An inflator and inflator system

By integrating a detachable high-brightness lighting device into the air inflator, the problem of using the air inflator at night or in low-light conditions is solved, achieving wider applicability and convenience.

CN122304964APending Publication Date: 2026-06-30NANJING CHERVON IND

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Applications(China)
Current Assignee / Owner
NANJING CHERVON IND
Filing Date
2024-12-30
Publication Date
2026-06-30

Smart Images

  • Figure CN122304964A_ABST
    Figure CN122304964A_ABST
Patent Text Reader

Abstract

This application discloses an air inflator and an air inflator system. The air inflator includes a motor, a power mechanism driven by the motor to generate airflow, and a main housing. The main housing houses the motor and the power mechanism and has a battery connection portion for detaching and installing a battery pack that provides power to the motor. The air inflator also includes a lighting device configured to output light greater than or equal to 600 lumens. The lighting device provides illumination to the working area of ​​the air inflator. When the air inflator is used at night or in low-light conditions, the lighting device facilitates operation, expands the air inflator's application scenarios, improves its applicability, and avoids limitations on its use. Higher values ​​of the light output from the lighting device result in brighter light, preventing insufficient brightness due to low values.
Need to check novelty before this filing date? Find Prior Art

Description

Technical Field

[0001] This application relates to an inflator, specifically to an inflator and an inflator system. Background Technology

[0002] In related technologies, air inflators are used to deflate or inflate tires, balls, or rubber boats. They are typically suitable for use during the day or in well-lit areas, which limits their use at night in unlit or poorly lit areas. Summary of the Invention

[0003] One object of this application is to solve or at least alleviate some or all of the aforementioned problems. Therefore, one object of this application is to provide an inflator and an inflator system.

[0004] To achieve the above objectives, this application adopts the following technical solution:

[0005] An inflator, comprising:

[0006] A motor and a power mechanism driven by said motor to generate airflow;

[0007] The main housing, which houses the motor and the power mechanism, has a battery connection portion that allows for the detachment and installation of a battery pack that provides power to the motor;

[0008] The inflator also includes a lighting device configured to output light of 600 lumens or more.

[0009] In some embodiments, the light-emitting part of the lighting device is configured to output light, and the inflator further includes an operating element for adjusting the state of the light-emitting part.

[0010] In some embodiments, the state of the light-emitting portion includes the lumens and color temperature of the light-emitting portion.

[0011] In some embodiments, the lighting device includes a rechargeable battery pack that provides charging current to the battery pack.

[0012] In some embodiments, the lighting device has a display area for indicating the power status and / or operating status and / or charging status of the lighting device.

[0013] In some embodiments, the lighting device is detachably mounted on the main housing.

[0014] In some embodiments, the lighting device is capable of providing at least one of safety indication, fault indication, battery pack power reminder, or projected image.

[0015] In some embodiments, the total rated power of the lighting device ranges from 1W to 30W.

[0016] In some embodiments, the lighting device includes a battery pack with a capacity ranging from 1Ah to 15Ah.

[0017] In some embodiments, the maximum battery life of the lighting device ranges from 0.5 hours to 20 hours.

[0018] In some embodiments, the power mechanism includes a compression mechanism and / or a rotation mechanism.

[0019] An inflator system, comprising:

[0020] A motor and a power mechanism driven by said motor to generate airflow;

[0021] A power supply device for providing power to the motor;

[0022] A lighting device, including a light-emitting part, is used to provide illumination for the working area of ​​the inflator;

[0023] The light emitted by the lighting device has a first color temperature and a second color temperature; the first color temperature and the second color temperature are different.

[0024] In some embodiments, the color temperature adjustment range is greater than or equal to 2000K and less than or equal to 6500K.

[0025] In some embodiments, the color temperature is configured to be adaptively adjustable; or the inflator system further includes an operating element configured to adjust the color temperature.

[0026] In some embodiments, the inflator system has a low-pressure operating mode and a high-pressure operating mode.

[0027] In some embodiments, the inflator system further includes a main housing, and the lighting device is detachably mounted on the main housing.

[0028] In some embodiments, the lighting device has a display area for indicating the power status and / or operating status and / or charging status of the lighting device.

[0029] The advantages of this application are: the inflator also includes a lighting device configured to output light of 600 lumens or greater. The lighting device provides illumination to the working area of ​​the inflator. When the inflator is used at night or in poorly lit areas, the lighting device facilitates operation, expands the inflator's application scenarios, improves its applicability, and avoids limitations on its use. Higher lumens result in brighter light, preventing insufficient brightness due to low lumens. Attached Figure Description

[0030] Figure 1 This is a schematic diagram showing the installation status of the inflator and lighting device from one perspective;

[0031] Figure 2 This is a schematic diagram showing the installation status of the inflator and lighting device from another perspective;

[0032] Figure 3 This is a schematic diagram showing the inflator and lighting device in disassembled state;

[0033] Figure 4 This is a schematic diagram of a lighting device from one perspective;

[0034] Figure 5 This is a schematic diagram of the lighting device from another perspective;

[0035] Figure 6 It is a structural diagram of the motor and power mechanism inside the air inflator;

[0036] Figure 7 yes Figure 1 A diagram of the bottom structure of the air inflator;

[0037] Figure 8 This is a structural diagram of an inflator according to another embodiment of this application;

[0038] Figure 9 yes Figure 8 Another structural view of the inflator.

[0039] in:

[0040] 10. Air inflator;

[0041] 100. Main body shell; 120. First joint; 121. First interface; 122. Adaptor; 1221. Lock; 1222. Insertion slot; 130. Operation part; 131. High voltage working mode part; 132. Low voltage working mode part;

[0042] 101a, First motor; 101b, Second motor; 102a, Compression mechanism; 102b, Rotation mechanism; 104, First connection port; 105, Second connection port; 106, Limiting part;

[0043] 200, Flexible conduit; 201, First port; 202, Second port; 300, Air inlet; 400, Battery pack interface;

[0044] 500. Lighting device; 510. Light-emitting part; 520. Battery pack; 530. Display area; 540. Magnetic part; 550. Brightness adjustment part; 560. Color temperature adjustment part; 570. Locking slot;

[0045] 600. Operating components. Detailed Implementation

[0046] Before explaining any implementation of this application in detail, it should be understood that this application is not limited to its application to the structural details and component arrangements set forth in the following description or shown in the above drawings.

[0047] In this application, the terms "comprising," "including," "having," or any other variations thereof are intended to cover non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements includes not only those elements but also other elements not expressly listed, or elements inherent to such a process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising one..." does not exclude the presence of other identical elements in the process, method, article, or apparatus that includes that element.

[0048] In this application, the term "and / or" describes the relationship between related objects, indicating that three relationships can exist. For example, A and / or B can represent three cases: A existing alone, A and B existing simultaneously, and B existing alone. Additionally, the character " / " in this application generally indicates that the preceding and following related objects have an "and / or" relationship.

[0049] In this application, the terms "connection," "combination," "coupling," and "installation" can refer to direct connection, combination, coupling, or installation, or indirect connection, combination, coupling, or installation. For example, a direct connection refers to two parts or components being connected together without the need for an intermediary, while an indirect connection refers to two parts or components each being connected to at least one intermediary, with the connection achieved through the intermediary. Furthermore, "connection" and "coupling" are not limited to physical or mechanical connections or couplings, but can also include electrical connections or couplings.

[0050] In this application, those skilled in the art will understand that relative terms (e.g., “about,” “approximately,” “basically,” etc.) used in conjunction with quantities or conditions are to include the values ​​and have the meaning indicated by the context. For example, such relative terms include at least the degree of error associated with the measurement of a particular value, tolerances associated with the particular value due to manufacturing, assembly, use, etc. Such terms should also be considered as disclosing a range defined by the absolute values ​​of the two endpoints. Relative terms may refer to a certain percentage (e.g., 1%, 5%, 10% or more) of the indicated value. Numerical values ​​not using relative terms should also be disclosed as specific values ​​with tolerances. Furthermore, “basically” when expressing relative angular relationships (e.g., substantially parallel, substantially perpendicular) may refer to a certain degree (e.g., 1 degree, 5 degrees, 10 degrees or more) added to or subtracted from the indicated angle.

[0051] In this application, those skilled in the art will understand that the function performed by a component can be performed by one component, multiple components, one part, or multiple parts. Similarly, the function performed by a part can also be performed by one part, one component, or a combination of multiple parts.

[0052] In this application, the directional terms "upper," "lower," "left," "right," "front," and "rear" are used to describe the orientation and positional relationships shown in the accompanying drawings and should not be construed as limiting the embodiments of this application. Furthermore, in the context, it should be understood that when an element is mentioned as being connected "upper" or "lower" to another element, it can be directly connected to the other element "upper" or "lower," or indirectly connected through an intermediate element. It should also be understood that directional terms such as upper side, lower side, left side, right side, front side, and rear side not only represent positive orientation but can also be understood as lateral orientation. For example, "below" can include directly below, lower left, lower right, lower front, and lower rear.

[0053] like Figures 1-6As shown, this embodiment provides an air inflator 10, including a motor, a power mechanism, at least one air inlet 300, a flexible pipe 200, a main housing 100, and a battery pack interface 400. The battery pack interface 400 connects to a battery pack, which provides power to the motor. The motor drives the power mechanism, causing the power mechanism to generate airflow. The air inlet 300 is connected to the flexible pipe 200 for air intake and / or exhaust. The flexible pipe 200 connects to the power mechanism, and the airflow generated by the power mechanism flows through the flexible pipe 200. The air inlet 300 is used to connect to an inflatable structure, such as a tire, for deflation or inflation. In some embodiments, multiple air inlets 300 are provided, and correspondingly, multiple flexible pipes 200 are provided. Each air inlet 300 is connected to the power mechanism via a corresponding flexible pipe 200. By increasing the number of air inlets 300, multiple inflatable structures can be inflated simultaneously, improving operational efficiency.

[0054] The motor and power mechanism are housed within the main housing 100. Specifically, the motor and power mechanism may be partially or entirely housed within the main housing 100. The main housing 100 also has a battery pack interface 400 for installing and removing the battery pack. By making the battery pack a detachable connection structure, users can easily replace the battery pack as needed, ensuring long-term use of the air inflator 10. Furthermore, when the battery pack becomes unusable, replacing it extends the lifespan of the air inflator 10, avoiding the waste of replacing the entire air inflator 10.

[0055] The main housing 100 also has a first connecting portion 120 for detachably connecting a lighting device 500, which provides illumination to the working area of ​​the inflator 10. When the inflator 10 is used at night or in low-light conditions, the lighting device 500 provides illumination, facilitating operation. By making the lighting device 500 a detachable connection structure, the usage scenarios of the inflator 10 are expanded, its applicability is improved, and limitations in usage scenarios are avoided. For example, when the user is not using the inflator 10, the lighting device 500 can be removed and magnetically attached to other devices, providing more lighting angles.

[0056] In some embodiments, the lighting device 500 includes a light-emitting part 510 and a battery pack 520 that provides power to the light-emitting part 510. The lighting device 500 can be disassembled and used independently for other emergency rescues, construction sites, and outdoor activities, expanding its application scenarios and improving its applicability and flexibility. The light-emitting part 510 is a light-emitting element, such as an LED light, an incandescent lamp, or a fluorescent lamp.

[0057] In some embodiments, the first connecting portion 120 includes a first interface 121, and the lighting device 500 includes a second interface. The battery pack installed on the battery pack interface 400 charges the battery pack 520 of the lighting device 500 through the first interface 121 and the second interface, ensuring the lighting duration of the lighting device 500. The current transmission method of the first interface 121 and the second interface is one of USB interface, contact type, or wireless charging, which can be selected according to the requirements. Among them, the USB interface includes Type-A interface, Type-B interface, and Type-C interface, etc. In other embodiments, the battery pack installed on the battery pack interface 400 has a first interface 121, and the external power supply has a first interface 121. The second interface can selectively connect to any one of the first interfaces 121 of the battery pack, the external power supply, and the first connecting portion 120, that is, the lighting device 500 can be directly charged through the battery pack installed on the battery pack interface 400 or the external power supply. Multiple backup solutions are provided for selection according to needs, making it convenient to use.

[0058] The first joint 120 also includes an adapter 122 for locking the lighting device 500 onto the inflator 10, ensuring reliable installation. In some embodiments, the adapter 122 is an insertion groove 1222 formed on the main housing 100 and a latch 1221 provided on the groove wall of the insertion groove 1222. The lighting device 500 is provided with a locking groove 570. The lighting device 500 is inserted into the insertion groove 1222, and the latch 1221 and the locking groove 570 engage, thereby locking the lighting device 500 within the insertion groove 1222. In one embodiment, the lighting device 500 is inserted into the insertion groove 1222 from top to bottom, achieving circumferential limiting. The latch 1221 and the locking groove 570 engage, achieving vertical limiting of the lighting device 500, thereby locking the lighting device 500. In other embodiments, the lighting device 500 can be inserted obliquely or horizontally onto the main housing 100. The first interface 121 and the second interface are connected by plugging in. The first interface 121 is located at the bottom of the plug-in slot 1222, and the second interface is located at the bottom of the lighting device 500. The first interface 121 and the second interface are automatically plugged in when the lighting device 500 and the plug-in slot 1222 are plugged in.

[0059] The lighting device 500 also includes a magnetic part 540, which is magnetic and has a magnetic structure. The main housing 100 is made of metal such as iron or steel, or plastic. The metal part, such as iron or steel, is installed in the insertion slot 1222 of the main housing 100. The lighting device 500 is magnetically attracted to the insertion slot 1222 by the magnetic part 540, further ensuring the connection stability between the two. In addition, when the lighting device 500 is used in other occasions or equipment, it can also be magnetically attracted to any other structure by the magnetic part 540, ensuring the installation stability of the lighting device 500.

[0060] The lighting device 500 includes a mounting base, a battery pack 520, a light-emitting part 510, a locking groove 570, and a magnetic part 540, all of which are disposed on the mounting base. The light-emitting part 510 is mounted on the front side of the mounting base, the battery pack 520 is mounted on the bottom of the light-emitting part 510, the locking groove 570 is located on the rear side of the light-emitting part 510, and the magnetic part 540 is located on the rear side or the left and right sides of the light-emitting part 510. In some embodiments, the light-emitting part 510 may be arranged on the front side or the left and right sides of the lighting device 500, and its light-emitting area should be designed according to the lighting conditions.

[0061] The lighting device 500 is configured to output light of 600 lumens or more, with higher values ​​resulting in brighter light. The light output by the lighting device 500 can be 600 lumens, 700 lumens, 800 lumens, 900 lumens, 1000 lumens, 1100 lumens, 1200 lumens, 1300 lumens, 1400 lumens, 1500 lumens, or 1600 lumens, etc., without limitation.

[0062] The lighting device 500 also includes a display area 530 for indicating the power status and / or operating status and / or charging status of the lighting device 500, making it easy for users to distinguish whether it is in operating status, charging status, etc.; or to easily check the amount of power, or to distinguish between low power, full power, and charging status; all of the above can serve as a prompt. The lighting device 500 can provide at least one of the following: safety indication, fault indication, battery pack power reminder, or projected image, making it easy for users to check the current operating status of the lighting device 500. In some embodiments, the display area 530 is a display screen mounted on the mounting base, which is used to display the current power status, operating status, and charging status. In some embodiments, safety indication, fault indication, battery pack power reminder, and projected image are all displayed through the display screen. The display screen is located on the top of the lighting device 500 for easy viewing, and the operating area is generally located around or below the inflator 10. The display screen is located above the light-emitting part 510 to avoid affecting the lighting.

[0063] The lighting device 500 has a stepless brightness adjustment function, and correspondingly, it has a brightness adjustment unit 550, which adjusts the brightness by operating the brightness adjustment unit 550. The lighting device 500 also has a color temperature adjustment function, and correspondingly, it has a color temperature adjustment unit 560, which adjusts the color temperature by operating the color temperature adjustment unit 560. Both the brightness adjustment unit 550 and the color temperature adjustment unit 560 are located on the top of the lighting device 500 for easy operation.

[0064] The lighting device 500 and the battery pack interface 400 are respectively located at both ends of the main housing 100. In one embodiment, the battery pack interface 400 and the lighting device 500 are located on both sides of the main housing 100 in the front-rear direction. In other embodiments, the battery pack interface 400 and the lighting device 500 may also be located on both sides of the main housing 100 in the left-right direction, or they may be located on the same side. The battery pack interface 400 can be inserted obliquely, vertically, or horizontally into the main housing 100 for easy assembly and disassembly. It should be noted that the positional relationship between the battery pack interface 400 and the lighting device 500 described above can be understood as the positional relationship between the battery pack installed on the battery pack interface 400 and the lighting device 500.

[0065] In some embodiments, the inflator 10 has a low-pressure operating mode and a high-pressure operating mode, making it suitable for various inflation scenarios and offering good applicability and flexibility. In high-pressure inflation mode, the operating pressure is above 100 PSI (pounds per square inch), typically used for objects requiring higher inflation pressure, such as car tires, bicycle tires, hovercrafts, and basketballs. In low-pressure operating mode, the operating pressure is below 100 PSI (pounds per square inch), suitable for objects requiring lower inflation pressure, such as air mattresses, swimming rings, and balloons. The inflator 10 also includes an operating unit 130 disposed on the main housing 100, for user operation to adjust the operating mode of the inflator 10. The operating unit 130 can be a touchscreen, knob, or button, for example, it may have two buttons: a high-pressure operating mode section 131 and a low-pressure operating mode section 132; pressing either button activates the corresponding mode.

[0066] The power mechanism is a compression mechanism 102a, such as a compressor or an electric pump, which is driven by a first motor 101a. The power mechanism is a rotation mechanism 102b, such as a fan, which is driven by a second motor 101b.

[0067] In high-pressure operation mode, the inflator 10 drives the compression mechanism 102a. The compression mechanism 102a is typically a piston or centrifugal type, containing a pair of pistons that continuously move up and down during operation to compress the gas. The compressor also has a pressure valve that automatically opens when the gas pressure reaches a preset value, releasing the high-pressure gas into the inflation structure. The power mechanism includes a rotating mechanism 102b. In low-pressure operation mode, the inflator 10 drives the rotating mechanism 102b to rotate, thereby compressing the gas and filling the inflation structure with the compressed gas. In some embodiments, the inflator 10, in low-pressure operation mode, can also have a degassing function, for example, quickly extracting gas from the air-filled bed to store it.

[0068] This embodiment provides an air inflator 10, including a motor, a power mechanism, a main housing 100, and a battery pack interface 400 for attaching and detaching a battery pack. The battery pack provides power to the motor, which drives the power mechanism to generate airflow. This airflow is used to deflate or inflate an inflatable structure, such as a tire. The main housing 100 houses the motor and the power mechanism. By making the battery pack a detachable connection structure, users can easily replace the battery pack as needed, ensuring long-term use of the air inflator 10. Furthermore, when the battery pack is unavailable, replacing it extends the lifespan of the air inflator 10, avoiding the waste of replacing the entire air inflator 10. The air inflator 10 also includes a lighting device 500, configured to output light of 600 lumens or more. The lighting device 500 provides illumination to the working area of ​​the air inflator 10. When the air inflator 10 is used at night or in poorly lit areas, the lighting device 500 provides illumination, facilitating operation and expanding its application scenarios. This improves the applicability of the air inflator 10 and avoids limitations in its usage. The higher the output value of the lighting device 500, the brighter the light, avoiding insufficient brightness due to a low value. The output light of the lighting device 500 can be 600 lumens, 700 lumens, 800 lumens, 900 lumens, 1000 lumens, 1100 lumens, 1200 lumens, 1300 lumens, 1400 lumens, 1500 lumens, or 1600 lumens, etc., without limitation.

[0069] The total luminous area of ​​the lighting device 500 is not less than 0.1 square meters, such as 0.1 square meters, 0.15 square meters, 0.2 square meters, 0.25 square meters, 0.3 square meters, 0.35 square meters, 0.4 square meters, 0.45 square meters, or 0.5 square meters. The larger the total luminous area, the more luminous flux (lumens) radiated by the light-emitting part 510 will be distributed over a wider area. For the lighting device 500, the luminous flux (lumens) determines its brightness and lighting effect; the larger the luminous area, the more luminous flux will be distributed over a wider area.

[0070] The total rated power range of the lighting fixture 500 is 1W-30W, such as 1W-6W, 6W-15W, 15W-20W, 20W-25W, 25W-30W, etc. Taking the 1W-6W range as an example, any value can be selected, such as 1W, 2W, 3W, 4W, 5W, or 6W. The relationship between the total rated power and lumens is mainly reflected in the fact that the higher the power, the higher the lumen count is usually, thus providing brighter light. The lighting device 500 includes a battery pack 520, with a capacity ranging from 1Ah to 15Ah, such as 1Ah-5Ah, 6Ah-10Ah, 10Ah-15Ah, etc., or even 2Ah, 3Ah, 4Ah, 5Ah, 6Ah, 7Ah, 8Ah, 9Ah, 10Ah, 11Ah, 12Ah, 13Ah, 14Ah, or 15Ah. The capacity of the battery pack 520 affects the battery life; the battery pack capacity should be selected based on the required battery life. The maximum battery life of the lighting device 500 ranges from 0.5 hours to 20 hours, such as 1 hour, 2 hours, 3 hours, 4 hours, 5 hours, 6 hours, 6 hours-10 hours, 10 hours-15 hours, and 15 hours-20 hours, etc., and can be set according to needs. In some embodiments, when the 5Ah-10Ah battery pack 520 powers the light-emitting unit 510, the output of light between approximately 600 lumens and 1000 lumens lasts for approximately 2.5 hours.

[0071] The inflator 10 also includes an operating member 600 for adjusting the state of the light-emitting part 510. The operating member 600 is operated as needed to cause the light-emitting part 510 to present different states. In some embodiments, the state of the light-emitting part 510 includes its lumen output and color temperature. The lumen output has multiple states, and the color temperature has multiple states. In one embodiment, the lumen output state and the color temperature state correspond one-to-one. The operating member 600 adjusts both the lumen output and the color temperature simultaneously, and the lumen output state, the color temperature state, and the state of the operating member 600 correspond one-to-one for easy adjustment. In another embodiment, one lumen output state corresponds to multiple color temperature states, and similarly, one color temperature state corresponds to multiple lumen output states. The operating member 600 adjusts both the lumen output and the color temperature separately, increasing the number of display states of the light-emitting part 510.

[0072] When the lighting device 500 is used alone, it is adjusted by the brightness adjustment unit 550 and the color temperature adjustment unit 560. When the lighting device 500 is used for the air inflator 10, it can be adjusted by either the brightness adjustment unit 550 and the color temperature adjustment unit 560 or by the operation unit 600.

[0073] The lighting device 500 is detachably mounted on the main housing 100 for easy maintenance and replacement, and can be selected as needed. For example, when the lighting device 500 is unavailable, it can be replaced to avoid affecting the use of the air inflator 10. Removing the lighting device 500 makes the air inflator 10 easier to transport and store. After removal, the lighting device 500 can be used independently in other emergency rescues, construction sites, and outdoor activities, expanding its application scenarios and improving its applicability and flexibility. When the lighting device 500 is used in the air inflator 10, the battery pack provides charging current to the battery group 520, ensuring the lighting device 500's illumination duration.

[0074] This embodiment also provides an air inflator system, including a motor, a power mechanism driven by the motor to generate airflow, a power supply device for providing power to the motor, and a lighting device 500. The power supply device can be a lithium-ion battery or a solar cell. The lighting device 500 includes a light-emitting part 510 for providing illumination to the working area of ​​the air inflator 10. The color temperature of the light emitted by the lighting device 500 includes a first color temperature and a second color temperature; different color temperatures provide different visual and psychological experiences, and the appropriate color temperature can be selected according to the usage scenario. When the air inflator 10 is used at night or in places with insufficient light, the lighting device 500 provides illumination, facilitating the operation of the air inflator 10. Furthermore, the ability to select the color temperature according to needs, i.e., choosing between the first and second color temperatures, further expands the usage scenarios of the air inflator 10, improves its applicability, and avoids limitations on its usage scenarios.

[0075] Warm-toned light (low color temperature, such as 2700K-3500K) gives a feeling of warmth, while neutral light (color temperature between 3500K and 5000K) is soft and close to natural light, suitable for places requiring bright yet comfortable lighting. Therefore, the color temperature adjustment range is greater than or equal to 2000K and less than or equal to 6500K. In some embodiments, the color temperature adjustment range is greater than or equal to 2500K and less than or equal to 4500K, such as the selectable endpoint values ​​of 2500K, 3000K, 3500K, 4000K, and 5000K. For example, the first color temperature adjustment range is 2500K-3500K, and the second color temperature adjustment range is 3500K-5000K. The color temperature is adapted to the external environment; when the ambient temperature is low, a warm-toned color temperature is selected, and when the ambient temperature is high, a neutral color temperature is selected.

[0076] The color temperature is configured to be adaptively adjustable. For example, the lighting device 500 is equipped with a temperature sensor. When the ambient temperature reaches a preset value, the first color temperature is selected; otherwise, the second color temperature is used. Alternatively, the inflation system may also include an operating unit 600, which is configured to adjust the color temperature, allowing manual selection of either the first or second color temperature as needed.

[0077] like Figures 1-5 As shown, this embodiment also provides an air inflator system, including an air inflator 10, a power supply device, and a lighting device 500. The air inflator 10 includes a motor and a power mechanism driven by the motor to generate airflow. The power supply device provides power to the motor. The lighting device 500 includes a light-emitting part 510, which can be a light-emitting element such as an LED, incandescent lamp, or fluorescent lamp, used to provide illumination to the working area of ​​the air inflator 10. The air inflator 10 has a first connecting part 120 for detachably connecting the lighting device 500. The lighting device 500 also includes a rechargeable battery pack 520, which provides power to the light-emitting part 510 whether the lighting device 500 is installed or removed. The lighting device 500 is an independent structure, which can be used in conjunction with the air inflator 10 or used independently, expanding the application scenarios of the lighting device 500. When used with an air inflator 10, the air inflator 10 mounts the lighting device 500 via the first joint 120, ensuring reliable installation and enabling the air inflator 10 to operate in low-light environments. The power supply device can be a battery pack. The power supply device provides charging current to the battery pack 520 of the lighting device 500, extending the operating time of the lighting device 500. The power supply device is a battery pack.

[0078] like Figures 1-5 As shown, this embodiment also provides a lighting device 500 adapted to the operation of an air inflator 10. The air inflator 10 includes a power supply device, a first interface 121, a motor, and a power mechanism driven by the motor to generate airflow. The power supply device provides power to the motor. The first interface 121 is adapted to the lighting device 500. The lighting device 500 includes a second interface, a light-emitting part 510, and a battery pack 520 that powers the light-emitting part 510. The light-emitting part 510 provides illumination to the working area of ​​the air inflator 10, enabling the air inflator 10 to be used in low-light conditions, thus expanding its application scenarios. The second interface is adapted to the air inflator 10, and the first interface 121 and the second interface can be electrically connected to allow current to flow from the first interface 121 to the second interface. The power supply device, such as a battery pack, powers both the air inflator 10 and the lighting device 500, ensuring the long operating time of the lighting device 500. The lighting device 500 is detachably connected to the air inflator 10, can be used independently, is easy to replace, and is more flexible in use. The light-emitting part 510 is a light-emitting element such as an LED lamp, an incandescent lamp, or a fluorescent lamp.

[0079] In some embodiments, see Figure 7 As shown, the flexible pipe 200 has a first port 201 and a second port 202. The first port 201 can communicate with the first connection port 104 of the main housing 100, and the second port 202 can communicate with the second connection port 105 of the main housing 100. When the inflator 10 operates in low-pressure mode for inflation, the first port 201 can be disconnected from the first connection port 104 and connected to the air port 300 for inflation. When the inflator 10 operates in low-pressure mode for deflating, the second port 202 can be disconnected from the second connection port 105 and connected to the air port 300 for deflating. This design simplifies the operation mode switching process, facilitates user operation, and eliminates the need for an additional storage structure to house the flexible pipe 200.

[0080] like Figure 1 and Figure 7 As shown, one end of the flexible pipe 200 is connected to the first connection port 104, passes through the front side of the inflator 10 and goes around to the left side of the inflator 10, where it connects to the second connection port 105.

[0081] Figure 8 and Figure 9 An embodiment of the present application of a charger 10 is shown. The charger 10 includes a flexible conduit 200. The flexible conduit 200 has a first port 201 and a second port 202. The first port 201 can communicate with a first connection port 104 of the main body housing 100, and the second port 202 can communicate with a second connection port 105 of the main body housing 100. When the charger 10 is operating in a low-pressure mode for inflation, the first port 201 can be pulled out from the first connection port 104 and connected to an air port 300 for inflation. When the charger 10 is operating in a low-pressure mode for deflating, the second port 202 can be pulled out from the second connection port 105 and connected to an air port 300 for deflating. The bottom of the charger 10 also includes a limiting part 106 for fixing the flexible conduit 200. Parts of the flexible conduit 200 are arranged at the bottom of the charger 10, extending from the bottom to the left and right sides of the charger 10, respectively, and connecting to the first connection port 104 and the second connection port 105. In this way, by rationally arranging the flexible tubing 200, the overall structure of the machine becomes more compact. Furthermore, when using the inflator 10, the user only needs to unplug the desired end and connect it to the corresponding air port 300. Compared to inflators 10s in related technologies, where the user needs to remove the flexible hose from the storage structure before inserting it into the desired connection port, the technical solution of this application is more convenient to operate. In some embodiments, such as... Figure 8 As shown, the air vent 300 can be housed in a pre-reserved structure on the main housing 100. In some embodiments, such as Figure 1 As shown, the air inlet 300 can be flexibly connected to the flexible pipe 200.

[0082] The foregoing has shown and described the basic principles, main features, and advantages of this application. Those skilled in the art should understand that the above embodiments do not limit this application in any way, and all technical solutions obtained by equivalent substitution or equivalent transformation fall within the protection scope of this application.

Claims

1. An inflator, comprising: A motor and a power mechanism driven by said motor to generate airflow; The main housing, which houses the motor and the power mechanism, has a battery connection portion that allows for the detachment and installation of a battery pack that provides power to the motor; Its features are, The inflator also includes a lighting device configured to output light of 600 lumens or more.

2. The inflator according to claim 1, characterized in that, The light-emitting part of the lighting device is configured to output light, and the inflator also includes an operating element for adjusting the state of the light-emitting part.

3. The inflator according to claim 2, characterized in that, The state of the light-emitting part includes the lumen output and color temperature of the light-emitting part.

4. The inflator according to claim 1, characterized in that, The lighting device includes a rechargeable battery pack, which provides charging current to the battery pack.

5. The inflator according to claim 1, characterized in that, The lighting device has a display area for indicating the power status and / or working status and / or charging status of the lighting device.

6. The inflator according to claim 1, characterized in that, The lighting device is detachably mounted on the main housing.

7. The inflator according to claim 1, characterized in that, The lighting device is capable of providing at least one of the following: safety indication, fault indication, battery pack power reminder, or projected image.

8. The inflator according to claim 1, characterized in that, The total rated power of the lighting device ranges from 1W to 30W.

9. The inflator according to claim 1, characterized in that, The lighting device includes a battery pack with a capacity ranging from 1Ah to 15Ah.

10. The inflator according to claim 1, characterized in that, The maximum battery life of the lighting device ranges from 0.5 hours to 20 hours.

11. The inflator according to claim 1, characterized in that, The power mechanism includes a compression mechanism and / or a rotation mechanism.

12. An inflation system, comprising: A motor and a power mechanism driven by said motor to generate airflow; A power supply device for providing power to the motor; A lighting device, including a light-emitting part, is used to provide illumination for the working area of ​​the inflator; Its features are, The light emitted by the lighting device has a first color temperature and a second color temperature; the first color temperature and the second color temperature are different.

13. The inflation system according to claim 12, characterized in that, The color temperature adjustment range is greater than or equal to 2000K and less than or equal to 6500K.

14. The inflation system according to claim 13, characterized in that, The color temperature is configured to be adaptively adjustable; or the inflator system further includes an operating element configured to adjust the color temperature.

15. The inflation system according to claim 12, characterized in that, The air inflator system has a low-pressure operating mode and a high-pressure operating mode.

16. The inflation system according to claim 12, characterized in that, The inflator system also includes a main housing, and the lighting device is detachably mounted on the main housing.

17. The inflation system according to claim 12, characterized in that, The lighting device has a display area for indicating the power status and / or working status and / or charging status of the lighting device.