阅读说明：本技术 一种基于柔性阵列温度传感器的被子及其控制系统 (Quilt based on flexible array temperature sensor and control system thereof ) 是由 储荣生 储劲松 肖友朋 于 2021-09-01 设计创作，主要内容包括：本发明涉及床上用品技术领域,且公开了一种基于柔性阵列温度传感器的被子及其控制系统,包括被套,被套一端安装有拉链,且被套中填充有被芯,被套远离拉链一侧开设有安装槽,且被套靠近安装槽一侧等距地固定有连接套管,具有温度监测功能的温度感应机构通过安装槽铺设在被芯与被套间。本发明将多个温敏电阻呈矩形状阵列布局进行组合,合理地实现了对体温的实时监测,另外基于柔性阵列温度传感器的被子的控制系统具有分级监控的效果,对于体温的监控做到细化处理,温度感应机构中增设的调节组件可以针对不同的体型可以做出适应性的调节,部分热敏传感器在不使用时不接入电路,既避免了资源的浪费,又可以防止测温不均造成的误差。(The invention relates to the technical field of bedding articles and discloses a quilt based on a flexible array temperature sensor and a control system thereof. The temperature-sensitive resistors are combined in a rectangular array layout, real-time monitoring of body temperature is reasonably realized, a control system of the quilt based on the flexible array temperature sensor has a grading monitoring effect, detailed processing of body temperature monitoring is achieved, the adjusting assembly additionally arranged in the temperature sensing mechanism can be adjusted adaptively according to different body types, and part of the temperature-sensitive sensors are not connected with a circuit when not used, so that waste of resources is avoided, and errors caused by uneven temperature measurement can be prevented.)

1. A quilt based on flexible array temperature sensor which characterized in that: including being overlapped (1), zip fastener (2) are installed to quilt cover (1) one end, and are filled with by core (3) in by cover (1), zip fastener (2) one side has been kept away from by cover (1) and mounting groove (11) have been seted up, and are fixed with adapter sleeve (12) near mounting groove (11) one side equidistance by cover (1), have the temperature monitoring function temperature induction mechanism (4) are laid through mounting groove (11) and are being overlapped between (1) by core (3) and quilt.

2. The quilt based on the flexible array temperature sensor as claimed in claim 1, characterized in that: temperature-sensing mechanism (4) are including frame (41), sensing component (42), signal reception subassembly (43), flange (44), connect soft knot (45) and adjusting part (46), frame (41) internal fixation has sensing component (42), and frame (41) one side fixedly connected with have signal reception subassembly (43) of hierarchical response mechanism, signal reception subassembly (43) one side is fixed with flange (44), and flange (44) upper surface equidistance ground is fixed with and connects soft knot (45), connect soft knot (45) and adapter sleeve (12) cooperation, can come real-time regulation sensing effect scope according to the size adjusting part (46) are fixed in frame (41) top one side.

3. The quilt based on the flexible array temperature sensor as claimed in claim 1, characterized in that: the quilt cover (1) is fixed with a backing plate in one side close to the mounting groove (11), arc-shaped convex blocks are fixed on the backing plate at equal intervals, and the outer wall of the bottom of the signal receiving assembly (43) is in extrusion contact with the arc-shaped convex blocks.

4. A quilt based on a flexible array temperature sensor according to claim 2, characterized in that: the sensing assembly (42) comprises a transverse lead (421), a vertical lead (422), an insulating joint (423), a terminal (424) and a temperature-sensitive resistor (425), wherein the transverse lead (421) and the vertical lead (422) are arranged in an outer frame (41) in a cross shape, the ends of the transverse lead (421) and the vertical lead (422) are respectively fixed with the insulating joint (423), the three terminals (424) are fixed on the insulating joint (423) on one side of the transverse lead (421), the terminal (424) is matched with the adjusting assembly (46), the insulating joint (423) on one side of the vertical lead (422) is electrically connected with the signal receiving assembly (43), the temperature-sensitive resistor (425) is uniformly installed on a node where the transverse lead (421) and the vertical lead (422) are connected, and the temperature-sensitive resistor (425) is in extrusion contact with the sleeve (1).

5. A quilt based on a flexible array temperature sensor according to claim 4, characterized in that: the joints of the insulating joint (423), the transverse lead (421) and the vertical lead (422) are provided with arc-shaped concave shapes.

6. A quilt based on a flexible array temperature sensor according to claim 2, characterized in that: the signal receiving assembly (43) comprises a base (431), a sealing cover (432), a connecting cap (433), a fixing nut (434), a storage battery (435), a signal processing center (436), a flexible display screen (437), a buzzer (438) and an LED strobe light (439), wherein the base (431) is installed in the installation groove (11), the connecting cap (433) is symmetrically fixed in the base (431), the connecting cap (433) is matched with the fixing nut (434), the sealing cover (432) is detachably installed with the base (431) through the fixing nut (434), the storage battery (435) is fixed in the base (431), one side of the storage battery (435) is electrically connected with the signal processing center (436), the flexible display screen (437) and the buzzer (438) are sequentially installed on the side, far away from the storage battery (435), of the signal processing center (436), and the signal processing center (436) is electrically connected with an insulating joint (423), an LED strobe light (439) is fixed on the cover (432), and the LED strobe light (439) is electrically connected with the signal processing center (436).

7. A quilt based on a flexible array temperature sensor according to claim 2, characterized in that: the adjusting component (46) comprises a box body (461), a switch button (462), a switching button (463), a clamping plate (464), a first spring (465), a pressing tongue (466), a second spring (467), a vertical plate (468), a first clamping groove (469), a second clamping groove (4610) and a contact (4611), wherein the box body (461) is fixed on one side of the top of the outer frame (41), the switch button (462) is installed on the box body (461) in a sliding mode, the switching button (463) is installed on one side, far away from the switch button (462), of the box body (461) in an equidistance sliding mode, the clamping plate (464) is fixed in the box body (461), the switch button (462) and the switching button (463) are elastically connected with the clamping plate (464) through the first spring (465), the pressing tongues (466) are fixed at the bottoms of the switch button (462) and the switching button (463), and the vertical plate (468) is elastically installed on one side of the bottom of the box body (461) through the second spring (467), and a first clamping groove (469) and a second clamping groove (4610) are respectively formed in one side of the vertical plate (468), the first clamping groove (469) and the second clamping groove (4610) are matched with the pressing tongue (466), a contact (4611) is fixed on the pressing tongue (466) in one side of the switching button (463), and the contact (4611) is matched with the terminal (424).

8. The flexible array temperature sensor based quilt control system as claimed in any one of claims 1-7, wherein the control system is operated by the steps of:

1) the temperature sensitive resistor (425) measures the body temperature of the person covering the quilt, and signals are transmitted to the signal processing center (436) through the transverse lead (421) and the vertical lead (422) and then through the joint (423).

2) The signal processing center (436) judges the temperature signal, if the temperature is more than or equal to 37.3 ℃, the low-fever symptom appears, the signal processing center (436) controls the LED strobe light (439) to continuously flash for reminding, if the temperature is more than or equal to 38 ℃, the high-fever symptom appears, and at the moment, the signal processing center (436) controls the buzzer (438) to give an alarm for reminding.

3) All measured temperatures are displayed in real time via the flexible display (437).

Technical Field

The invention relates to the technical field of bedding, in particular to a quilt based on a flexible array temperature sensor and a control system thereof.

Background

The quilt is one of bedding articles, is rectangular cloth with enough area to cover a human body, is generally used for keeping warm during sleeping, is usually formed by covering quilt covers or single quilt with cotton wool, and is called a quilt made of cotton.

With the improvement of living standard of people, the attention to the health of people is more and more intensive, and the body temperature is taken as an important measurement standard of the health of the human body, and can play a reference role in reflecting whether the body is normal or not in daily life.

The antibacterial and bacteriostatic fiber quilt with the insect prevention effect, which is provided by the prior patent CN202110183812.4, comprises an antibacterial and bacteriostatic fiber quilt cover; the antibacterial and bacteriostatic fiber quilt cover is arranged above the antibacterial and bacteriostatic fiber quilt cover; the first zipper is respectively connected with the antibacterial and bacteriostatic fiber quilt cover and the antibacterial and bacteriostatic fiber quilt cover in a sewing way; the cover cloth is sewn on the antibacterial and bacteriostatic fiber quilt cover and is arranged right above the first zipper; the quilt wadding is arranged in the antibacterial and bacteriostatic fiber quilt cover; the lining cloth is wrapped outside the quilt wadding and is quilted with the quilt wadding; the heating mechanism is arranged in the quilt wadding and comprises double-layer blocking cloth, a heating coil wire, surrounding cloth, a double-core wire, a first insert block and a second insert block, the double-layer blocking cloth is arranged in the quilt wadding, and the quilt wadding can be heated through the heating mechanism, so that the comfort of the quilt wadding is improved; the quilt wadding can be prevented from sliding in the antibacterial and bacteriostatic fiber quilt cover through the limiting mechanism; the insect-killing bag is used for preventing mites from breeding, the insect-preventing effect of the quilt is improved, and meanwhile the insect-killing bag is convenient to replace.

Disclosure of Invention

The invention aims to provide a quilt based on a flexible array temperature sensor and a control system thereof, so as to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides a quilt based on flexible array temperature sensor, includes the quilt cover, and the zip fastener is installed to quilt cover one end, and is filled with by the core in the quilt cover, and the zip fastener one side is kept away from to the quilt cover has seted up the mounting groove, and is fixed with adapter sleeve on the quilt cover is close to mounting groove one side equidistance, and the temperature-sensing mechanism who has the temperature monitoring function lays at by the core and by the intervally through the mounting groove.

Preferably, the temperature-sensing mechanism includes the frame, sensing element, signal reception subassembly, the flange, connect soft knot and adjusting part, the frame internal fixation has sensing element, and frame one side fixedly connected with has the signal reception subassembly of hierarchical response mechanism, signal reception subassembly one side is fixed with the flange, and the flange upper surface equidistance is fixed with connects soft knot, connect soft knot and connecting sleeve cooperation, can fix in frame top one side according to the adjusting part that the size comes real-time regulation sensing action range.

Preferably, a backing plate is fixed in one side, close to the mounting groove, of the quilt cover, arc-shaped convex blocks are fixed on the backing plate at equal intervals, and the outer wall of the bottom of the signal receiving assembly is in pressing contact with the arc-shaped convex blocks.

Preferably, the sensing assembly comprises a transverse wire, a vertical wire, an insulating joint, terminals and temperature-sensitive resistors, the transverse wire and the vertical wire are arranged in the outer frame in a cross shape, the insulating joints are fixed at the end parts of the transverse wire and the vertical wire, the three terminals are fixed on the insulating joint on one side of the transverse wire, the terminals are matched with the adjusting assembly, the insulating joint on one side of the vertical wire is electrically connected with the signal receiving assembly, the temperature-sensitive resistors are uniformly installed on the nodes connected with the transverse wire and the vertical wire, and the temperature-sensitive resistors are in extrusion contact with the quilt cover.

Preferably, the joints of the insulated joints, the horizontal wires and the vertical wires are provided with arc-shaped concave shapes.

Preferably, the signal receiving subassembly includes the base, the closing cap, connect the cap, fixation nut, the battery, the signal processing maincenter, the flexible display screen, bee calling organ and LED strobe light, install the base in the mounting groove, and be fixed with the connection cap in the base symmetrically, connect cap and fixation nut cooperation, the closing cap is detachable installation through fixation nut and base, the inside battery that is fixed with of base, and battery one side electric connection has the signal processing maincenter, the signal processing maincenter is kept away from battery one side and is installed flexible display screen and bee calling organ in proper order, and signal processing maincenter and insulating joint electric connection, be fixed with the LED strobe light on the closing cap, and LED strobe light and signal processing maincenter electric connection.

Preferably, the adjusting part includes the box, shift knob, the switching button, splint, first spring, the pressure tongue, the second spring, the riser, first draw-in groove, second draw-in groove and contact, the box is fixed in frame top one side, and slidable mounting has shift knob on the box, the box is from shift knob one side equidistance slidable mounting has the switching button, be fixed with splint in the box, shift knob and switching button pass through first spring and splint elastic connection, shift knob and switching button's bottom all is fixed with the pressure tongue, the riser passes through second spring elastic mounting in bottom half one side, and first draw-in groove and second draw-in groove have been seted up respectively to riser one side, first draw-in groove and second draw-in groove all cooperate with the pressure tongue, all be fixed with the contact on the pressure tongue of switching button one side, and contact and terminal cooperation.

A flexible array temperature sensor based quilt control system, the operation steps comprising:

1) the temperature sensitive resistor measures the body temperature of the person covering the quilt, and signals are transmitted to the signal processing center through the transverse lead, the vertical lead and the connector.

2) The signal processing center judges the temperature signal, if the temperature is more than or equal to 37.3 ℃, a low-burning symptom appears, the signal processing center controls the LED strobe lamp to continuously flash for reminding, if the temperature is more than or equal to 38 ℃, the high-burning symptom appears, and the signal processing center controls the buzzer to give an alarm for reminding.

3) All measured temperatures are displayed in real time through the flexible display screen.

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

1. compared with a common quilt, the temperature-sensitive quilt is based on the carrying technology of the flexible array temperature sensor, and the temperature-sensitive resistors are combined in a rectangular array layout, so that the real-time monitoring of the body temperature of a person covering the quilt is reasonably realized.

2. On the basis of the advantages, the control system of the quilt based on the flexible array temperature sensor has the effect of graded monitoring, the early warning modes corresponding to grades are set for different body temperature states, specifically, the low-grade warning mode corresponding to light flicker, and the high-grade warning mode corresponding to simultaneous light flicker and buzzing alarm, so that detailed processing is achieved for body temperature monitoring, and the reasonable degree of application in actual life is improved.

3. On the basis of the advantages, the temperature sensing mechanism is convenient to disassemble and assemble in a non-sewing connection mode with the quilt cover and the quilt core when the quilt is integrally assembled, and the reasonable degree of the internal space layout of the quilt is also improved in a mode that the temperature sensing mechanism and the quilt core are respectively assembled into the quilt cover from different sides.

4. On the basis of above-mentioned benefit, the regulating part who adds among the temperature-sensing mechanism can change heat sensor's work figure, and in practical application, the less child of size just can adapt to small-scalely, and the general adult of size is suitable for the medium-sized, and the great adult of size is suitable for large-scale, and the adjustment of adaptability can be made to different sizes, and heat sensor does not insert the circuit when not using, has both avoided the waste of resource, can prevent the error that the temperature measurement inequality caused again.

5. On the basis of the above advantages, the arrangement of the second embodiment enables the present invention to adapt to the actual use situation of the double bed, and increases the use range and the application degree of the device.

6. On the basis of the advantages, the third embodiment provides that the quilt cover and the temperature-sensitive resistor array are always kept attached, even if pushed, the temperature-sensitive resistors can be uniformly and lowly arranged around the human body, and the situation that the temperature sensing mechanism, the quilt core and the quilt cover deviate due to pushing and the flexible temperature-sensitive resistor array is twisted and disordered due to the fact that unconscious actions can be possibly generated when a person sleeps in actual use, so that the accuracy of body temperature measurement and monitoring is affected.

Drawings

FIG. 1 is a schematic overall view of the present invention;

FIG. 2 is a schematic view of the overall exploded structure of the present invention;

FIG. 3 is a schematic view of the overall structure of the temperature sensing mechanism according to the present invention;

FIG. 4 is an exploded view of a signal receiving module according to the present invention;

FIG. 5 is a schematic view of a first construction of an adjustment assembly of the present invention;

FIG. 6 is a second schematic view of an adjustment assembly of the present invention;

FIG. 7 is a schematic diagram of the internal structure of the second embodiment of the present invention;

FIG. 8 is a schematic view of the third installation effect of the embodiment of the present invention;

fig. 9 is a block diagram of the operation of the control system of the present invention.

In the figure: 1. a quilt cover; 11. mounting grooves; 12. connecting a sleeve; 2. a zipper; 3. a quilt core; 4. a temperature sensing mechanism; 41. an outer frame; 42. a sensing component; 421. transversely arranging a lead; 422. vertically arranging a lead; 423. an insulated joint; 424. a terminal; 425. a temperature-sensitive resistor; 43. a signal receiving component; 431. a base; 432. sealing the cover; 433. a connecting cap; 434. fixing a nut; 435. a storage battery; 436. a signal processing hub; 437. a flexible display screen; 438. a buzzer; 439. an LED strobe light; 44. a convex plate; 45. connecting a soft buckle; 46. an adjustment assembly; 461. a box body; 462. a switch button; 463. a switch button; 464. a splint; 465. a first spring; 466. tongue depressing; 467. a second spring; 468. a vertical plate; 469. a first card slot; 4610. a second card slot; 4611. a contact; 47. a barrier strip; 5. a quilt fixer.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Example one

Referring to fig. 1 and 2, in the drawings, a quilt based on a flexible array temperature sensor comprises a quilt cover 1, a zipper 2 is installed at one end of the quilt cover 1, a quilt core 3 is filled in the quilt cover 1, an installation groove 11 is formed in one side of the quilt cover 1 far away from the zipper 2, connecting sleeves 12 are equidistantly fixed on one side of the quilt cover 1 close to the installation groove 11, and a temperature sensing mechanism 4 with a temperature monitoring function is laid between the quilt core 3 and the quilt cover 1 through the installation groove 11.

Referring to fig. 3, the temperature sensing mechanism 4 includes an outer frame 41, a sensing component 42, a signal receiving component 43, a convex plate 44, a connecting soft buckle 45 and an adjusting component 46, the sensing component 42 is fixed in the outer frame 41, the signal receiving component 43 with a graded response mechanism is fixedly connected to one side of the outer frame 41, the convex plate 44 is fixed to one side of the signal receiving component 43, the connecting soft buckles 45 are fixed to the upper surface of the convex plate 44 at equal intervals, the connecting soft buckles 45 are matched with the connecting sleeve 12, and the adjusting component 46 capable of adjusting the sensing action range in real time according to the body shape is fixed to one side of the top of the outer frame 41.

When the quilt is integrally assembled, the normal use of the device can be ensured according to the following installation steps, firstly, the temperature sensing mechanism 4 is plugged into the quilt cover 1 from the installation groove 11 and kept straight, then the connecting soft button 45 is pressed into the connecting sleeve 12, the connecting soft button 45 consists of a top cap and a column body which are all made of elastic rubber materials, the top cap shrinks towards the center during pressing so that the column body is smoothly inserted into the connecting sleeve 12, after the connecting sleeve 12 is completely pressed in, the top cap automatically pops open to cover the connecting sleeve 12 to form a limit position, the temperature sensing mechanism 4 is assembled with the quilt cover 1, then the zipper 2 is pulled open, the quilt core 3 is filled into the quilt cover 1 and the temperature sensing mechanism 4 from the other end, and the zipper 2 is pulled tightly after the filling is completed.

The non-sewing connection mode is convenient for dismounting the temperature sensing mechanism 4, and the reasonable degree of the internal space layout of the quilt is also improved by the mode that the temperature sensing mechanism 4 and the quilt core 3 are respectively arranged in the quilt cover 1 from different sides.

Referring to fig. 2, a backing plate is fixed in one side of the quilt cover 1 close to the mounting groove 11, and arc-shaped bumps are fixed on the backing plate at equal intervals, and the outer wall of the bottom of the signal receiving assembly 43 is in pressing contact with the arc-shaped bumps.

The setting of backing plate for temperature-sensing mechanism 4 receives to be connected soft knot 45 and adapter sleeve 12 complex spacingly in the vertical direction except that packing into quilt cover 1 back, still increases the spacing on the horizontal direction that obtains the certain degree through the friction of contact surface of arc lug, prevents further that temperature-sensing mechanism 4 from taking place the off tracking in quilt cover 1, influences normal response function.

Referring to fig. 3, the sensing assembly 42 includes a horizontal conductive line 421, a vertical conductive line 422, an insulating joint 423, a terminal 424 and a temperature-sensitive resistor 425, the horizontal conductive line 421 and the vertical conductive line 422 are arranged in the outer frame 41 in a crisscross manner, the ends of the horizontal conductive line 421 and the vertical conductive line 422 are fixed with the insulating joint 423, three terminals 424 are fixed on the insulating joint 423 at one side of the horizontal conductive line 421, the terminal 424 is matched with the adjusting assembly 46, the insulating joint 423 at one side of the vertical conductive line 422 is electrically connected with the signal receiving assembly 43, the temperature-sensitive resistor 425 is uniformly installed at a node where the horizontal conductive line 421 and the vertical conductive line 422 are connected, and the temperature-sensitive resistor 425 is in press contact with the quilt cover 1.

Referring to fig. 3, the connection between the insulation plug 423 and the horizontal conductive line 421 and the vertical conductive line 422 are provided with arc-shaped concave shapes.

The arc-shaped concave shape ensures that the temperature-sensitive resistor 425 playing a role in sensing temperature and the outer frame 41 are not positioned on the same plane, so that the quilt core 3 filled with the temperature-sensitive resistor is extruded in a gap between the plane of the outer frame 41 and an interwoven net formed by the transverse lead 421 and the vertical lead 422, each temperature-sensitive resistor 425 is ensured to be in extrusion contact with the quilt cover 1, and the measurement deviation caused by uneven distance between the temperature-sensitive resistor 425 and a human body when the device is used for measuring temperature is reduced.

Referring to fig. 4, the signal receiving assembly 43 includes a base 431, a cover 432, a connecting cap 433, a fixing nut 434, a storage battery 435, a signal processing hub 436, a flexible display 437, a buzzer 438 and an LED strobe 439, the base 431 is installed in the installation slot 11, the connecting cap 433 is symmetrically fixed in the base 431, the connecting cap 433 is matched with the fixing nut 434, the cover 432 is detachably installed on the base 431 through the fixing nut 434, the storage battery 435 is fixed in the base 431, the signal processing hub 436 is electrically connected to one side of the storage battery 435, the flexible display 437 and the buzzer 438 are sequentially installed on one side of the signal processing hub 436 away from the storage battery 435, the signal processing hub 436 is electrically connected to the insulating joint 423, the LED strobe 439 is fixed on the cover 432, and the LED strobe 439 is electrically connected to the signal processing hub 436.

Referring to fig. 5 and 6, the adjusting assembly 46 includes a case 461, a switch button 462, a switch button 463, a clamp 464, a first spring 465, a tongue 466, a second spring 467, a vertical plate 468, a first slot 469, a second slot 4610 and a contact 4611, the case 461 is fixed on one side of the top of the outer frame 41, the switch button 462 is slidably mounted on the case 461, the switch button 463 is slidably mounted on one side of the case 461 away from the switch button 462 at equal intervals, the clamp 464 is fixed in the case 461, the switch button 462 and the switch button 463 are elastically connected with the clamp 464 through the first spring 465, the tongue 466 is fixed on the bottoms of the switch button 462 and the switch button 463, the vertical plate 468 is elastically mounted on one side of the bottom of the case 461 through a second spring 467, the first slot 469 and the second slot 4610 are respectively formed on one side of the vertical plate 468, the first slot 469 and the second slot 4610 are respectively engaged with the tongue 466, the tongue 466 is fixed on the tongue 466 on one side of the switch button 463, and contact 4611 is mated with terminal 424.

In the adjusting assembly 46, the difference between the first card slot 469 and the second card slot 4610 is that the second card slot 4610 is configured as an inward-side barb shape, so as to lock the pressing tongue 466, when the switch button 463 is pressed, the pressing tongue 466 is pressed down and locked by the second card slot 4610, the corresponding contact 4611 is in contact with the terminal 424, the thermal sensor in the corresponding range is connected into the whole circuit, the obtained sensing range is larger as the switch button 463 is pressed farther away from the switch button 462, so that three different sensing ranges can be obtained by the three switch buttons 463, which are respectively small, medium and large, corresponding to different ages and different sizes of human bodies, after the switch button 462 is pressed, the pressing tongue 466 thereon will press the first card slot 469 to force the riser 468 to slide, so that the pressing tongue 466 on the switch button 463 is separated from the second card slot 4610, the second spring 467 contracts, and the corresponding first card slot 469 at the switch button 462 is not provided with a barb, under the action of the first spring 465, rebound occurs and the adjustment assembly 46 is reset.

The working number of the heat-sensitive sensors can be changed through the adjusting component 46, in practical application, a child with a small size can adapt to a small size, an adult with a general size is suitable for a medium size, an adult with a large size is suitable for a large size, different sizes can be adjusted adaptively, the heat-sensitive sensors are not connected with a circuit when not used, resource waste is avoided, and errors caused by uneven temperature measurement can be avoided.

Referring to fig. 9, a control system for a quilt based on a flexible array temperature sensor is shown, which comprises the following steps:

1) the temperature sensitive resistor 425 measures the body temperature of the person covering the quilt, and transmits the signal to the signal processing center 436 through the horizontal lead 421, the vertical lead 422 and the connector.

2) The signal processing center 436 judges the temperature signal, if the temperature is greater than or equal to 37.3 ℃, a low-fever symptom appears, the signal processing center 436 controls the LED strobe 439 to continuously flash for reminding, and if the temperature is greater than or equal to 38 ℃, a high-fever symptom appears, and at this moment, the signal processing center 436 controls the buzzer 438 to give an alarm for reminding.

3) All measured temperatures are displayed in real time via the flexible display 437.

Example two

Referring to fig. 7, the difference between the first embodiment and the second embodiment is that a barrier strip 47 is fixed at the inner center of the outer frame 41.

The arrangement of the barrier strips 47 divides the temperature sensitive resistor 425 array which plays a role of temperature monitoring into two equal parts left and right, the two parts respectively carry out temperature measurement monitoring on two persons, and signals of one part of temperature measurement are transmitted to the signal receiving assembly 43 in a delayed mode, so that the obtained quilt based on the flexible array temperature sensor can adapt to the actual use situation of a double bed.

EXAMPLE III

Referring to fig. 8, the difference between the first embodiment and the second embodiment is that the quilt fixer 5 is movably installed at four corners of the quilt cover 1, and the usage of the quilt fixer 5 is the same as that of the existing thimble type quilt fixer.

In consideration of the fact that in practical use, an unconscious action may be generated when a person sleeps, the pushing causes the position of the temperature sensing mechanism 4, the quilt core 3 and the quilt cover 1 to deviate, the flexible temperature-sensitive resistor 425 array is twisted and disordered, and the quilt fixer 5 ensures that the action positions of the quilt cover 1 and the temperature-sensitive resistor 425 array are always kept attached, so that the temperature-sensitive resistors 425 can be uniformly and lowly arranged around the human body even if pushed, and the accuracy of body temperature measurement and monitoring cannot be influenced.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.