An integrated multifunctional smart pillow
By integrating the air pump into a silent air pump box inside the main unit and setting heat conduction holes on the pillow body, the problems of loud noise and slow heat conduction of existing smart pillows are solved, achieving silent operation and rapid heating, thus improving the sleep experience.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- DONGGUAN JINGYUAN TECH CO LTD
- Filing Date
- 2025-07-17
- Publication Date
- 2026-06-30
AI Technical Summary
Existing smart pillows have noisy air pumps, complex structures, slow heat conduction, and the shape of the main unit affects sleep quality.
The air pump is integrated into a silent air pump box inside the main unit, and heat conduction holes are set on the pillow body to quickly dissipate heat. The main unit is designed with a structure that is thinner in the middle and thicker at both ends, which conforms to ergonomics.
Significantly reduces air pump noise, improves heat conduction speed, maintains a simple pillow structure, and enhances sleep comfort.
Smart Images

Figure CN224420617U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of home product control technology, and in particular to a multifunctional smart pillow. Background Technology
[0002] With the development of technology, the emergence of multifunctional and intelligent home products has brought people greater comfort, such as smart airbag pillows that can automatically detect sleeping posture and adjust their height. Examples include a smart adjustable sleep pillow disclosed in Chinese invention patent application CN201810804559.8 and a smart pillow with adaptive sleeping posture adjustment disclosed in Chinese utility model patent CN201920507582.0. These pillows can detect the user's sleeping posture and sleep level, and automatically adjust the pillow height, thereby improving the user's sleep comfort and promoting sleep quality. However, existing smart pillows of this type usually still have the following problems. For example, in order to inflate the airbags, an air pump is required. Currently, the air pump is generally set independently, either outside the pillow body or inside the pillow body. This results in relatively high noise during use, and placing it independently outside the pillow body also makes the pillow structure less simple and concise, and the air pump is difficult to place. Furthermore, although many smart pillows currently have heating functions, the heat needs to be dissipated through the pillow body material, resulting in slow heating and inability to quickly conduct heat to the neck after activation. In addition, although some smart pillows currently have the main unit built into the pillow body, the shape of the main unit is not specially designed and is generally a common shape such as round or square. This may affect the structure of the pillow itself and thus have an adverse effect on sleep. Utility Model Content
[0003] This invention addresses the shortcomings of existing technologies by providing an integrated multifunctional smart pillow with a simpler structure, more reasonable design, better noise reduction, and higher heating efficiency.
[0004] To solve the above-mentioned technical problems, the present invention adopts the following technical solution: an integrated multifunctional smart pillow, comprising a pillow body, a main unit, and an air pump. An air bladder, a detection sensor, and a heating device are disposed within the pillow body. The air pump, detection sensor, and heating device are connected to and controlled by the main unit. The detection sensor detects the sleeping posture, and the air pump inflates the air bladder to adjust the pillow height. The main unit is installed inside the pillow body near the rear, and the air pump is installed in a sealed air pump box inside the main unit. Several heat-conducting holes are provided on the pillow body, arranged in the area near the front of the pillow body, and each heat-conducting hole is connected to the heating device.
[0005] Furthermore, a mounting groove is provided in the bottom middle area inside the main body, the detection sensor is installed in the mounting groove, and the heating device is installed in the front position of the mounting groove so as to be opposite to each heat conduction hole.
[0006] Furthermore, a host mounting position is provided behind the mounting slot, and the host is installed in the host mounting position.
[0007] Furthermore, the host has a structure that is thinner in the middle and thicker at both sides, with a first mounting part in the middle and a second mounting part and a third mounting part on each side of the first mounting part; the host mounting position is shaped to match the host and includes a first mounting area in the middle and a second mounting area and a third mounting area on each side of the first mounting area, the depth of the second mounting area and the third mounting area being greater than the depth of the first mounting area; the first mounting part of the host is embedded in the first mounting area, and the second mounting part and the third mounting part are respectively embedded in the second mounting area and the third mounting area.
[0008] Furthermore, the circuit board and solenoid valve of the main unit are respectively installed in the first mounting part and the second mounting part, and the air pump box is installed in the third mounting part; the housing of the main unit is provided with several vent holes.
[0009] Furthermore, fixing ears are provided on both sides of the air pump box, and the air pump box is fixed inside the main unit by screws passing through the fixing ears.
[0010] Furthermore, protruding limiting ears are provided at both ends of the main unit, and limiting grooves that match the limiting ears are provided at both ends of the main unit mounting position. After the main unit is installed in the main unit mounting position, the two limiting ears are respectively embedded in the two limiting grooves.
[0011] Furthermore, the detection sensor is installed in a detection sensor box, which has a flat structure and is installed in the middle area of the mounting slot.
[0012] Furthermore, a bottom cover is provided on the bottom surface of the main body, which covers the main unit, the detection sensor box and the heating device on the mounting groove; a detection sensor for detecting sleeping posture is also provided at the bottom of the main body near the front edge, and this detection sensor is also covered by the bottom cover.
[0013] Furthermore, several arc-shaped protruding massage beads are provided on the body in the area of the heat conduction holes, and the massage beads and heat conduction holes are arranged alternately.
[0014] This invention integrates the air pump into the main unit via a silent air pump box, which is then installed within the pillow body. This significantly reduces the noise emitted by the air pump during operation, providing a quieter user experience. It also solves the problem of inconvenience caused by a separate external air pump, resulting in a simpler and more streamlined pillow structure. Furthermore, by aligning heat conduction holes on the pillow body with the heating element, heat can be quickly dissipated during operation, allowing the user to access the warmth more rapidly. Additionally, the main unit's design, being narrower in the middle and wider at both ends, is more ergonomic, ensuring that the pillow's basic functions are not compromised by the inclusion of the main unit. Attached Figure Description
[0015] Figure 1 This is a schematic diagram of the overall structure of this utility model;
[0016] Figure 2 This is a schematic diagram of the overall structure of this utility model from another angle;
[0017] Figure 3 This is a schematic diagram of the internal structure of the pillow body;
[0018] Figure 4 This is a schematic diagram of the host computer's structure.
[0019] Figure 5 This is a schematic diagram of the air pump box.
[0020] Figure 6 This is a schematic diagram of the sensor box.
[0021] In the diagram, 1 is the main body, 11 is the first mounting area, 12 is the second mounting area, 13 is the third mounting area, 14 is the limiting groove, 15 is the mounting groove, 16 is the heat conduction hole, 17 is the massage bead, 2 is the main unit, 21 is the first mounting part, 22 is the second mounting part, 23 is the third mounting part, 24 is the limiting ear, 3 is the air pump box, 31 is the fixing ear, 4 is the detection sensor box, 5 is the heating device, and 6 is the bottom cover. Detailed Implementation
[0022] In this embodiment, refer to Figures 1-6The integrated multifunctional smart pillow includes a pillow body 1, a main unit 2, and an air pump. The body 1 contains an air bladder (encased in the body 1 made of memory foam), a detection sensor, and a heating element 5 (such as a PTC heater). The air pump, detection sensor, and heating element 5 are connected to and controlled by the main unit 2. The detection sensor detects the sleeping posture, and based on the detected posture, the air pump inflates the air bladder to raise the pillow height, or the air bladder is deflated via a solenoid valve to lower the height. This adjustment and control process is existing technology and will not be elaborated upon here. The main unit 2 is installed inside the body 1 near the rear. Since the head generally does not touch the back of the pillow, the installation of the main unit 2 will not affect the user's sleep. The air pump is installed in a sealed, silent air pump box 3, which is installed inside the main unit 2, further isolating noise. Several heat-conducting holes 16 are provided on the body 1, located near the front of the body 1, directly opposite the cervical spine area when the user is lying down. Each heat conduction hole 16 is connected to the heating device 5, so that heat can be quickly discharged through the heat conduction hole 16 after the heating device 5 is working, thereby increasing the heating speed.
[0023] A mounting groove 15 is provided in the bottom middle area inside the main body 1. The detection sensor is installed in the mounting groove 15, and the heating device 5 is installed in the front position of the mounting groove 15 so as to be opposite to each heat conduction hole 16.
[0024] A host installation position is provided at the rear of the mounting slot 15, and the host 2 is installed in the host installation position.
[0025] The main unit 2 has a structure that is thinner in the middle and thicker at both sides (similar to the shape of a dumbbell). The first mounting part 21 is located in the middle, with a second mounting part 22 and a third mounting part 23 on either side. The main unit mounting position is shaped to match the main unit 2 and includes a first mounting area 11 in the middle and second mounting areas 12 and third mounting areas 13 located on either side of the first mounting area 11. The depth of the second mounting areas 12 and third mounting areas 13 is greater than the depth of the first mounting area 11. The first mounting part 21 of the main unit 2 is embedded in the first mounting area 11, and the second mounting parts 22 and third mounting parts 23 are embedded in the second mounting areas 12 and third mounting areas 13, respectively. This design allows the pillow to have a concave shape in the middle and convex shapes on both sides, which is more ergonomic.
[0026] The circuit board and solenoid valve of the main unit 2 are respectively installed in the first mounting part 21 and the second mounting part 22, and the air pump box 3 is installed in the third mounting part 23; the housing of the main unit 2 is provided with several ventilation holes to facilitate heat dissipation.
[0027] Fixing ears 31 are provided on both sides of the air pump box 3. The air pump box 3 is fixed inside the main unit 2 by screws passing through the fixing ears 31.
[0028] Protruding limiting ears 24 are provided at both ends of the main unit 2, and limiting grooves 14 that match the limiting ears 24 are provided at both ends of the main unit mounting position. After the main unit 2 is installed in the main unit mounting position, the two limiting ears 24 are respectively embedded in the two limiting grooves 14, thereby improving the stability of the installation structure.
[0029] The detection sensor is installed in a detection sensor box 4, which has a flat structure and is installed in the middle area of the mounting slot 15.
[0030] A bottom cover 6 is provided on the bottom surface of the main body 1. The bottom cover 6 is flexible and can be made of foam. The bottom cover 6 covers the mounting groove 15 and covers the main unit 2, the detection sensor box 4 and the heating device 5. A detection sensor for detecting sleeping posture is also provided at the bottom of the main body 1 near the front edge. This detection sensor is also covered by the bottom cover 6. This can form a dual sensor detection structure and improve the accuracy of detection.
[0031] Several arc-shaped protruding massage beads 17 are provided on the main body 1 in the area of the heat conduction hole 16. The massage beads 17 and the heat conduction hole 16 are arranged alternately and work together with the airbag to massage the cervical spine.
[0032] The present invention has been described in detail above. The above description is only a preferred embodiment of the present invention and should not be construed as limiting the scope of the present invention. All equivalent changes and modifications made in accordance with the scope of this application should still fall within the scope of the present invention.
Claims
1. An integrated multifunctional smart pillow, comprising a pillow body, a main unit, and an air pump, wherein an air bladder, a detection sensor, and a heating device are disposed in the pillow body, and the air pump, detection sensor, and heating device are connected to and controlled by the main unit, wherein the detection sensor detects the sleeping posture, and the air pump inflates the air bladder to adjust the pillow height, characterized in that: The main unit is installed inside the body near the rear, and the air pump is installed in a closed air pump box, which is installed inside the main unit. Several heat conduction holes are provided on the main unit, which are arranged in the area near the front of the main unit, and each heat conduction hole is connected to the heating device.
2. The integrated multifunctional smart pillow according to claim 1, characterized in that: A mounting slot is provided in the bottom middle area inside the main body. The detection sensor is installed in the mounting slot, and the heating device is installed in the front position of the mounting slot so as to be opposite to each heat conduction hole.
3. The integrated multifunctional smart pillow according to claim 2, characterized in that: A host installation slot is provided at the rear of the mounting slot, and the host is installed in this host installation slot.
4. The integrated multifunctional smart pillow according to claim 3, characterized in that: The host has a structure that is thinner in the middle and thicker at both sides. The middle part is the first mounting part, and the two sides of the first mounting part are the second mounting part and the third mounting part, respectively. The host mounting position is shaped to match the host and includes a first mounting area in the middle and a second mounting area and a third mounting area located on both sides of the first mounting area. The depth of the second mounting area and the third mounting area is greater than the depth of the first mounting area. The first mounting part of the host is embedded in the first mounting area, and the second mounting part and the third mounting part are respectively embedded in the second mounting area and the third mounting area.
5. The integrated multifunctional smart pillow according to claim 4, characterized in that: The main unit's circuit board and solenoid valve are installed in the first and second mounting sections respectively, and the air pump box is installed in the third mounting section; the main unit's housing has several vent holes.
6. The integrated multifunctional smart pillow according to claim 5, characterized in that: The air pump box has fixing ears on both sides. The air pump box is fixed inside the main unit by screws passing through the fixing ears.
7. The integrated multifunctional smart pillow according to claim 5, characterized in that: The main unit has protruding limiting ears at both ends, and limiting grooves that match the limiting ears are provided at both ends of the main unit mounting position. After the main unit is installed in the main unit mounting position, the two limiting ears are respectively embedded in the two limiting grooves.
8. The integrated multifunctional smart pillow according to claim 2, characterized in that: The detection sensor is installed in a detection sensor box, which has a flat structure and is installed in the middle area of the mounting slot.
9. The integrated multifunctional smart pillow according to claim 8, characterized in that: A bottom cover is provided on the bottom surface of the main body, which covers the main unit, the detection sensor box and the heating device on the mounting groove; a detection sensor for detecting sleeping posture is also provided on the bottom of the main body near the front edge, and this detection sensor is also covered by the bottom cover.
10. The integrated multifunctional smart pillow according to claim 1, characterized in that: Several arc-shaped protrusions of massage beads are arranged on the body in the area of the heat conduction holes, and the massage beads and heat conduction holes are arranged alternately.