CN211722516U - Intelligent mattress selection device - Google Patents

Abstract

The utility model discloses an intelligent selection device for a mattress, which comprises a mattress for testing, a cloud server, a tablet personal computer and a client; when the mattress is used, the mattress for testing transmits the weight and area data of each pressed part of the mattress for testing to the cloud server through the WIFI module, the cloud server is used for matching the information with the information of mattresses of various types in a database thereof, searching out an ideal mattress suitable for a customer, and pushing the hardness values of each part of the ideal mattress to the tablet personal computer, and the tablet personal computer can control the control module to adjust the hardness of each part of the mattress for testing, and the customer can manually finely adjust the hardness according to the preference of the customer until the customer is satisfied; and then recommending the alternative mattresses of the user according to the hardness values of all parts of the test mattress which are satisfied by the customer, and pushing the information of the alternative mattresses to the client so as to realize the intelligent selection of the mattresses.

Description

Intelligent mattress selection device

Technical Field

The utility model relates to a mattress selection device especially relates to a mattress intelligent selection device.

Background

Along with the development of society people to the attention degree of healthy sleep constantly improve, the comfort level requirement of human sleep can not fully be satisfied to mattress on the present society, because the fixed unable accurate fit body curve of line footpath, it is too hard, the people lies on the waist unsettled, unable fine bearing lumbar vertebrae, must lean on back muscle to support the backbone, the backbone just is in tense state all the time like this, the backbone and back muscle all can not relax all night, the injury to the backbone is very big like this, the sleep also can not be good. If the mattress is too soft, the whole body can be sunken when a person lies down, the normal radian of the spine of the human body is changed, the spine is bent or twisted, related muscles and ligaments are tightened, and the person cannot fully relax and rest for a long time, so that the feeling of waist soreness and leg pain is caused.

Based on the requirements of different users, the design of the mattress is more and more humanized, the variety of the mattress is also varied, and even if the same brand has a plurality of products with different hardness, the difference of the requirements of consumers on the hardness of the mattress is also proved to be great, so that the problem in the industry is how to customize the mattress with moderate hardness and suitable for the physiological curve of the user according to the stature of the user.

SUMMERY OF THE UTILITY MODEL

In order to solve the difficult problem of the above industry, the utility model provides a mattress intelligence selection device to make the consumer rapidly, accurately choose the mattress that is fit for self physiology curve, the hardness is moderate.

The content is as follows:

the utility model discloses an intelligent mattress selection device, which is characterized by comprising a test mattress, a cloud server, a tablet personal computer and a client;

the mattress for testing comprises a first front fabric layer or a quilt layer, a second foam soft material layer, a third intelligent module and control module layer, a fourth U-shaped sponge layer, a fifth hard bottom plate bearing layer and a sixth reverse fabric layer or quilt layer from top to bottom in sequence; the intelligent module comprises springs, air bags, pressure sensors, a base, an air pipe and an air pump, wherein each air bag is cylindrical and is wrapped around each spring, the air bags are communicated with one another inside, the pressure sensors are arranged on the front surface of the base, the springs are arranged on the pressure sensors, one end of the air pipe is communicated with the air bags, and the other end of the air pipe is communicated with the air pump; the control module consists of a control chip, a WIFI module and a circuit, and the pressure sensor and the air pump are electrically connected with the control module; the test mattress is internally provided with a plurality of intelligent modules which are arranged along the length direction of the mattress;

the cloud server and the tablet computer are in signal connection with the control module; the cloud server comprises a database, the database comprises information of a plurality of mattresses, the cloud server can receive pressure data of the pressure sensors, and the tablet personal computer can control the control module through WIFI signals; the cloud server is in signal connection with the client.

Furthermore, the quilt layers on the front and back surfaces of the mattress are formed by sewing one or more quilts of cloth, sponge, latex, silk floss and non-woven fabrics together.

Further, the second layer of the soft foam material layer is composed of a sponge layer, a latex layer or a mixed layer of latex sponge materials, and the total thickness of the second layer of the soft foam material layer is 1-8 cm; the intelligent module is arranged at the central position of the mattress, and the control module is arranged at the tail of the bed.

Further, the fourth layer U-shaped sponge layer is used for fixing the third layer intelligent module and the control module layer and is composed of special-shaped structure sponge or pearl cotton materials, a U-shaped groove consistent with the length and the width of the intelligent module base is formed in the upper surface of the U-shaped sponge layer, the intelligent module is fixed in the U-shaped groove in an adhering mode, and the air bag is arranged above the U-shaped groove.

Furthermore, the thickness of the hard bottom plate bearing layer is 1.5-3cm, and the material is hemp and chemical fiber, or palm and chemical fiber, or full chemical fiber hot-press bonding plate, or wooden plate, or metal plate.

Furthermore, the client is a mobile phone and comprises a text introduction interface, a recommended mattress model interface, a manufacturer and a quotation interface, and the text introduction interface is used for recommending a mattress suitable for a customer, introducing the characteristics of the mattress and giving corresponding quotation.

The control module is used for adjusting the hardness of each part of the mattress for testing, the mattress for testing transmits the weight and area data of each pressed part of the mattress for testing to the cloud server through the WIFI module, the cloud server is used for matching the weight and area information of each pressed part of the mattress for testing with the information of the mattresses of various models in the database, an ideal mattress suitable for a customer is searched out, the hardness value of each part of the ideal mattress is pushed to the tablet personal computer, the tablet personal computer can control the control module to adjust the hardness of each part of the mattress for testing, the tablet personal computer refers to the hardness value of each part of the ideal mattress to adjust the hardness value of each part of the mattress satisfying the customer, the customer can also manually fine adjust the hardness according to the preference, or the mattress automatically adjusts the hardness when the customer lies on the mattress for testing, automatically adjusting once from soft to hard until meeting the requirements of consumers and satisfying the consumers; and recommending a user alternative mattress according to the hardness values of all parts of the mattress satisfying the customer, and pushing the information of the alternative mattress to the client, thereby completing the intelligent selection of the mattress and selecting the mattress with proper hardness and suitable for the physiological curve of the customer.

More in detail, the utility model discloses before the mattress intelligence selection device used, at first to the test zero clearing of mattress weight data, the automatic gassing to the spring gasbag of arranging in softest state, the spring was in minimum compression amount this moment. After the consumer lies on going, continuously aerifing the pressurization to the spring gasbag, the pressure sensor real-time measurement spring atress size in the intelligent die set, data feedback gives the control module group, and control chip in the control module group obtains the deformation volume that pushes down of spring simultaneously according to spring hooke's law F ═ KX, and then obtains the compression deformation volume of each position spring below whole health. And simultaneously collecting the gas pressure data of each air bag until the spring reaches a set maximum pressure value. For the data, firstly, screening a data set with the compression deformation values of the shoulder and hip springs being basically the same (the difference is less than or equal to 2cm), and the two compression deformation values being between 3 and 8cm, and simultaneously containing the compression amount of the waist at the corresponding pressure, then, screening the data again, and picking out the data with the minimum waist indentation, wherein at the moment, the fitting area of the mattress and the body is considered to be the largest, the average pressure of the mattress on the surface of the body is the smallest, the waist support is the most favorable, the mattress and the human body reach the best matching state, and therefore, the spring elasticity data fn and the air pressure P in the air bag are recorded at the moment.

The specific test data are as follows:

the elastic force of each compression spring is recorded as F1, F2 and F3 … fn, and the sum of the elastic forces generated by all the compression springs is F1+ F2+ F3+ … fn;

the area of the air bag around each spring is fixed, and the area of the air bag around each spring S1 and the support area of the spring S2 can be measured in advance. According to the number n of the detected compression deformation springs, the supporting area S of the air bag to the human body is S1 × n, the supporting area S of the spring to the human body is S2 × n, and the total supporting area S is S + S1 + S2 × n;

the pressure of the spring air bag is directly measured, and then the supporting force F of the air bag to the body is obtained, wherein the supporting force F is P air S air, the supporting force F of the spring and the air bag to the human body is F bullet + F air, namely the optimal pressure P of the mattress to the human body is F bullet + F air)/(S1 n + S2 n (F1+ F2+ F3+ … fn + P air S1 n)/(S1 n + S2 n);

and testing the pressure intensity and hardness of the mattress with various hardness. The test load pad shape, specification was performed in accordance with QB/T1952.2-2011 spring soft mattress annex a (a.2.1), load pad area S pad. Recording the variation of the pressure F cushion between 0N and 1000N, pressing the corresponding mattress for the distance H cushion, generating a corresponding variation curve graph of the pressure P cushion and the pressing distance H cushion, selecting the mattress with the pressure P cushion being P best and the indentation depth H cushion being 3-8cm, and recommending the proper mattress name to consumers through various terminals.

Drawings

Fig. 1 is a schematic view of the overall structure of a test mattress.

Fig. 2 is a schematic structural diagram of an intelligent module in a test mattress.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention will be further described in detail with reference to the accompanying drawings and examples. It should be noted that the implementations not shown or described in the drawings are in a form known to those of ordinary skill in the art. Further, directional terms such as "head", "tail", "width direction", "length direction", and the like, which are referred to in the following embodiments, are directions only referring to the drawings. Accordingly, the directional terminology is used for purposes of illustration and is in no way limiting.

As shown in fig. 1-2, the intelligent mattress selection device of the present invention is characterized by comprising a mattress for testing, a cloud server, a tablet computer, and a client;

the mattress for testing comprises a first front fabric layer or a diffraction seam layer, a second foam soft material layer 1, a third intelligent module 3, a control module 10, a fourth U-shaped sponge layer, a fifth hard bottom plate supporting layer and a sixth reverse fabric layer or a diffraction seam layer from top to bottom in sequence; the intelligent module comprises springs 5, air bags 6, pressure sensors 7, a base 8, an air pipe 9 and an air pump, wherein each air bag is cylindrical and is wrapped around each spring, the interiors of the air bags are communicated, the pressure sensors are arranged on the front surface of the base, the springs are arranged on the pressure sensors, one end of the air pipe is communicated with the air bags, and the other end of the air pipe is communicated with the air pump; the control module 10 consists of a control chip, a WIFI module and a circuit, and the pressure sensor and the air pump are electrically connected with the control module; the test mattress is internally provided with a plurality of intelligent modules which are arranged along the length direction of the mattress;

the cloud server and the tablet computer are in signal connection with the control module; the cloud server comprises a database, the database comprises information of a plurality of mattresses, the cloud server can receive pressure data of the pressure sensors, and the tablet personal computer can control the control module through WIFI signals; the cloud server is in signal connection with the client.

Furthermore, the quilt layers on the front and back surfaces of the mattress are formed by sewing one or more quilts of cloth, sponge, latex, silk floss and non-woven fabrics together.

Further, the second layer of the soft foam material layer is composed of a sponge layer, a latex layer or a mixed layer of latex sponge materials, and the total thickness of the second layer of the soft foam material layer is 1-8 cm; the intelligent module is arranged at the central position of the mattress, and the control module is arranged at the tail of the bed.

Further, the fourth layer U-shaped sponge layer is used for fixing the third layer intelligent module and the control module layer and is composed of special-shaped structure sponge or pearl cotton materials, a U-shaped groove 4 consistent with the length and the width of the intelligent module base is formed in the upper surface of the U-shaped sponge layer, the intelligent module is fixed in the U-shaped groove in an adhering mode, and the air bag is arranged above the U-shaped groove.

Furthermore, the thickness of the hard bottom plate bearing layer is 2cm, and the hard bottom plate bearing layer is made of a wood plate. The mattress is wrapped by a cloth coat or a quilting layer coat, and the coat is provided with an opening on the back side and is provided with a zipper. A circle of edge-protecting sponge 2 is arranged around the mattress.

Furthermore, the client is a mobile phone and comprises a text introduction interface, a recommended mattress model interface, a manufacturer and a quotation interface, and the text introduction interface is used for recommending a mattress suitable for a customer, introducing the characteristics of the mattress and giving corresponding quotation.

Although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described in the foregoing embodiments, or equivalents may be substituted for elements thereof. Any modification, equivalent replacement, or improvement made within the spirit and principle of the utility model should be included in the protection scope of the utility model.

Claims (6)

1. An intelligent mattress selection device is characterized by comprising a test mattress, a cloud server, a tablet personal computer and a client;

the mattress for testing comprises a first front fabric layer or a quilt layer, a second foam soft material layer, a third intelligent module and control module layer, a fourth U-shaped sponge layer, a fifth hard bottom plate bearing layer and a sixth reverse fabric layer or quilt layer from top to bottom in sequence; the intelligent module comprises springs, air bags, pressure sensors, a base, an air pipe and an air pump, wherein each air bag is cylindrical and is wrapped around each spring, the air bags are communicated with one another inside, the pressure sensors are arranged on the front surface of the base, the springs are arranged on the pressure sensors, one end of the air pipe is communicated with the air bags, and the other end of the air pipe is communicated with the air pump; the control module consists of a control chip, a WIFI module and a circuit, and the pressure sensor and the air pump are electrically connected with the control module; the test mattress is internally provided with a plurality of intelligent modules which are arranged along the length direction of the mattress;

the cloud server and the tablet computer are in signal connection with the control module; the cloud server comprises a database, the database comprises information of a plurality of mattresses, the cloud server can receive pressure data of the pressure sensors, and the tablet personal computer can control the control module through WIFI signals; the cloud server is in signal connection with the client.

2. The intelligent selection device of a mattress of claim 1, wherein: the quilt layers on the front and back sides of the mattress are formed by sewing one or more quilts of cloth, sponge, latex, silk floss and non-woven fabrics together.

3. The intelligent selection device of a mattress of claim 1, wherein: the second layer of foam soft material layer is composed of a sponge layer, a latex layer or a latex sponge material mixing layer, and the total thickness of the second layer of foam soft material layer is 1-8 cm; the intelligent module is arranged at the central position of the mattress, and the control module is arranged at the tail of the bed.

4. The intelligent selection device of a mattress of claim 1, wherein: the fourth layer U-shaped sponge layer is used for fixing the third layer intelligent module and the control module layer and is composed of special-shaped structure sponge or pearl cotton materials, a U-shaped groove consistent with the length and the width of the intelligent module base is formed in the upper surface of the U-shaped sponge layer, the intelligent module is fixed in the U-shaped groove in an adhering mode, and the air bag is arranged above the U-shaped groove.

5. The intelligent selection device of a mattress of claim 1, wherein: the thickness of the hard bottom plate bearing layer is 1.5-3cm, and the hard bottom plate bearing layer is made of hemp and chemical fiber, or brown and chemical fiber, or full chemical fiber hot-press bonded board, or a wood board, or a metal board.

6. An intelligent selection device for a mattress according to any one of claims 1-5, wherein: the client is a mobile phone and comprises a text introduction interface, a mattress model recommendation interface, a manufacturer and a quotation interface, and is used for recommending a mattress suitable for a customer, introducing the characteristics of the mattress in text and giving corresponding quotation.

Images