.

After the user leaves heat preservation account 2 for a certain time, the sleep monitor system judges that the user gets up, the sleep monitor system controls air conditioning system 3, video play device etc. and closes, control left and right push rod motor 15's push rod shrink backward afterwards, pull-up push rod motor 16 and sheltering from device 12 and start simultaneously, pull-up push rod motor 16 with left and right push rod motor 15 pull-up to fold condition, shelter from cloth 121 to descend to flagging strip and the laminating of bed surface, accomplish the work of accomodating of bed enclosure system so far.

Example four

As shown in fig. 9 to 11, the present embodiment is different from the first embodiment in that: the horizontal telescopic device of this embodiment includes left and right push rod motor 15, left and right push rod motor 15's rear end articulates respectively on left and right slider 7, left and right slider 7 bottom is provided with elevating gear 8, the rear side is provided with the spout respectively, is provided with track 9 on the mount that corresponds the position with slider 7, elevating gear 8 can drive slider 7 and reciprocate along track 9. The left push rod motor 15 and the right push rod motor 15 are respectively hinged with a left pull rod motor 17 and a right pull rod motor 17, the left pull rod motor 17 and the right pull rod motor 17 are respectively hinged on the fixing frame 1, and the left pull rod motor 17 and the right pull rod motor 17 can respectively drive the left push rod motor 15 and the right push rod motor 15 to rotate towards the inner side. The heat preservation tent 2 is fixed on the left and right push rod motors 15. The left and right push rod motors 15; left and right pull rod motors 17; the lifting device 8 is respectively connected with the sleep monitoring system in a remote mode.

In this embodiment, the front cross bar and the rear cross bar are not provided between the left and right push rod motors 15, and the video player and the sterilizer fixed to the front cross bar are eliminated, and the video player can be replaced by a projector.

The embodiment is different from the first embodiment in the following specific implementation:

after entering the room, the user can wake up the sleep monitoring system through voice or manually operate the sleep monitoring system, and the sleep monitoring system controls the shielding device 12 to work, so that the shielding cloth rises and is rewound to the top end. Then the sleep monitoring system controls the left and right pull rod motors 17 to work, pushes the left and right push rod motors 15 to open outwards simultaneously until the push rod motors are vertical to the wall surface, and controls the push rods of the left and right push rod motors 15 to extend out simultaneously, and the heat-insulating tent 2 is unfolded accordingly.

After the user leaves the heat preservation tent 2 for a certain time, the sleep monitoring system judges that the user gets up, the sleep monitoring system controls the air conditioning system 3, the projector and the like to be closed, then the lifting device 8 is controlled to ascend, the pull rods of the left pull rod motor 17 and the right pull rod motor 17 retract, the left push rod motor 15 and the right push rod motor 15 are pulled to rotate inwards to be folded, meanwhile, the push rods of the left push rod motor 15 and the right push rod motor 15 are controlled to retract, and the heat preservation tent 2 is folded. Then, the shielding device 12 is started to drive the shielding cloth to fall to the drooping strip to be attached to the bed surface, so that the storage work of the bed surrounding system is completed.

EXAMPLE five

As shown in fig. 12, the present embodiment is different from the first embodiment in that the shielding device is eliminated. The heat-preservation tent 2 comprises a top tent, a side tent 22, a front tent 21 and a rear tent, wherein the top tent, the side tent 22 and the rear tent are respectively fixed together, the front tent 21 is rolled on a rolling device 18, and the rolling device 18 is arranged on a front cross bar 62. The winding device 18 is remotely connected with the sleep monitoring system. The left side and the right side of the front net 21 are respectively provided with a magnetic attraction strip, the front ends of the corresponding left side net 22 and the right side net 22 are respectively provided with a magnetic attraction strip with opposite magnetism, and the front net 21 and the side nets 22 can be attracted together through the magnetic attraction strips. The bottom of the front net 21 is fixed with a pendant 19, and the gravity of the pendant 19 is greater than the adsorption force of the magnetic adsorption strip.

The embodiment is different from the first embodiment in the following specific implementation:

when the bed is not used, the front net of the heat-preservation net is in an extending state, the pendants 19 at the bottom of the front net 21 are close to the bed surface, and the front net is equivalent to shielding cloth.

When a user enters a room, the sleep monitoring system can be awakened by voice or manually operated, and the sleep monitoring system controls the rolling device 18 to work, so that the front curtain 21 rises and rolls back to the top end. Then the sleep monitoring system controls the push rod motor to push the scissor type telescopic frame to extend forwards, and the heat preservation tent 2 is unfolded accordingly. At the moment, the lifting device is in a lifting state, and a specific distance, such as 10cm, is reserved between the heat-preservation tent and the bed surface.

When a user wants to fall asleep, the sleep monitoring system can be operated by voice or manually, so that the lifting device descends, the heat-preservation tent descends, and the tail ends of the back tent and the side tent 22 are attached to the bed surface. Meanwhile, the sleep monitoring system controls the rolling device 18 to start, so that the front net 21 falls under the gravity of the pendulous object 19 until the pendulous object is close to the bed surface. The front net 21 and the side nets 22 are adhered together under the magnetic adsorption force of the magnetic adsorption strips, so that an independent sleeping space is formed in the heat-preservation net 2.

When the user leaves the heat-preservation tent for a certain time, the sleep monitoring system judges that the user gets up, the sleep monitoring system controls the air conditioning system, the video playing device and the like to be closed, then the lifting device is controlled to ascend, and the push rod motor drives the scissor type telescopic frame to retract backwards. The windup device 18 is then activated to continue to release the front net 21, allowing the front net 21 to continue to fall under gravity until the flap 19 is adjacent the bed surface, whereupon the front net 21 acts as a shielding device.

EXAMPLE six

As shown in fig. 13 to 16, the present embodiment is different from the first embodiment in that: the heat-insulating net 2 can be folded and unfolded in the vertical direction.

A bed body 30 and a vertical folding device are arranged below the fixing frame 1, and the vertical folding device can drive the fixing frame 1 to vertically move above the bed body 30. In this embodiment the vertical folding device includes push rod motor 4 and multiunit shear type expansion bracket 5, and bed body 30 rear end is fixed with track 20, and the top of shear type expansion bracket 5 slides and articulates in the bottom rear end of mount 1, and the bottom of shear type expansion bracket 5 slides and articulates on track 20, and push rod motor 4 is fixed on track 20, and push rod motor 4 and sleep monitoring system remote connection, push rod motor 4 can drive shear type expansion bracket 5 upwards to extend or contract downwards under sleep monitoring system's control to drive mount 1 and reciprocate. The bottom of the fixed mount 1 is fixed with the heat-preservation tent 2, when the fixed mount 1 moves upwards to the highest point, the heat-preservation tent 2 is completely unfolded above the bed body 30; when the fixing frame 1 moves downwards to the lowest point, the fixing frame 1 is just placed on the bed body 30. Air conditioning systems 3 are respectively fixed on two sides of the fixing frame 1, and the air conditioning systems 3 can move up and down along with the fixing frame 1.

The rear end of mount 1 is provided with stop device, and stop device is the flexible loop bar 31 that sets up in the mount 1 left and right sides in this embodiment, the bottom and the bed body 30 relatively fixed of flexible loop bar 31. As shown in FIG. 15, the telescopic rods 31 comprise a plurality of sections of nested rods 32, pulleys 33 are fixed on two sides of the bottom of the inner layer rod of each two adjacent rods 32, the pulleys 33 are connected to the inner wall of the outer layer rod in a rolling manner, and when the fixed mount 1 moves up and down, the telescopic rods 31 can position the fixed mount to ensure that the fixed mount 1 moves vertically up and down above the bed body 30. Of course, in order to ensure that the fixing frame can move up and down without deviation, the positioning device can also adopt a guide rail, and the embodiment adopts a telescopic sleeve, because the advantage of using the telescopic sleeve is that the positioning device can be always positioned between the fixing frame 1 and the track 20. The telescopic rod 31 is prior art, and the detailed structure is not described again.

In the embodiment, the heat-insulating tent 2 surrounds the bed body 30 for a circle, the top of the heat-insulating tent 2 is fixed at the bottom of the fixing frame 1, the bottom of the heat-insulating tent 2 is fixed at the periphery of the bed body 30, the side surface of the heat-insulating tent 2 is provided with the outlet 23, and the heat-insulating nets 2 at two sides of the outlet 23 are attracted together through the magnetic attraction strips. Other settings of the heat-preservation tent 2 in the embodiment are the same as those in the first embodiment, and are not described again.

The front end of the bottom of the fixing frame 1 is hung with a video playing device 10, and the video playing device 10 is positioned inside the heat-preservation tent 2. The front end of the fixing frame 1 is longer than the front end of the bed body 30, and when the fixing frame 1 descends, the video playing device 10 is perpendicular to the front of the bed body 30. The video playing device 10 is remotely connected with a sleep monitoring system.

In this embodiment, a triangular backrest 38 is disposed at the rear of the fixing frame 1, and the backrest 38 can improve the stability of the fixing frame 1. The mattress 34 is arranged above the fixed mount 1, the bed sheet 35 is paved on the mattress 34, the bed sheet 35 sags, when the fixed mount 1 descends to the bed body 30, the bed sheet 35 can cover the heat preservation tent 2 and the like, and the attractive effect is achieved.

The telescopic folding device in the embodiment can also adopt other lifting telescopic devices, is not limited to the structures of the push rod motor and the scissor type telescopic frame, and is not repeated.

The embodiment is different from the first embodiment in the following specific implementation:

when a user wants to fall asleep, the sleep monitoring system can be operated by voice or manually, or the sleep monitoring system automatically detects that the user is in a critical sleep state, the sleep mode is entered, a signal is sent to the controller, the controller starts a corresponding control system, the push rod motor 4 is controlled to push the scissor type telescopic frame 5 to extend upwards, the fixed frame 1, the mattress 34, the air conditioning system 3 and the like are driven to move upwards to the highest point, the heat preservation tent 2 extends along with the fixed frame, and an independent sleep space is formed above the bed body 30. The user gets into in the heat preservation account 2, independently wears the sleep monitoring bracelet, can carry out leisure entertainment activity through sleep monitoring system and video play device before sleeping.

After the user wakes up and leaves the heat-preservation tent 2 for a certain time, the sleep monitoring system judges that the user gets up, then controls the push rod motor 4 to drive the scissor type telescopic frame 5 to contract downwards until the fixing frame 1 falls on the bed body 30, then the heat-preservation tent 2 is folded between the fixing frame 1 and the bed body 30, and the bed sheet 35 droops to shield without influencing the appearance. The mattress 34 and backrest 38 may be used to meet the needs of the user when he or she wants to have a short rest. Compared with other embodiments, the embodiment has the advantages that the structure is more compact and attractive, and different rest requirements of users can be met in multiple directions.

In this embodiment, air conditioning system can follow the mount and reciprocate, and when the user sleeps in the heat preservation account, air conditioning system is in high-order state, and when no man in the heat preservation account, can control vertical folding device and start, drives mount and air conditioning system and moves down together, and the heat preservation account is folded and is closed the back and is laminated on the bed surface in, and at this moment, air conditioning system is in next state.

EXAMPLE seven

As shown in fig. 17 to 18, the present embodiment is different from the sixth embodiment in that: the vertical folding device comprises a support frame 40 arranged at the rear part of the fixed frame 1, wherein vertical sliding rails 41 are uniformly distributed on the support frame 40, pulleys 42 are correspondingly arranged at the rear end of the fixed frame 1, a triangular backrest 38 is arranged at the rear part of the fixed frame 1, the pulleys 42 are also arranged at the rear end of the backrest 38, and the pulleys 42 can roll up and down in the sliding rails 41. The supporting frame 40 above the fixing frame 1 is provided with a transverse shaft 43, two ends of the transverse shaft 43 are respectively connected with a rotating motor 44, the rotating motor 44 can drive the transverse shaft 43 to rotate, and the rotating motor 44 can also be connected with the transverse shaft 43 through a transmission speed reducing mechanism. A left gear 45 and a right gear 45 are symmetrically fixed on the transverse shaft 43, a transmission chain 46 matched with each gear 45 is hung on each gear 45, one end of each transmission chain 46 is fixed on the fixing frame 1, and a balancing weight 47 is fixed at the other end of each transmission chain 46. When the rotating motor 44 operates, the gear 45 on the horizontal shaft 43 is driven to rotate, so as to drive the transmission chain 46 to move up and down, and the transmission chain 46 drags the fixing frame 1 to move up and down. The pulley 42 at the rear end of the fixed frame 1 rolls up and down in the slide rail 41 to limit the vertical movement direction of the fixed frame 1, and the movement stability of the fixed frame 1 is ensured.

The weight of balancing weight 47 slightly is greater than the weight of mount 1 plus mattress 34, and balancing weight 47 can hang mount 1 in the eminence when rotating electrical machines 44 lose power, prevents to lead to mount 1 whereabouts accidental injury user's condition because of unexpected reasons such as rotating electrical machines 44 trouble.

The embodiment is different from the sixth embodiment in that:

when a user wants to fall asleep, the sleep monitoring system can be awakened by voice or manually operated, the sleep monitoring system controls the rotating motor 44 to be started, the transverse shaft 43 and the gear 45 are driven to rotate, the transmission chain 46 is driven to move, and the transmission chain drives the fixing frame 1, the mattress 34, the air conditioning system 3 and the like to move upwards to the highest point.

When the user wakes up and leaves the heat-preservation tent 2 for a certain time, the sleep monitoring system judges that the user gets up, and then controls the rotating motor 44 to rotate reversely, so as to drive the transverse shaft 43, the gear 45 and the transmission chain 46 to move reversely, and the fixing frame 1 moves downwards along with the rotating motor until the fixing frame 1 falls on the bed body 30.

Other structures and specific use manners of this embodiment are the same as those of the sixth embodiment, and are not described again.

The sixth and seventh embodiments illustrate that the heat-insulating net 2 can be folded or unfolded in the vertical direction, and the bottom of the heat-insulating net is fixedly connected with the bed. As an equivalent alternative, the top of the heat-preservation tent can be connected with the ceiling in the bedroom, and the telescopic folding device pulls the bottom of the heat-preservation tent to move downwards to be in contact with the bed, so that a closed space in the heat-preservation tent is formed. When not sleeping, the telescopic folding device pulls the bottom of the heat preservation tent to move upwards to the top. The expansion of the heat-preservation tent in the vertical direction can be realized.

In the seven embodiments, the heat-preservation tent is driven by the telescopic folding device to be folded or unfolded, wherein the first embodiment to the fifth embodiment illustrate that the heat-preservation tent is folded and unfolded in the horizontal direction from the bed head to the bed periphery, and the sixth embodiment and the seventh embodiment illustrate that the heat-preservation tent is folded and unfolded in the vertical direction. In the embodiment, the heat-preservation tent is unfolded to form an independent space, a proper sleeping area is formed in the independent space and matched with a constant-temperature system, a humidity conditioning system, a fresh air machine, a treatment and health-care system, a spraying system and the like, and the sleeping effect is more excellent. The technical scheme that the heat-insulating control net can form an independent space can adopt a ring-shaped structure design in addition to the seven embodiments. A ring beam which winds the bed for a circle is fixed above the bed, and the upper end of the heat-preservation tent is connected with the ring beam. One end of the heat-insulating tent is fixed, the other end of the heat-insulating tent is pulled by the telescopic folding device to move along the ring beam in a circle, and then the heat-insulating tent is overlapped with the fixed end to form a closed independent space. Or the two ends of the heat-preservation tent can be respectively driven by the telescopic folding devices to move towards each other and then are overlapped together to form an independent space. The scheme is changed by adopting a telescopic folding device to drive the heat-preservation tent to fold or unfold.

Therefore, the telescopic folding device which can drive the heat preservation tent 2 to extend and contract comprises a horizontal telescopic device which can stretch in the horizontal direction, a vertical folding device which can be folded in the vertical direction, and a folding and unfolding device which can be folded and unfolded along the periphery of the bed. The expansion devices can drive the heat-preservation tent to expand to form an independent space, and the tidiness and the attractiveness of a bedroom are not affected after the heat-preservation tent is folded.

The foregoing is directed to preferred embodiments of the present invention, other and further embodiments of the invention may be devised without departing from the basic scope thereof, and the scope thereof is determined by the claims that follow. However, any simple modification, equivalent change and modification of the above embodiments according to the technical spirit of the present invention may be made without departing from the technical spirit of the present invention.