CN215738032U - Mattress - Google Patents

Abstract

The utility model discloses a mattress, comprising: the first structural layer, second structural layer and third structural layer, the second structural layer is established under the first structural layer, third structural layer is located between first structural layer and the second structural layer, the third structural layer includes aerifing exhaust support piece and support piece, aerify exhaust support piece and be located between support piece and the first structural layer, aerify exhaust support piece and have sleep-assisting mode and stop mode, in sleep-assisting mode, aerify exhaust support piece through adjusting internal pressure in order to change the distance between support piece and the first structural layer, in stop mode, aerify exhaust support piece exhaust so that support piece and first structural layer distance everywhere equals. According to the mattress provided by the embodiment of the utility model, the inflation and exhaust supporting pieces with different modes are arranged, so that on one hand, the inflation and exhaust supporting pieces can stretch and massage a user, the pressure on muscles of the user during sleeping is reduced, and the user experience is improved; on the other hand, the smoothness of the surface of the mattress can be ensured, and the comfort level of the mattress is improved.

Description

Mattress

Technical Field

The utility model belongs to the technical field of bedding, and particularly relates to a mattress.

Background

The mattress with excellent performance can improve the sleeping state of the user, prolong the deep sleeping time of the user and improve the sleeping quality of the user.

However, because the concave-convex change of the outline of part of the user is large when the user sleeps, the traditional mattress can not adapt to the change of the body outline of the user when the user sleeps, the traditional mattress can not uniformly support all parts of the body of the user, the spine can not be ensured to be in a natural relaxation state, the local muscle tension or the overlarge pressure of the body can be easily caused, and the sleep effect is influenced.

In order to improve the performance of the mattress, the mattress with the air bag structure is continuously appeared on the market at present, and the investigation finds that the category and the function of the mattress with the air bag structure on the market at present are single, mainly the mattress with the whole body rhythm is taken as the main part, but the mattress has the following defects because the whole body rhythm is required: on the first hand, the air bag is larger in volume, and the production cost of the mattress is increased; in the second aspect, the power of the air pump is larger, and the corresponding noise is larger; in a third aspect, the mattress for full body rhythm needs a long time for completing a complete cycle rhythm, user experience is poor, the mattress can only realize floating jacking massage of the body of a user and cannot completely fit with a natural sleeping posture curve of the user, so that the spine is always in a pressed or pulled state and cannot be completely relaxed, and the sleeping quality of the user is reduced.

SUMMERY OF THE UTILITY MODEL

The present invention is directed to solving at least one of the problems of the prior art. Therefore, the utility model provides the mattress, which can uniformly support all parts of the body of a user, enables the spine to be in a natural relaxed state, improves the user experience, and solves the technical problem that the mattress in the prior art cannot completely fit with the natural sleeping posture curve of the user, and the sleeping quality of the user is influenced.

A mattress according to an embodiment of the utility model comprises: a first structural layer; a second structural layer disposed below the first structural layer; a third structural layer between the first and second structural layers, the third structural layer comprising an inflation and deflation support and a support, the inflation and deflation support being between the support and the first structural layer; the charging support has a sleep-assist mode and a deactivated mode; in the sleep-assist mode, the inflated support changes a distance between the support and the first structural layer by adjusting an internal pressure; in the deactivated mode, the charging and discharging support is exhausted such that the support and the first structural layer are equidistant throughout.

According to the mattress provided by the embodiment of the utility model, the third structural layer is arranged between the first structural layer and the second structural layer, the first structural layer and the second structural layer are matched to play a role in protecting the third structural layer so as to prolong the service life of the third structural layer, the third structural layer is provided with the inflation and exhaust supporting piece with the sleep-assisting mode and the non-use mode, when the inflation and exhaust supporting piece is in the sleep-assisting mode, the inflation and exhaust supporting piece changes the distance between the supporting piece and the first structural layer, so that the mattress can be completely attached to a natural sleeping posture curve of a user so as to uniformly support all parts of the body of the user, ensure that the spine is in a natural relaxed state, effectively relieve the pressure on muscles when the user sleeps and improve the sleeping quality of the user; when the inflation and exhaust supporting piece is in the stop mode, the inflation and exhaust supporting piece can ensure the smoothness of the surface of the mattress, and the mattress is ensured not to have local depression so as to improve the comfort of the mattress.

According to the mattress provided by the utility model, in the sleep-aiding mode, the surface concave-convex change of the first structural layer forms rhythm; in the deactivated mode, the first structural layer remains flat.

According to the mattress of one embodiment of the utility model, the supporting part comprises a spacing supporting part and an inflation supporting part, and the spacing supporting part and the inflation supporting part are adjacently arranged along the length direction of the mattress; the spacer support and the inflatable support are flush in surface when the inflatable exhaust support is in the deactivated mode.

Optionally, in the inactive mode, the charging and discharging support member is fully discharged, the charging and discharging support member is formed in a sheet shape, a top surface of the charging and discharging support member is attached to the first structural layer, and a bottom surface of the charging and discharging support member is attached to the support member.

Optionally, the spacing support is a sponge or a fiber.

Optionally, the spacing support members and the inflatable support members each include multiple sets, a set of the inflatable support members is disposed between at least two sets of the spacing support members, at least one set of the spacing support members is disposed in an upper region and a lower region of the mattress, and at least one set of the inflatable support members is disposed in a middle region of the mattress.

Optionally, the cross section of the spacing support member and the cross section of the inflatable support member are both rectangular, and the cross section of the inflatable support member is oblong.

According to one embodiment of the utility model, the inflated cross-section of the inflatable support is smaller than the cross-section of the support.

Optionally, the third structural layer forms a plurality of arrangement zones along the length direction of the mattress, the plurality of arrangement zones including at least a neck arrangement zone, a waist arrangement zone, and a knee arrangement zone, the plurality of inflatable supports being respectively arranged at the neck arrangement zone, the waist arrangement zone, and the knee arrangement zone.

Optionally, a plurality of the inflatable supports located in the same arrangement area form a left-right symmetrical arrangement along a symmetry axis in a length direction of the mattress.

Optionally, part of the inflatable and deflatable support comprises a plurality of inflatable and deflatable supports arranged in a stacked manner in the height direction of the mattress.

Additional aspects and advantages of the utility model will be set forth in the description which follows, and in part will be obvious from the description, or may be learned by practice of the utility model.

Drawings

The above and/or additional aspects and advantages of the present invention will become apparent and readily appreciated from the following description of the embodiments, taken in conjunction with the accompanying drawings of which:

fig. 1 is a schematic view of the structure of a mattress according to an embodiment of the utility model.

Fig. 2 is a front view of a mattress according to one embodiment of the utility model.

Fig. 3 is a schematic view of a mattress according to an embodiment of the present invention, omitting the first structural layer and the second structural layer.

Figure 4 is a schematic view of an inflatable support member supporting a user in a sleep-aid mode in accordance with one embodiment of the present invention.

Reference numerals:

100. a mattress;

1. a first structural layer;

2. a second structural layer;

3. a third structural layer;

31. an inflation and exhaust support;

32. a support member; 321. a spacer support; 322. an inflatable support;

33. an arrangement area;

331. a neck placement area; 332. a waist placement region;

333. a knee arrangement region; 334. a hip placement area;

34. a first edge protection zone;

35. a second edge protection zone;

4. and a control box.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the accompanying drawings are illustrative only for the purpose of explaining the present invention, and are not to be construed as limiting the present invention.

In the description of the present invention, it is to be understood that the terms "length," "width," "upper," "lower," "front," "rear," "left," "right," "horizontal," "top," "bottom," "inner," "outer," and the like are used in the orientations and positional relationships indicated in the drawings for convenience in describing the present invention and for simplicity in description, and are not intended to indicate or imply that the referenced devices or elements must have a particular orientation, be constructed in a particular orientation, and be operated in a particular manner and therefore should not be construed as limiting the present invention.

A mattress 100 according to an embodiment of the present invention will now be described with reference to the drawings.

The mattress 100 according to the embodiment of the present invention, as shown in fig. 1 and 2, includes: a first structural layer 1, a second structural layer 2 and a third structural layer 3.

As shown in fig. 1 and 2, the second structural layer 2 is disposed below the first structural layer 1.

As shown in fig. 1 and 2, the third structural layer 3 is located between the first structural layer 1 and the second structural layer 2. That is, the first structural layer 1 is located at the upper portion of the third structural layer 3, and the second structural layer 2 is located at the lower portion of the third structural layer 3.

As shown in fig. 3, the third structural layer 3 includes an inflation and exhaust support 31 and a support 32, and the inflation and exhaust support 31 is located between the support 32 and the first structural layer 1.

The inflated support 31 has a sleep-aid mode and a deactivated mode. In the sleep-aid mode, the charging and discharging support 31 changes the distance between the support 32 and the first structural layer 1 by adjusting the internal pressure; in the deactivated mode, the gas-filled support 31 is vented to equalize the distance across the support 32 and the first structural layer 1.

As can be seen from the above structure, in the mattress 100 according to the embodiment of the utility model, the second structural layer 2 is disposed at the lower portions of the first structural layer 1 and the third structural layer 3, so that the second structural layer 2 can simultaneously support the first structural layer 1 and the third structural layer 3, thereby improving the structural stability of the mattress 100, enabling the first structural layer 1 to effectively support a user, and improving user experience.

Through setting up first structural layer 1 on the upper portion of third structural layer 3, first structural layer 1 can laminate the user's health, promotes mattress 100's comfort level to guarantee that the user can not direct contact aerify exhaust support piece 31 and support piece 32 at the in-process that uses mattress 100, prolong the life of aerifing exhaust support piece 31 and support piece 32, and improve mattress 100's comfort level, promote user experience.

The third structural layer 3 is arranged between the first structural layer 1 and the second structural layer 2, the first structural layer 1 and the second structural layer 2 are matched to protect the third structural layer 3, the service life of the third structural layer 3 is prolonged, namely the service lives of the inflating and deflating support piece 31 and the support piece 32 are prolonged, and the use cost of the mattress 100 is reduced.

A support 32 is arranged in the third structural layer 3, and the support 32 is used for supporting the first structural layer 1 on one hand, so that the first structural layer 1 can stably support a user; on the other hand, because the charging and discharging support member 31 is disposed between the support member 32 and the first structural layer 1, the support member 32 can also function as a support for the charging and discharging support member 31, thereby ensuring that the charging and discharging support member 31 can be smoothly switched between the sleep-assisting mode and the deactivation mode.

Aerify exhaust support piece 31 can change the distance between support piece 32 and the first structural layer 1 under the mode of helping sleeping to change the height on mattress 100 surface, make mattress 100 can conform to the natural curve of user's health, make the vertebra be in the natural state of relaxing, the pressure that the muscle received when alleviateing user's sleep effectively lets the user relax completely, reaches deep sleep, promotes user experience.

When the inflation/exhaust support 31 is fully exhausted to switch the inflation/exhaust support 31 to the deactivated mode, the inflation/exhaust support 31 can ensure that the distances between the support 32 and the first structural layer 1 are equal, thereby ensuring the smoothness of the surface of the mattress 100 and improving the aesthetic appearance of the mattress 100. The sufficient exhaust of the inflated and exhausted supporting member 31 means that the inflated and exhausted supporting member 31 is in a completely deflated state, and after the inflated and exhausted supporting member 31 is completely deflated, the thickness of the inflated and exhausted supporting member 31 is negligible, and a hidden state is formed, so that the distances between the supporting member 32 and the first structural layer 1 are equal.

It should be noted that, when the inflation/exhaust supporting member 31 is switched from the deactivation mode to the sleep-aiding mode, the distance between the supporting member 32 and each position of the first structural layer 1 is continuously adjusted, so that the surface of the first structural layer 1 is in an uneven state, and the mattress 100 can conform to the natural curve of the body of the user, so that the spine is in a natural relaxation state, the pressure on the muscles during sleep is effectively reduced, the user is completely relaxed, deep sleep is achieved, and the user experience is improved.

It can be understood that, compared with the prior art, the mattress 100 of the present application has the inflatable support 31 disposed between the support 32 and the first structural layer 1, and the inflatable support 31 has the sleep-assisting mode and the non-active mode, so as to ensure that the mattress 100 stretches the muscles of the user and improves the sleeping quality of the user, and at the same time, the surface of the mattress 100 has a certain flatness, thereby improving the comfort of the mattress 100.

In the description of the utility model, features defined as "first", "second" and "third" may explicitly or implicitly include one or more of the features for distinguishing between the described features, whether they are sequential or not.

Alternatively, the second structural layer 2 may be one of a palm mat, a coconut mat or an air fiber mat. Which serves to increase the load bearing capacity of the mattress 100 and to provide the mattress 100 with a certain moisture barrier.

Optionally, the first structural layer 1 may be one of a latex pad, a silicone pad, or a memory foam pad. To improve the comfort when the user uses mattress 100, promote user experience.

In other examples, the first structural layer 1 and the second structural layer 2 may both be formed as bed cover layers. The bedspread is sleeved outside the third structural layer 3, and the bedspread can improve the beauty of the mattress 100 and limit the positions among the components inside the third structural layer 3, thereby improving the position stability of the third structural layer 3.

Alternatively, the inflation and deflation support member 31 may be an air bag. The air bags utilize the compressibility of air to realize elastic deformation, and the height of the air charging and exhausting support piece 31 is adjusted, so that the air charging and exhausting support piece 31 has a sleep aiding mode and a stop-using mode, and the air bags are flaky after full air discharging, do not occupy space, ensure that the surface of the mattress 100 can have certain flatness when the mattress 100 achieves the purpose of stretching the muscles of a user, and improve the comfort level of the mattress 100.

Optionally, as shown in fig. 3, the mattress 100 further includes a control box 4, an air pump and an air pipe (not shown in the figure), the control box 4 is provided with an electric control system and an air pump, the electric control system is electrically connected with the air pump, the air pump is connected with the air pipe, and the inflation and deflation supporting member 31 is connected with the air pipe. The control box 4 provides space for the arrangement of the electric control system, the air pump and the air pipe, the control box 4 can also play a role in protecting the air pump and the air pipe, the service lives of the air pump and the air pipe are prolonged, the use cost of the mattress 100 is reduced, the air pump is connected with the inflating and exhausting support piece 31 through the air pipe, the electric control system can conveniently control the inflating and exhausting support piece 31 to inflate or exhaust, and therefore the inflating and exhausting support piece 31 can be switched between a sleep-assisting mode and a non-use mode.

Alternatively, as shown in fig. 3, the control box 4 is disposed at the rear of the mattress 100. The control box 4 can be kept away from the head of the user by the arrangement, and the interference of noise generated by the working of the air pump to the user is reduced, so that the influence of the air pump on the sleeping environment of the user is reduced, and the quiet sleeping environment is kept.

Optionally, as shown in fig. 3, the third structural layer 3 further includes a first edge protection region 34 and a second edge protection region 35, and the first edge protection region 34 and the second edge protection region 35 are located between the first structural layer 1 and the second structural layer 2 and are respectively bonded to the first structural layer 1 and the second structural layer 2 to achieve the fixed connection between the first structural layer 1 and the second structural layer 2, and the third structural layer 3, so that the mattress 100 is formed into a unitary structure.

Optionally, the first edge protection zones 34 include two, two first edge protection zones 34 are arranged at intervals and extend along the width direction of the mattress 100; the second edge protection zones 35 include two second edge protection zones 35, the two second edge protection zones 35 are spaced apart and extend along the length direction of the mattress 100, and two ends of the second edge protection zones 35 are respectively connected to the same side of the two first edge protection zones 34. In order to enclose into hollow structure with third structural layer 3, be convenient for arrange support piece 32 and aerify exhaust support piece 31, first safe edge area 34 and the cooperation of second safe edge area 35 are mainly for the inner structure of fixed third structural layer 3, guarantee that mattress 100 can not lead to support piece 32 and aerify exhaust support piece 31 to take place the position change because of rocking in the in-process of packing or transportation, improve mattress 100's structural stability.

It should be noted that the longitudinal direction referred to herein is the front-back direction of the mattress 100 shown in fig. 3; the width direction is the left-right direction of the mattress 100 shown in fig. 3.

Alternatively, the first edge protection zone 34 and the second edge protection zone 35 may be made of materials having certain elastic deformability and certain hardness. Make first safe edge area 34 and second safe edge area 35 have certain supporting role, guarantee that the user is at the in-process of using mattress 100, the bed body is peripheral not to collapse, and can promote the travelling comfort in first safe edge area 34 and second safe edge area 35.

In some embodiments of the present invention, in the sleep-aid mode, the first structural layer 1 surface relief changes form rhythms. Here, when the charging and discharging support 31 is in the sleep-aiding mode, the surface of the first structural layer 1 generates concave-convex changes and forms rhythms, and the rhythms can play a role in massaging a user, so that the fatigue of the user body is relieved, and the effect of relieving the body pressure is achieved.

Alternatively, as shown in fig. 3, the charging and discharging support 31 includes a plurality of charging and discharging supports 31, the plurality of charging and discharging supports 31 are arranged between the support 32 and the first structural layer 1 at intervals, each of the plurality of charging and discharging supports 31 has a sleep-assisting mode and a stop-motion mode, and each of the charging and discharging supports 31 is connected to an air pump through an air pipe, and the electronic control system can respectively charge or discharge one or more of the charging and discharging supports 31 by controlling the air pump. The electric control system can realize the wave rhythm of the first structural layer 1 by controlling the inflation and the exhaust of the inflation and exhaust supporting members 31 and controlling the inflation and exhaust sequence of the plurality of inflation and exhaust supporting members 31, thereby playing the effects of relieving the physical fatigue of the user and relieving the physical stress.

In the description of the present invention, "a plurality" means two or more unless otherwise specified.

Optionally, in the deactivated mode, the first structural layer 1 remains flat. That is, the electronic control system controls the inflation/exhaust support 31 to exhaust so that the inflation/exhaust support 31 is formed into a sheet shape, the sheet-shaped inflation/exhaust support 31 does not occupy the space between the support 32 and the first structural layer 1, the distances between the support 32 and the first structural layer 1 are equal, and the first structural layer 1 is further ensured to be flat, so that the surface of the mattress 100 has certain flatness, and the comfort of the mattress 100 is improved.

In some embodiments of the utility model, as shown in FIG. 3, the support member 32 includes a spacer support member 321 and an inflatable support member 322, the spacer support member 321 and the inflatable support member 322 being arranged adjacent to one another along the length of the mattress 100. The inflatable supporting piece 322 is mainly used for improving the hardness of the mattress 100 so as to meet the requirements of different users on different hardness of the mattress 100, and the inflatable supporting piece 322 can generate rhythm so as to improve the comfort of the mattress 100 and improve the sleeping experience of the users; the spacing support 321 can play a role in supporting the mattress 100, so that the mattress 100 is prevented from being partially depressed during the use of the mattress 100 by a user, the shape retention capability of the mattress 100 is improved, the comfort of the mattress 100 can be ensured by the spacing support 321, the volume of the inflatable support 322 is reduced, and the production cost of the mattress 100 is saved.

Optionally, the inflatable support 322 is connected to an air pump through an air tube, and the electronic control system can control the inflation or deflation of the inflatable support 322. Therefore, the inflatable supporting pieces 322 can improve the hardness of the mattress 100 so as to meet the requirements of different users on different hardness of the mattress 100, and the electric control system controls the inflation and exhaust of the inflatable supporting pieces 322 and the inflation and exhaust sequence of the inflatable supporting pieces 322 to realize the wave rhythm of the third structural layer 3, namely the wave rhythm of the first structural layer 1, so that the comfort level of the mattress 100 is improved, and the sleeping experience of the users is improved.

Optionally, the inflatable support 322 may be an air bag, which utilizes the compressibility of air to achieve elastic deformation, thereby improving the softness and hardness of the mattress 100 and enhancing user experience.

Alternatively, the spacer support 321 and the inflatable support 322 may be adhesively attached to the first bead region 34 or the second bead region 35, respectively. So that the third structural layer 3 is formed as an integral structure and the positional stability of the third structural layer 3 is improved.

In a specific example, the inflatable support 322 is attached to the first border area 34 or the second border area 35 by means of a hook and loop fastener. The magic tape can not damage the inflatable supporting piece 322 in a sticking mode, and the electric control system can effectively control the inflatable supporting piece 322 to inflate or exhaust so as to improve the comfort level of the mattress 100.

Of course, in other examples, the connection between the spacing support 321 and the inflatable support 322 and the first edge protection zone 34 or the second edge protection zone 35 is not limited to the above-mentioned bonding, and other connection methods can be used as long as the structural stability of the third structural layer 3 is ensured and the softness and hardness of the mattress 100 can be adjusted by the inflatable support 322.

It should be noted that, because the spacing support 321 is disposed on the third structural layer 3, the volume of the inflatable support 322 is correspondingly reduced, on one hand, the material consumption of the inflatable support 322 is reduced, and the production cost of the mattress 100 is saved; on the other hand, the power of the air pump required by the inflatable supporting piece 322 is reduced, the noise is relatively reduced, the rhythm efficiency of the inflatable supporting piece 322 is improved, and the user experience is improved.

Optionally, the surfaces of the spacer support 321 and the inflatable support 322 are flush when the inflatable exhaust support 31 is in the deactivated mode. That is, the distance between the spacer support 321 and the inflatable support 322 to the first structural layer 1 is the same, which ensures that the surface of the mattress 100 is smooth when the inflatable support 31 is in the inactive mode, and improves the smoothness and aesthetic appearance of the mattress 100.

It should be noted that when the inflatable support 31 is in the deactivated mode, the mattress 100 is not used by the user. Sufficiently exhausting charging support 31 may extend the useful life of charging support 31.

In other examples, the user may have a short rest or may not want to use the inflatable support 31 during the use of the mattress 100, and the inflatable support 31 is fully exhausted, so as to improve the flatness of the surface of the mattress 100 for the user to use.

Alternatively, in the deactivated mode, the charging and discharging support 31 is fully discharged, the charging and discharging support 31 is formed in a sheet shape, the top surface of the charging and discharging support 31 is attached to the first structural layer 1, and the bottom surface of the charging and discharging support 31 is attached to the support 32. Make support piece 32 and first structural layer 1 distance everywhere equal, and then guarantee that first structural layer 1 keeps leveling for the surface of mattress 100 has certain planarization, and mattress 100 after filling the exhaust support piece 31 and fully exhausting is similar to traditional mattress, that is to say, the mattress 100 of this application can switch between traditional mattress and the mattress 100 that has the mode of helping sleep, improves mattress 100's practicality.

Optionally, the spacing support 321 is a sponge or a fiber. Sponge spare or fiber spare homoenergetic guarantee that interval support piece 321 produces elastic deformation under the load effect, can resume original geometric dimensions and shape after removing the load to this improves mattress 100's comfort level, and when the user used mattress 100, sponge spare or fiber spare self still had certain intensity, makes interval support piece 321 can support the user, guarantees that mattress 100 can not appear local sunken phenomenon, promotes user experience.

Of course, in other examples, the spacing support 321 is not limited to the sponge or the fiber, and the spacing support 321 may be made of a material having a certain elastic deformation ability. The specific material of the spacing support 321 is not particularly limited as long as it has a certain elastic deformation force and a certain supporting force.

Alternatively, as shown in FIG. 3, each of the spaced-apart support members 321 and the inflatable supports 322 may comprise a plurality of sets, with one set of inflatable supports 322 disposed between at least two sets of spaced-apart support members 321. By arranging the inflatable bearing piece 322 between the two groups of the spacing support pieces 321, on one hand, the spacing support pieces 321 can play a role in limiting the position of the inflatable bearing piece 322, so that the position of the inflatable bearing piece 322 is ensured to be stable, rhythm can be effectively generated, and the sleeping experience of a user is improved; on the other hand, since the spacer supports 321 have a certain elastic deformation capability, during the inflation of the inflatable support 322, the inflatable support 322 has a larger volume and presses the adjacently disposed spacer supports 321 to deform, and the deformation of the spacer supports 321 will not hinder the deformation of the inflatable support 322, thereby ensuring that the inflatable support 322 has a sufficient deformation amount, during the exhaust of the inflatable support 322, the volume of the inflatable support 322 becomes smaller and the pressing force acting on the adjacently disposed spacer supports 321 becomes smaller, at this time, the spacer supports 321 can restore their original shapes by using their own elastic restoring force, thereby improving the shape retaining capability of the mattress 100.

Optionally, at least one set of spaced apart supports 321 is provided at the upper and lower regions of the mattress 100. It should be noted that the upper region of the mattress 100 referred to herein corresponds to the front region shown in fig. 3; the lower region of the mattress 100 referred to herein corresponds to the rear region shown in fig. 3. Since the upper region of the mattress 100 corresponds to the head of the user and the lower region of the mattress 100 corresponds to the feet of the user during the use of the mattress 100 by the user, and the head and the feet of the user do not need to be greatly lifted up during the use of the mattress 100 by the user, if the upper region and the lower region of the mattress 100 are provided with the inflatable supporting members 322, the inflatable supporting members 322 cannot exert their effects, the upper region of the mattress 100 or the lower region of the mattress 100 is provided with the spacing supporting members 321, and the spacing supporting members 321 can reduce the volume of the inflatable supporting members 322 while supporting the head and the feet of the user, thereby saving the production cost of the mattress 100.

In a particular example, both the upper and lower regions of the mattress 100 are provided with a set of spaced apart supports 321. The volume of the inflatable support 322 is reduced, so that the air pump power required by the inflatable support 322 is smaller, the efficiency is improved, the noise is relatively reduced, and the use cost of the mattress 100 is saved.

Optionally, at least one set of inflatable supports 322 is provided in the middle region of the mattress 100. It should be noted that, the middle region of the mattress 100 mentioned here corresponds to the upper region and the lower region of the mattress 100, and the middle region of the mattress 100 is located in the middle of the mattress 100 in the front-back direction of the mattress 100, because the middle region of the mattress 100 corresponds to the hip or waist of the user in the process of using the mattress 100 by the user, the structure located in the hip or waist region of the user is set as the inflatable supporting member 322, and the inflatable supporting member 322 can not only provide reasonable supporting performance for the third structural layer 3 of the mattress 100, but also meet the requirements of different hardness adjustments of the user, and at the same time, the internal pressure of the inflatable supporting member 322 is adjusted by the electric control system, so that the inflatable supporting member 322 can automatically fit the curve of the waist or hip of the user, thereby ensuring that the waist or the hip bears pressure uniformly, and improving the user experience.

Alternatively, as shown in FIG. 3, the cross-section of the spacer support 321 and the cross-section of the inflatable support 322 are both rectangular. The space support 321 and the inflatable support 322 are matched to enable the third structural layer 3 to be formed into a cuboid structure, so that the third structural layer 1 and the second structural layer 2 can be matched conveniently, and the space support 321 and the inflatable support 322 can ensure that the surface of the third structural layer 3 does not have a concave phenomenon, so that the third structural layer 3 has a certain height and flexibility, the comfort and the aesthetic degree of the third structural layer 3 are improved, and the pressure of the inflatable support 322 is adjusted, so that the requirements of users on mattresses 100 with different softnesses can be met.

Optionally, the cross-section of the charging and discharging support 31 is oblong. Here, the projection of the inflation and exhaust support 31 on the horizontal plane is oblong, that is, after the inflation of the inflation and exhaust support 31 is completed, the inflation and exhaust support 31 is formed into a cylindrical structure, and the cylindrical inflation and exhaust support 31 increases the inflation height of the inflation and exhaust support 31 relative to the rectangular parallelepiped inflation support 322, so that the lifting height of the inflation and exhaust support 31 can be ensured, and the inflation and exhaust support 31 is formed into a sheet shape after the inflation and exhaust support 31 is exhausted, which does not occupy space and ensures the flatness of the surface of the mattress 100.

Alternatively, the inflation and deflation support 31 may be selected from TPU (Thermoplastic polyurethanes, Thermoplastic polyurethane elastomer rubber) bladders. By configuring the inflation and exhaust support member 31 as a TPU airbag, the loading capacity, impact resistance, and shock absorption of the inflation and exhaust support member 31 are enhanced, so that the inflation and exhaust support member 31 can stably support a user.

In some embodiments of the utility model, the inflated cross-section of the inflated support 31 is smaller than the cross-section of the support 32. Here, the area of the supporting member 32 is larger than that of the charging and discharging supporting member 31, and the supporting member 32 having a larger area can support the charging and discharging supporting member 31, so that the position of the charging and discharging supporting member 31 is stable, and the charging and discharging supporting member 31 can effectively charge or discharge air to increase the height of the charging and discharging supporting member 31, thereby supporting the user.

Optionally, as shown in fig. 3, the third structural layer 3 forms a plurality of arrangement zones 33 along the length of the mattress 100. That is, the plurality of arrangement regions 33 are sequentially arranged in the front-rear direction of the mattress 100, the plurality of arrangement regions 33 may correspond to different parts of the user's body, and the placement position of the inflatable support 31 or the support 32 may be determined according to the position of the arrangement regions 33 during the production of the mattress 100, thereby improving the assembly efficiency of the mattress 100 and reducing the assembly difficulty of the mattress 100.

Alternatively, as shown in fig. 3, the plurality of arrangement regions 33 includes at least a neck arrangement region 331, a waist arrangement region 332, and a knee arrangement region 333, and the plurality of inflatable supports 31 are arranged at the neck arrangement region 331. According to the human engineering, the concave-convex change of the contours of the neck, the waist and the knees of the user is large, the plurality of air charging and exhausting supporting pieces 31 are arranged in the neck arrangement area 331, when the air charging and exhausting supporting pieces 31 in the neck arrangement area 331 are in the sleep-assisting mode, reasonable supporting force can be provided for the neck of the user, the internal pressure of the air charging and exhausting supporting pieces 31 can be adjusted through an electric control system to massage and relax the neck of the user, and when the air charging and exhausting supporting pieces 31 in the neck arrangement area 331 are in the stop mode after being fully exhausted, the air charging and exhausting supporting pieces can form a sheet shape without occupying space, so that the smoothness of the surface of the mattress 100 is ensured.

Alternatively, the inflation/deflation support member 31 located in the neck region 331 may be fixedly attached to the support member 32 by means of adhesive. The position of the charging and discharging support 31 in the neck arrangement area 331 is stabilized, and the neck of the user can be effectively supported.

Optionally, a plurality of inflatable supports 31 are disposed at the lumbar placement area 332. The inflating and exhausting support member 31 in the waist arrangement area 332 not only can provide reasonable supporting force for the waist of the user when in the sleep-aiding mode, but also can adjust the internal pressure of the inflating and exhausting support member 31 through the electric control system to massage and relax the waist of the user, and the inflating and exhausting support member 31 in the waist arrangement area 332 can form a sheet shape when in the stop mode after being fully exhausted, so that the sheet shape occupies no space, and the surface of the mattress 100 is ensured to be smooth.

Alternatively, the inflatable and deflatable support member 31 located in the lumbar placement area 332 may be fixedly attached to the support member 32 by means of an adhesive. The position of the inflatable support 31 in the lumbar placement area 332 is stabilized, and the waist of the user can be effectively supported.

Optionally, a plurality of inflation and exhaust supports 31 are disposed at the knee arrangement region 333. When the inflation/deflation support member 31 located in the knee arrangement region 333 is in the sleep-assisting mode, not only can a reasonable supporting force be provided for the knees of the user, but also the internal pressure of the inflation/deflation support member 31 can be adjusted through the electric control system to massage and relax the knees of the user, and after the inflation/deflation support member 31 located in the knee arrangement region 333 is fully exhausted, the sheet shape can be formed when the inflation/deflation support member 31 is in the stop mode, the space is not occupied, and the surface of the mattress 100 is ensured to be smooth.

Alternatively, the inflatable and deflatable support 31 located in the knee arrangement region 333 may be fixedly attached to the support 32 by means of gluing. The inflation and deflation support 31 located in the knee arrangement region 333 is positionally stabilized, enabling effective support of the user's knees.

Optionally, as shown in conjunction with figures 3 and 4, the deployment region 33 further comprises a hip deployment region 334, the inflatable support 322 being disposed within the hip deployment region 334. The inflatable support 322 located in the hip region 334 not only provides reasonable support for the third structural layer 3 of the mattress 100, but also meets the requirements of different users for different softness and hardness of the mattress 100; meanwhile, the internal pressure of the inflatable supporting piece 322 is adjusted through the electric control system, so that the inflatable supporting piece 322 can be automatically attached to the hip curve of a user, the uniform pressure bearing of the hip is guaranteed, the over-high pressure of the hip is avoided, and the user experience is improved.

Of course, in some other examples, the arrangement region 33 may further include a first leg arrangement region and a second leg arrangement region (not shown in the figure), the first leg arrangement region corresponds to the thigh of the user, the second leg arrangement region corresponds to the lower leg of the user, and the inflation and exhaust supports 31 are respectively disposed in the first leg arrangement region and the second leg arrangement region, and the legs can be raised by adjusting the air pressure values of the inflation and exhaust supports 31 at the first leg arrangement region and the second leg arrangement region to massage the legs of the user, so as to promote the backflow of blood in the legs, reduce the pressure on the legs of the user, and improve the sleeping experience of the user.

As can be appreciated, the mattress 100 of the present application improves the comfort of not only the upper body (neck and waist) of the user, but also the lower body (hip and leg) of the user, as compared to the prior art, and further improves the user experience.

Alternatively, a plurality of inflatable supports 31 located in the same arrangement region 33 may form a left-right symmetrical arrangement along an axis of symmetry in the lengthwise direction of the mattress 100. By symmetrically arranging the plurality of inflation and exhaust supports 31 in the same arrangement area 33, when the mattress 100 is used by a plurality of users at the same time, the inflation and exhaust supports 31 on the left and right sides of the mattress 100 are independent of each other, and the weight of each user is borne on the inflation and exhaust support 31 on each side independently, so that one user turns over or the inflation and exhaust support 31 on one side only changes the state of the inflation and exhaust support 31 on the same side in the inflation and exhaust process, and the state of the inflation and exhaust support 31 on the other side is not influenced, that is, the user on the inflation and exhaust support 31 on the adjacent side is not influenced, so that a plurality of users can feel comfortable when using the mattress 100.

Alternatively, the two inflatable supports 31 located in the neck region 331 include two inflatable supports 31, and the two inflatable supports 31 are arranged in a left-right symmetry along a symmetry axis of the length direction of the mattress 100. In the practical application process, the electric control system independently controls the left and right air charging and discharging supporting pieces 31 to realize the actions of head twisting and bilateral extrusion massage, thereby enhancing the neck massage effect of the user.

Alternatively, the number of the inflatable supports 31 located in the lumbar placement area 332 may be two, and the two inflatable supports 31 may be arranged in a left-right symmetrical manner along a symmetry axis in the lengthwise direction of the mattress 100. In the practical application process, the electric control system independently controls the left and right air-charging and exhausting supporting pieces 31 to realize the actions of waist twisting and bilateral squeezing massage, so as to enhance the waist massage effect of the user, and the left and right air-charging and exhausting supporting pieces 31 arranged in the waist arrangement area 332 can also assist the user in turning over during the turning over process of the user.

Alternatively, the partially inflated support 31 may comprise a plurality of such members arranged one above the other in the height direction of the mattress 100. In the process of inflating the inflating and exhausting support 31, compared with the case of only providing one inflating and exhausting support 31, the plurality of inflating and exhausting supports 31 stacked in the height direction of the mattress 100 can increase the inflating height of the inflating and exhausting support 31, thereby playing a role of stretching muscles and improving the user experience.

In a particular example, the inflatable support 31 located within the lumbar placement area 332 includes a plurality of air cells arranged in a stacked relationship in the height direction of the mattress 100. The height of the inflation and deflation support 31 located in lumbar placement area 332 is increased so that the mattress 100 of the present application can pull and stretch the user's waist, enhancing the user experience.

Of course, in other examples, the inflatable support 31 located in the neck arrangement region 331 or the knee arrangement region 333 may be provided in a plurality of overlapping positions in the height direction of the mattress 100, and is not particularly limited herein.

The specific structure of the mattress 100 in the specific embodiment of the present invention will be described below with reference to the accompanying drawings. The embodiments of the present invention may be all embodiments in which a plurality of the aforementioned technical solutions are combined, and are not limited to the following specific embodiments.

Example 1

A mattress 100, as shown in FIG. 1, comprising: a first structural layer 1, a second structural layer 2 and a third structural layer 3.

As shown in fig. 1 and 2, the second structural layer 2 is disposed below the first structural layer 1.

Referring to fig. 1 and 3, the third structural layer 3 is located between the first structural layer 1 and the second structural layer 2, the third structural layer 3 includes an inflation/deflation support 31 and a support 32, and the inflation/deflation support 31 is located between the support 32 and the first structural layer 1.

The inflated support 31 has a sleep-aid mode and a deactivated mode. In the sleep-aid mode, the charging and discharging support 31 changes the distance between the support 32 and the first structural layer 1 by adjusting the internal pressure; in the deactivated mode, the gas-filled support 31 is vented to equalize the distance across the support 32 and the first structural layer 1.

Example 2

A mattress 100 is based on embodiment 1, as shown in figure 3, the supporting element 32 comprises a spacing supporting element 321 and an inflatable supporting element 322, the spacing supporting element 321 and the inflatable supporting element 322 are adjacently arranged along the length direction of the mattress 100; when the inflatable and deflatable support 31 is in the deactivated mode, the surfaces of the spacer support 321 and the inflatable support 322 are flush.

Example 3

A mattress 100, on the basis of embodiment 2, as shown in figure 3, a third structural layer 3 forms four arrangement areas 33 along the length direction of the mattress 100, the four arrangement areas 33 respectively comprise a neck arrangement area 331, a waist arrangement area 332, a knee arrangement area 333 and a hip arrangement area 334, a plurality of inflation and deflation supporting pieces 31 are respectively arranged in the neck arrangement area 331, the waist arrangement area 332 and the knee arrangement area 333, and a plurality of inflation supporting pieces 322 are arranged in the hip arrangement area 334.

Example 4

A mattress 100, on the basis of example 3, as shown in fig. 3, two inflatable supports 31 located in a neck region 331 are arranged in bilateral symmetry along a symmetry axis in a length direction of the mattress 100.

As shown in FIG. 3, four sets of inflatable supports 31 located in lumbar placement area 332 form a side-to-side symmetric arrangement along an axis of symmetry along the length of mattress 100.

As shown in fig. 3, the two inflatable supports 31 located in the knee arrangement region 333 are arranged in left-right symmetry along the symmetry axis in the lengthwise direction of the mattress 100.

Example 5

A mattress 100 is based on embodiment 3, and four sets of air inflation and deflation support members 31 are positioned in the lumbar arrangement region 332, and each set of air inflation and deflation support members 31 comprises two air inflation and deflation support members which are arranged in an overlapping manner along the height direction of the mattress 100.

In the description of the present invention, it should be noted that, unless otherwise explicitly specified or limited, the terms "mounted" and "connected" are to be interpreted broadly, e.g., as being either fixedly connected, detachably connected, or integrally connected; either mechanically or electrically. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Other components of the mattress 100 according to embodiments of the present invention, such as the electrical control system controlling the process and principles of inflating or deflating the inflatable supports 31 and inflatable supports 322 are known to those of ordinary skill in the art and will not be described in detail herein.

In the description herein, references to the description of the terms "embodiment," "example," etc., mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the utility model. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

While embodiments of the utility model have been shown and described, it will be understood by those of ordinary skill in the art that: various changes, modifications, substitutions and alterations can be made to the embodiments without departing from the principles and spirit of the utility model, the scope of which is defined by the claims and their equivalents.

Claims (11)

1. A mattress, comprising:

a first structural layer;

a second structural layer disposed below the first structural layer;

a third structural layer between the first and second structural layers, the third structural layer comprising an inflation and deflation support and a support, the inflation and deflation support being between the support and the first structural layer;

the charging support has a sleep-assist mode and a deactivated mode;

in the sleep-assist mode, the inflated support changes a distance between the support and the first structural layer by adjusting an internal pressure;

in the deactivated mode, the charging and discharging support is exhausted such that the support and the first structural layer are equidistant throughout.

2. The mattress of claim 1, wherein in the sleep-aid mode, the first structural layer surface irregularity changes to form rhythms; in the deactivated mode, the first structural layer remains flat.

3. The mattress of claim 1, wherein the support members include spacer support members and inflatable support members, the spacer support members and the inflatable support members being arranged adjacent one another along a length of the mattress; the spacer support and the inflatable support are flush in surface when the inflatable exhaust support is in the deactivated mode.

4. The mattress of claim 3 wherein in the deactivated mode, the inflatable supports are substantially deflated, the inflatable supports are formed in a sheet shape, a top surface of the inflatable supports conforms to the first structural layer, and a bottom surface of the inflatable supports conforms to the supports.

5. A mattress as claimed in claim 3 wherein the spacer support is a sponge or fabric.

6. A mattress as claimed in claim 3 wherein the spacer supports and the inflatable supports each comprise a plurality of sets, at least two sets of the spacer supports having one set of the inflatable supports disposed therebetween, at least one set of the spacer supports being disposed in upper and lower regions of the mattress and at least one set of the inflatable supports being disposed in a middle region of the mattress.

7. A mattress as claimed in claim 3, wherein the cross-section of the spacer support member and the cross-section of the inflatable support member are both rectangular and the cross-section of the inflatable support member is oblong.

8. The mattress of any one of claims 1-7 wherein the inflated cross-section of the inflatable support is smaller than the cross-section of the support.

9. The mattress of claim 8, wherein the third structural layer forms a plurality of deployment zones along a length of the mattress, the plurality of deployment zones including at least a neck deployment zone, a waist deployment zone, and a knee deployment zone, the plurality of inflatable supports being respectively deployed at the neck deployment zone, the waist deployment zone, and the knee deployment zone.

10. The mattress of claim 9, wherein a plurality of said inflatable supports located in the same deployment area are disposed in a side-to-side symmetrical arrangement along an axis of symmetry along the length of the mattress.

11. The mattress of claim 8 wherein some of the inflatable supports comprise a plurality of inflatable supports arranged one above the other in the height direction of the mattress.

Images