The present invention relates to a built-in pump, and more particularly to a dual-shaft built-in pump.
A built-in pump is an electric pump that is built into an air bag of an inflatable product to inflate and deflate the air bag. Existing built-in pumps usually use only one motor to inflate and deflate. As known, when the fan blades are rotated under the driving of the motor, the airflow is outputted in only one direction, in view of this, a movable valve is usually configured within the built-in pump to switch the air inlet duct and the air outlet duct, so that the direction of the airflow can be changed to achieve the switch between inflation and deflation. However, it is necessary to skillfully configure the air inlet duct and the air outlet duct inside the pump, which leads to complicated structures of these ducts, and brings difficult processing and high costs.
One objective of the present invention is to provide a dual-shaft built-in pump, which has simple structure, convenient fabrication and low cost.
To achieve the mentioned above objective, the present invention provides a dual-shaft built-in pump including: a main body, provided with an inner cavity and an inlet communicated with the inner cavity, and the inner cavity having an air inlet and an air outlet; a motor cover, provided with an accommodating cavity having an air inflation vent that is communicated with the air inlet and an air deflation vent that is communicated with the air outlet; two valve bodies, one of the valve bodies being configured at the air inlet, and another of the valve bodies being configured at the air outlet; a first fan blade, located between the air inflation vent and the air inlet; a second fan blade, located between the air deflation vent and the air outlet; a dual-shaft motor, configured in the accommodating cavity and having an output shaft which has an end connected with the first fan blade and another end connected with the second fan blade; and a rotating member, rotatably provided on the main body and configured to drive either of the two valve bodies thereby opening the air inlet or the air outlet.
In comparison with the prior art, the air inlet and the air outlet are arranged in the inner cavity of the main body according to the present invention, so that the air inlet is communicated with the air inflation vent of the accommodating cavity, and the air outlet is communicated with the air deflation vent of the accommodating cavity, the first fan blade s arranged between the air inflation vent and the air inlet, the second fan blade is arranged between the air deflation vent and the air outlet duct, and two valve bodies are arranged on the air inlet and the air outlet, respectively. Therefore, either of the two valve bodies can be driven by means of the rotating member, thereby opening the air inlet and the air outlet. After the air inlet is opened, the air can flow in through the air inflation vent; after the air outlet is opened, the air can flow out from the air deflation vent. In such a way, there is no need to switch the air ducts inside the pump, the structure of the air duct is simplified, and the processing is convenient. In addition, the main body and the motor cover are configured, the rotating member and the two valve bodies are arranged on the main body, and the dual-shaft motor, the first fan blade and the second fan blade are arranged on the motor cover, therefore, it's only required to assemble the main body with the motor cover during the assembly, which brings a simple assembly and reduced processing costs.
As an embodiment, a rotation center axis of the output shaft of the dual-shaft motor is parallel to that of the rotating member.
As an embodiment, the air inlet and the air outlet are located between the first fan blade and the second fan blade.
As an embodiment, the motor cover is provided with an air outlet duct, one end of the air outlet duct is communicated with the air outlet of the inner cavity, and another end of the air outlet duct is communicated with the air deflation vent of the accommodating cavity.
As an embodiment, the output shaft of the dual-shaft motor is perpendicular to a rotation center axis of the rotating member.
As an embodiment, the accommodating cavity is provided with a first cavity, a second cavity and a third cavity, and the first fan blade is located in the first cavity, the air inflation vent is communicated with the first cavity; the second fan blade is located in the third cavity, and the air deflation vent is communicated with the third cavity; and the dual-shaft motor is configured in the third cavity.
As an embodiment, one side of the motor cover is provided with an air inlet duct, and another side of the motor cover is provided with an air outlet duct; one end of the air inlet duct is communicated with the air inlet, and another end of the air inlet is communicated with the air inflation vent of the accommodating cavity; one end of the air outlet duct is communicated with the air inflation vent, and another end of the air outlet duct is communicated with the air deflation vent of the accommodating cavity.
As an embodiment, each valve body comprises a support, an elastic restoring member and a sealing member, the support is movably configured in the main body, one end of the elastic restoring member is pressed against an inner wall of the support, and another end of the elastic restoring member is pressed against the support, the sealing member is disposed on the support and configured to seal the inner cavity under an elastic force of the elastic restoring member.
As an embodiment, the motor cover is provided with two movable chambers isolated from one another, one of the movable chambers is located between the air inlet and the accommodating cavity and communicated with the accommodating cavity to receive the valve body disposed at the air inlet, another of the movable chambers is located between the air outlet and the accommodating cavity and communicated with the accommodating cavity to receive the valve body disposed at the air outlet.
As an embodiment, a guide rail is arranged on the rotating member and provided with a protruding portion that is configured to push one of the valve bodies thereby opening the air inlet or the air outlet.
As an embodiment, the pump further includes an elastic member configured between the main body and the rotating member, so that the rotating member is attached to the main body.
As an embodiment, the rotating member is provided with an engaging portion, the main body is provided with a plurality of recesses, and the engaging portion is configured to engage with one of the recesses after the rotating member is rotated by a certain angle.
As an embodiment, a surface of the main body is provided with a through hole communicating with the inner cavity, and the rotating member is configured at the through hole.
As an embodiment, the main body is provided with a storage chamber for storing wires connected to the dual-shaft motor, and a cover is provided at an opening of the storage chamber.
As an embodiment, the main body comprises a main portion and a top cover disposed on a surface of the main body, and an outer surface of the main body is provided with a rubber layer.
As an embodiment, the air inflation vent and the air deflation vent are provided with a protective cover, respectively, which is hollow.
As an embodiment, the protective cover is made of a flexible material.
The accompanying drawings facilitate an understanding of the various embodiments of this invention. In such drawings:
The present invention will be described in detail below with reference to the accompanying drawings and preferred embodiments.
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When inflating, firstly the rotating member 2 is rotated, so that the rotating member 2 is turned to the inflation mark, at this time, the protruding portion 22 of the rotating member 2 is rotated to the top of the air inlet 13 to push the support 31 at the air inlet 13, and the elastic restoring member 32 is compressed by the support 31 to drive the sealing member 33 to be far away from the air inlet 13 and enter the movable chamber 43. At this time, the inlet 12, the inner cavity 11, the air inlet 13, the movable chamber 43, and the accommodating cavity 41 are communicated with the air inflation vent 44, and the valve body 3 located at the air outlet 14 still seals the air outlet 14 to maintain the air outlet duct 42 in a closed state. At this time, the dual-shaft motor 5 is started up, and the rotation of the output end of the dual-shaft motor 5 drives the rotations of both the first fan blade 6 and the second fan blade 7 at the same time. At this time, since only the first fan blade 6 pushes the airflow, therefore, the air enters from the inlet 12, passes through the inner cavity 11, the air inlet 13, the movable chamber 43, and the accommodating cavity 41, and then flows out from the air inflation vent 44, so that the air bag is inflated.
When deflating, firstly the rotating member 2 is rotated, so that the rotating member 2 is turned to the deflation mark, at this time, the protruding portion 22 of the rotating member 2 is rotated to the top of the air outlet 14 to push the support 31 at the air outlet 14, and the elastic restoring member 32 is compressed by the support 31 to drive the sealing member 33 to be far away from the air outlet 14 and enter the movable chamber 43. At this time, the inlet 12, the inner cavity 11, the air outlet 14, the movable chamber 43, the air outlet duct 42, and the accommodating cavity 41 are communicated with the air deflation vent 45, and the valve body 3 located at the air inlet 13 still seals the air inlet 13. At this time, the dual-shaft motor 5 is started up, and the rotation of the output end of the dual-shaft motor 5 drives the rotations of both the first fan blade 6 and the second fan blade 7 at the same time. At this time, since only the second fan blade 7 pushes the airflow, therefore, the air flows from the air deflation vent 44, and then passes through the accommodating cavity 41, the air outlet duct 42, the movable chamber 43, the air outlet 14, and the inner cavity 11, so that the air bag is deflated.
In comparison with the prior art, the air inlet 13 and the air outlet 14 are arranged in the inner cavity 11 of the main body 1 according to the present invention, so that the air inlet 13 is communicated with the air inflation vent 44 of the accommodating cavity 41, and the air outlet 14 is communicated with the air deflation vent 45 of the accommodating cavity 41, the first fan blade 6 is arranged between the air inflation vent 44 and the air inlet 13, the second fan blade 7 is arranged between the air deflation vent 45 and the air outlet duct 42, and two valve bodies 3 are arranged on the air inlet 13 and the air outlet 14, respectively. Therefore, either of the two valve bodies 3 can be driven by means of the rotating member 2, thereby opening the air inlet 13 and the air outlet 14. After the air inlet 13 is opened, the air can flow in through the air inflation vent; after the air outlet 14 is opened, the air can flow out from the air deflation vent. In such a way, there is no need to switch the air ducts inside the pump, the structure of the air duct is simplified, and the processing is convenient. In addition, the main body 1 and the motor cover 4 are configured, the rotating member 2 and the two valve bodies 3 are arranged on the main body 1, and the dual-shaft motor 5, the first fan blade 6 and the second fan blade 7 are arranged on the motor cover 4, therefore, it's only required to assemble the main body 1 with the motor cover during the assembly, which brings a simple assembly and reduced processing costs.
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The above is only the preferred embodiment of the present application, and the scope of the application is not limited thereto, and thus equivalent changes made by the scope of the present application are still within the scope of the present application.
Number | Date | Country | Kind |
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202123024980.3 | Dec 2021 | CN | national |