CN110500301B

CN110500301B - Built-in electric air pump

Info

Publication number: CN110500301B
Application number: CN201910877085.4A
Authority: CN
Inventors: 陈兴
Original assignee: Jiangsu Guorun Electric Co ltd
Current assignee: Jiangsu Guorun Electric Co ltd
Priority date: 2019-09-17
Filing date: 2019-09-17
Publication date: 2024-04-26
Anticipated expiration: 2039-09-17
Also published as: CN110500301A

Abstract

The invention discloses a built-in electric air pump, which comprises a connecting seat, a shell, a pump main body and a driving assembly, wherein the connecting seat is used for being assembled with an inflatable product; the shell is provided with a second air port, and the opening and closing of the second air port can be realized by driving the driving assembly to move up and down with the pump main body; the pump main body comprises a shell, an impeller structure and a motor, wherein the shell is provided with an air inlet and an air outlet, the impeller structure comprises a wind collecting cover, a bottom plate and a plurality of blades, the wind collecting cover is positioned above the bottom plate, the blades are positioned between the wind collecting cover and the bottom plate, an air inlet cavity is formed in the middle position of the wind collecting cover, and an air guide groove is formed between every two adjacent blades; the motor shaft of the motor penetrates through the impeller structure and drives the impeller structure to rotate. According to the invention, through the improvement of the exhaust structure, the convenient conversion of the inflation and ventilation states of the built-in air pump is realized; and the pumping and exhausting efficiency of the air pump is improved, and the noise is reduced.

Description

Built-in electric air pump

Technical Field

The invention relates to the technical field of air pumps, in particular to a built-in air pump for inflatable products.

Background

The air pump is a key component of various inflatable products (such as an inflatable mattress, an inflatable trampoline, an inflatable sofa and a large-sized inflatable toy), is arranged on the inner side edge of a soft bag body of the inflatable product, and can be used for performing operations of rapid inflation, pressure maintaining, rapid deflation and the like on the inflatable product so as to realize the functions of inflating and unfolding the inflatable product, normal use, deflation and space volume reduction, storage and the like.

At present, the structure of the air pump for the inflatable products seen in the market mainly comprises a shell, and a motor, an impeller, an electromagnetic valve, a sliding seat and an air valve which are arranged in the shell. And an air hole and an air groove are respectively arranged on the side surface and the bottom surface of the shell, the air valve is sealed on the air hole, and the sliding seat is opposite to the air groove. Wherein the air valve is connected to one end of the actuating rod of the electromagnetic valve, and the slide seat is connected to the other end of the actuating rod of the electromagnetic valve. The motor drives the impeller to rotate at a high speed to generate air flow, the electromagnetic valve controls the air valve to open and close the air hole, the electromagnetic valve drives the sliding seat to slide simultaneously to switch the flow direction of the air flow, and the air flow and the air leakage flow are respectively formed, the air flow is utilized to charge external air into the inflatable product, and the air in the inflatable product is pumped out by utilizing the air leakage flow, so that the functions of inflating and air leakage of the inflatable product are realized.

Although the conventional air pump structure can achieve the functions of inflating and deflating the inflatable product, there are many points to be improved, especially the unreasonable structure. Specifically, the air pump sold in the market has complex air exhaust structure, troublesome air exhaust operation and slower air exhaust, and influences the working efficiency.

In addition, the core of the air pump is the main body of the air pump, which generally comprises a motor, a shell and an impeller, but the existing impeller adopts a semi-open type structure, so that the space between the impeller and the pump shell is larger, after the air comes in, the air pump is easy to turn, the load is also large, and the air charging or discharging efficiency is influenced; or, to achieve the same charging or discharging efficiency, a motor with higher power is needed, but in this case, the motor has high power, consumes energy and increases cost; secondly, the noise is loud, and the use of users is affected.

Therefore, the conventional air pump structure should be improved.

Disclosure of Invention

The invention mainly solves the technical problem of providing the built-in electric air pump, which realizes convenient conversion of the inflation and ventilation states of the built-in electric air pump, improves the pumping and exhausting efficiency of the air pump and reduces noise by improving the structure of the air pump.

In order to solve the technical problems, the invention adopts a technical scheme that: the built-in electric air pump comprises a connecting seat, a shell, a pump main body and a driving component, wherein the connecting seat is used for being assembled with an inflatable product, the shell is arranged in the inflatable product, the pump main body is arranged on the shell, the driving component is arranged on the connecting seat, the connecting seat is provided with a first air port, and the pump main body is provided with an air inlet and an air outlet;

The shell is provided with a second air port, and the opening and closing of the second air port can be realized by driving the driving assembly to move up and down with the pump main body;

When the pump is inflated, the driving assembly is driven to drive the pump main body to move downwards, and the outer side of the pump main body and the shell form a seal, so that external gas sequentially enters an inflated product through the first gas port, the inner cavity of the pump main body, the air inlet and the air outlet under the action of the pump main body;

When the air is exhausted, the driving assembly is driven to drive the pump main body to move upwards, so that the outer side of the pump main body is separated from the shell, and the air in the inflatable product is sequentially exhausted through the second air port, the cavity formed between the pump main bodies by the shell and the first air port;

The pump main body further comprises a shell, an impeller structure and a motor, wherein the impeller structure and the motor are arranged in the shell, and the air inlet and the air outlet are arranged in the shell;

The impeller structure comprises a wind collecting cover, a bottom plate and a plurality of blades, wherein the wind collecting cover is positioned above the bottom plate, the blades are positioned between the wind collecting cover and the bottom plate, the wind collecting cover is provided with an air inlet cavity, an air guide groove is formed between every two adjacent blades, and air enters the air inlet cavity and the air guide groove through the air inlet, flows through the inside of the shell and flows out through the air outlet;

The air inlet is defined to be located on one side of the air inlet, the motor is located below the impeller structure, and a motor shaft of the motor penetrates through the impeller structure and drives the impeller structure to rotate.

In order to solve the technical problems, the invention adopts the further technical scheme that: the air outlet is provided with a one-way valve, and the one-way valve is opened and closed to be blocked at the air outlet.

Further, the driving component and the pump body are provided with a rotating structure in front, and the driving component is rotated to realize the up-and-down movement of the pump body through the rotating structure.

Further, the rotating structure comprises a convex column arranged on the driving component and a spiral groove arranged at the upper end of the pump main body, the convex column is matched with the spiral groove, and the driving component is rotated to drive the convex column to move relatively to the spiral groove so as to realize up-and-down movement of the pump main body.

Further, a locking component is arranged at the driving component, and the locking component is abutted against the connecting seat to realize the relative fixation between the driving component and the pump main body.

Further, the locking assembly comprises an elastic member and a tightening member, one end of the elastic member abuts against the driving assembly, the other end of the elastic member abuts against the tightening member, and meanwhile the tightening member abuts against the connecting seat, so that the driving assembly and the pump body are relatively fixed.

Further, the driving assembly is an exposed knob capable of being manually operated, the knob comprises an inner knob and an outer knob, the outer knob is fixed with the inner knob, the outer knob is mounted on the mounting seat, and the locking assembly is arranged between the inner knob and the outer knob.

Further, the pump main body further comprises a ventilation seat arranged in the shell, and the ventilation seat is arranged between the impeller structure and the motor;

The ventilation seat is provided with a circle of air flow inlets along the circumferential direction of the ventilation seat, the bottom surface of the ventilation seat is provided with a plurality of guide grooves, the guide grooves are communicated with the air flow inlets, and the guide grooves are in one-to-one correspondence with the air flow inlets.

Further, the power supply of the motor is a dry battery, a storage battery or externally connected through a plug.

Further, the shell comprises an upper cover, a side cover and a lower cover, wherein the upper cover is connected with the upper end of the side cover, and the lower end of the side cover is connected with the lower cover.

Further, the outer wall of the pump body and the inner wall of the housing have guide structures;

the guide structure comprises guide ribs arranged on the outer wall of the pump main body and guide grooves arranged on the inner side wall of the shell;

Or the guide structure is a guide groove arranged on the outer wall of the pump main body and a guide rib arranged on the inner wall of the shell.

Further, the housing is provided with a receiving cavity.

Further, the accommodating cavity is separated from the pump body through a partition plate, and the partition plate is provided with a vent hole.

The beneficial effects of the invention are as follows:

The invention comprises a connecting seat for being assembled with an inflatable product, a shell arranged in the inflatable product, a pump main body arranged on the shell and a driving component arranged on the connecting seat, wherein the pump main body can be driven to move up and down only by driving the driving component to realize the conversion of the exhaust state and the inflation state, the conversion process is simple, convenient, quick and easy to operate, the exhaust process is smooth, and the efficiency is high; moreover, the structure is simple, electromagnetic valves and the like are not adopted, the cost is reduced, and the market competitiveness of the product is improved;

The impeller structure of the pump main body comprises the wind collecting cover, the bottom plate and the plurality of blades, and compared with the traditional semi-open impeller structure (namely, the impeller without the wind collecting cover is arranged, gas exists between the impeller and the shell), the impeller structure of the pump main body provided by the invention has the advantages that external gas directly enters the air inlet cavity through the air inlet, the gas is collected between the wind collecting cover and the bottom plate, the space where the gas exists is reduced, the vacuum degree in the pump is improved, the load of the pump is reduced, the pumping and exhausting efficiency of the air pump is improved, and the noise is low; can be used as some inflatable products such as inflatable beds, inflatable boats and the like;

In addition, in the exhaust state, the motor of the pump main body does not need to rotate, and compared with a commercially available air pump which can realize the exhaust only by reversing the motor, the energy-saving exhaust without electricity is realized, and the cost is reduced; and noise during exhaust can be reduced;

Furthermore, the invention can also comprise a locking component which comprises an elastic component and a propping component, wherein one end of the elastic component props against the driving component and the other end props against the propping component, and meanwhile, the propping component props against the connecting seat, so that the driving component and the pump main body are relatively fixed in the inflation state and the exhaust state;

Furthermore, the outer wall of the pump main body and the inner wall of the shell can be provided with a guide structure, so that the smoothness of the pump main body in the vertical translation process is improved;

Furthermore, the shell of the invention can be provided with a storage cavity for storing the power line matched with the air pump, thereby being very convenient.

The foregoing description is only an overview of the present invention, and is intended to provide a better understanding of the present invention, as it is embodied in the following description, with reference to the preferred embodiments of the present invention and the accompanying drawings.

Drawings

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

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

FIG. 3 is a schematic view of the structure of the present invention in an inflated state;

Fig. 4 is a schematic view of the structure in the exhaust state of the present invention;

FIG. 5 is an exploded view of the pump body of the present invention;

FIG. 6 is a schematic view of the structure at the drive assembly of the present invention;

FIG. 7 is a schematic illustration of an exploded construction of the drive assembly of the present invention;

FIG. 8 is a schematic structural view of the housing of the present invention;

FIG. 9 is an axial cross-sectional view of the pump body of the present invention;

FIG. 10 is a schematic structural view of the impeller structure of the present invention;

FIG. 11 is a radial cross-sectional view of the impeller structure of the present invention;

FIG. 12 is a schematic view of the structure of the ventilation seat of the present invention (from the bottom);

The parts in the drawings are marked as follows:

The connecting seat 1, the first air port 11, the abutting groove 12, the shell 2, the second air port 21, the guide groove 22, the cavity 23, the partition 24, the ventilation hole 241 and the containing cavity 25.

Pump body 3, housing 31, spiral groove 311, air outlet 312, upper cover 313, side cover 314, air inlet 3141, guide groove 3142, lower cover 315, impeller structure 32, air collecting cover 321, bottom plate 322, blades 323, air inlet chamber 324, air guide groove 325, motor 33, check valve 34, guide rib 35, ventilation seat 36, drive assembly 4, inner knob 41, boss 411, outer knob 42, accommodation groove 421, elastic member 61, and abutting member 62.

Detailed Description

The following specific embodiments of the invention are described in order to provide those skilled in the art with an understanding of the present disclosure. The invention may be embodied in other different forms, i.e., modified and changed without departing from the scope of the invention.

Examples: a built-in electric air pump, as shown in fig. 1 to 4, comprises a connecting seat 1 for being assembled with an inflatable product, a housing 2 arranged in the inflatable product, a pump main body 3 arranged on the housing, and a driving assembly 4 arranged on the connecting seat, wherein the connecting seat is provided with a first air inlet 11, and the pump main body is provided with an air inlet and an air outlet 312;

The shell 2 is provided with a second air port 21, and the opening and closing of the second air port 21 can be realized by driving the driving assembly 4 to move up and down along with the pump main body 3;

When in inflation, the driving component 4 is driven to drive the pump main body 3 to move downwards, and the outer side of the pump main body and the shell form a seal, so that external air sequentially enters an inflation product through the first air port 11, the air inlet, the inner cavity of the pump main body, the air outlet 312 and the second air port under the action of the pump main body;

During the exhaust, the driving component 4 is driven to drive the pump main body to move upwards, so that the outer side of the pump main body is separated from the shell, and the gas in the inflatable product is discharged through the second gas port, the cavity 23 formed between the shell and the pump main body and the first gas port in sequence.

As shown in fig. 5, the air outlet 312 is provided with a check valve 34, and the check valve is opened and closed to the air outlet 312.

The driving component 4 and the pump body 3 are provided with a rotating structure in front, and the driving component is rotated to realize the up-and-down movement of the pump body through the rotating structure.

In this embodiment, as shown in fig. 3 to 6, the rotating structure includes a protruding column 411 disposed on the driving component 4 and a spiral groove 311 disposed on the upper end of the pump body 3, where the protruding column is matched with the spiral groove, and the rotating driving component drives the protruding column and the spiral groove to move relatively to realize the up-and-down movement of the pump body. In this embodiment, the protruding column is disposed on the inner knob. In this embodiment, the spiral groove is also an air inlet of the pump body.

As shown in fig. 6 and 7, a locking component 6 is arranged at the driving component 4, and the locking component abuts against the connecting seat to realize the relative fixation between the driving component and the pump main body.

The locking assembly 6 comprises an elastic member 61 and a tightening member 62, one end of the elastic member abuts against the driving assembly and the other end abuts against the tightening member, and the tightening member abuts against the connecting seat 1, so that the driving assembly 4 and the pump body 3 are relatively fixed. In this embodiment, the elastic member is a spring, and the abutting member is a steel ball, but is not limited thereto. The connection seat is provided with a tightening groove 12 matched with the tightening piece.

The driving component 4 is an exposed manually operable knob, the knob comprises an inner knob 41 and an outer knob 42, the outer knob is fixed with the inner knob, the outer knob is mounted on the connecting seat 1, and the locking component is arranged between the inner knob 41 and the outer knob 42.

As shown in fig. 6 and 7, the outer knob has a receiving groove 421 to which the locking assembly is mounted.

As shown in fig. 5 and 8, the outer wall of the pump body and the inner wall of the housing have guide structures.

The guide structure comprises guide ribs 35 arranged on the outer wall of the pump main body and guide grooves 22 arranged on the inner side wall of the shell;

or the guide structure is a guide groove arranged on the outer wall of the pump main body and a guide rib arranged on the inner wall of the shell, and the guide groove is adopted in the embodiment.

In this embodiment, as shown in fig. 8, the housing is provided with a receiving chamber 25. The power line is used for being accommodated in the air pump for being matched with the air pump, and is quite convenient.

The receiving chamber is separated from the pump body by a partition plate 24 provided with a vent 241. The gas can enter and exit the gas through the vent hole and the first gas port of the connecting seat, so that the gas flow in the same time is increased.

As shown in fig. 9 to 12, the pump body 3 in the present embodiment further includes a housing 31, an impeller structure 32 and a motor 33 provided inside the housing, and the air inlet and outlet 312 are provided in the housing;

The impeller structure 32 comprises a wind collecting cover 321, a bottom plate 322 and a plurality of blades 323, wherein the wind collecting cover is positioned above the bottom plate, the blades are positioned between the wind collecting cover and the bottom plate, an air inlet cavity 324 is formed in the middle of the wind collecting cover, an air guide groove 325 is formed between adjacent blades, and air enters the air inlet cavity and the air guide groove through the air inlet and then flows into the shell and flows out through an air outlet;

The air inlet is defined to be located on one side of the air inlet, the motor is located below the impeller structure, and a motor shaft of the motor penetrates through the impeller structure and drives the impeller structure to rotate. In the present embodiment, the blade has seven sheets, but is not limited thereto.

The pump body further includes a vent seat 36 disposed within the housing, the vent seat being mounted between the impeller structure and the motor;

The ventilation seat is provided with a circle of airflow inlets 3141 along the circumferential direction, the bottom surface of the ventilation seat is provided with a plurality of diversion trenches 3142, the diversion trenches are communicated with the airflow inlets, and the diversion trenches are in one-to-one correspondence with the airflow inlets.

The motor drives the impeller structure to bring air into the shell, and the air is dispersed through the air inlet and the guide groove of the ventilation seat and then is discharged through the air outlet; secondly, the impeller drives the gas that produces and can pass through the motor with the mode of swirl behind round air outlet and the guide way of ventilation seat, can solve the motor problem of generating heat to a certain extent, extension motor life.

In this embodiment, the power source of the motor is a dry battery, a storage battery or external power through a plug. For example, the external power can be connected with a power supply through a common two-pin plug.

The housing includes an upper cover 313, a side cover 314, and a lower cover 315, the upper cover is connected to the upper end of the side cover, and the lower end of the side cover is connected to the lower cover. In this embodiment, the ventilation seat is integrated with the side cover.

In this embodiment, the air inlet is disposed on the upper cover, and the air outlet is disposed on the lower cover. The wind collecting cover, the bottom plate and the blades are connected in an integrated mode.

The working process and working principle of the invention are as follows:

The air pump is arranged on an inflatable product through the connecting seat, as shown in fig. 3, an arrow indicates the flowing direction of air, when the inflatable product is inflated, the rotating assembly is rotated, so that the convex column of the inner knob is positioned at the upper end of the spiral groove of the pump main body, the pump main body is driven to move downwards, sealing is formed between the outer side of the pump main body and the outer shell, the surface of the connecting seat is abutted against by the spring and the steel ball, so that the relative fixation of the pump main body and the outer shell is realized, at the moment, the motor of the pump main body works, the one-way valve is opened by external air, the external air sequentially enters the inflatable product through the first air port, the inner cavity of the pump main body and the air inlet (in the embodiment, the spiral groove can play a role of the air inlet), after inflation is finished, the motor is only required to be turned off, the pump main body stops running, and the air in the air outlet is blocked by the one-way valve because the internal air pressure of the inflatable product is higher, so that the air in the inflatable product can not be discharged;

When the pump is inflated, the working process of the gas entering the pump main body stage is as follows: external air directly enters the air inlet cavity through the air inlet, the air is collected between the air collecting cover and the bottom plate, the space where the air exists is reduced, the vacuum degree in the pump is improved, the load of the pump is reduced, the pumping and exhausting efficiency of the air pump is improved, and the noise is low; then the air enters an air flow inlet of the ventilation seat through the air guide groove, flows through an air outlet of the shell after passing through the guide groove, and can uniformly disperse and cut air to avoid noise generated by air vibration, so that the noise is reduced;

As shown in fig. 4, the arrow indicates the flow direction of the gas, and when exhausting, the rotating assembly is rotated, so that the convex column of the inner knob is located at the lower end of the spiral groove of the pump body, and drives the pump body to move upwards, so that the outer side of the pump body is separated from the outer shell, the second gas port is opened, and the gas in the inflatable product is exhausted through the second gas port, the cavity formed between the outer shells and the first gas port in sequence, so that the rapid exhaust can be realized.

The foregoing description is not intended to limit the scope of the invention, but rather is merely exemplary of the invention, and all equivalent structures made by the teachings of this invention and the accompanying drawings, or direct or indirect application in other related arts, are equally included in the scope of this invention.

Claims

1. A built-in electric air pump which is characterized in that: the air pump comprises a connecting seat (1) for being assembled with an inflatable product, a shell (2) arranged in the inflatable product, a pump main body (3) arranged on the shell and a driving component (4) arranged on the connecting seat, wherein the connecting seat is provided with a first air port (11), and the pump main body is provided with an air inlet and an air outlet (312);

The shell is provided with a second air port (21), and the opening and closing of the second air port can be realized by driving the driving assembly to move up and down with the pump main body;

When the pump is inflated, the driving assembly is driven to drive the pump main body to move downwards, and the outer side of the pump main body and the shell form a seal, so that external gas sequentially enters an inflated product through the first gas port, the air inlet, the inner cavity of the pump main body and the air outlet under the action of the pump main body;

When the air is exhausted, the driving assembly is driven to drive the pump main body to move upwards, so that the outer side of the pump main body is separated from the shell, and the air in the inflatable product is sequentially exhausted through the second air port, a cavity (23) formed between the shell and the pump main body and the first air port;

The pump main body (3) further comprises a shell (31), an impeller structure (32) and a motor (33) which are arranged in the shell, and the air inlet and the air outlet (312) are arranged in the shell;

Defining the side of the air inlet as the upper part, wherein the impeller structure (32) comprises an air collecting cover (321), a bottom plate (322) and a plurality of blades (323), the air collecting cover is positioned above the bottom plate, the blades are positioned between the air collecting cover and the bottom plate, the air collecting cover is provided with an air inlet cavity (324), an air guide groove (325) is formed between the adjacent blades, and air enters the air inlet cavity and the air guide groove through the air inlet, flows through the inside of the shell and flows out through the air outlet;

The motor is positioned below the impeller structure, and a motor shaft of the motor penetrates through the impeller structure and drives the impeller structure to rotate;

a rotating structure is arranged between the driving component and the pump main body, and the driving component is rotated to realize the up-and-down movement of the pump main body through the rotating structure;

the rotating structure comprises a convex column (411) arranged on the driving component and a spiral groove (311) arranged at the upper end of the pump main body, the convex column is matched with the spiral groove, and the driving component is rotated to drive the convex column and the spiral groove to move relatively to realize the up-and-down movement of the pump main body;

the outer wall of the pump main body and the inner side wall of the shell are provided with guide structures;

The guide structure comprises guide ribs (35) arranged on the outer wall of the pump main body and guide grooves (22) arranged on the inner side wall of the shell;

2. A built-in electric air pump according to claim 1, characterized in that: the air outlet is provided with a one-way valve (34), and the one-way valve is opened and closed to be blocked at the air outlet.

3. A built-in electric air pump according to claim 1, characterized in that: the driving assembly is provided with a locking assembly (6), and the locking assembly is abutted against the connecting seat to realize the relative fixation between the driving assembly and the pump main body.

4. A built-in electric air pump according to claim 3, characterized in that: the locking assembly comprises an elastic piece (61) and a propping piece (62), one end of the elastic piece is propped against the driving assembly, the other end of the elastic piece is propped against the propping piece, and meanwhile, the propping piece is propped against the connecting seat, so that the driving assembly and the pump body are relatively fixed.

5. A built-in electric air pump according to claim 3, characterized in that: the driving assembly is an exposed knob which can be manually operated, the knob comprises an inner knob (41) and an outer knob (42), the outer knob is fixed with the inner knob, the outer knob is installed on the connecting seat, and the locking assembly is arranged between the inner knob and the outer knob.

6. A built-in electric air pump according to claim 1, characterized in that: the pump body further includes a vent seat (36) disposed within the housing, the vent seat being mounted between the impeller structure and the motor;

The ventilation seat is provided with a circle of airflow inlets (3141) along the circumferential direction of the ventilation seat, the bottom surface of the ventilation seat is provided with a plurality of diversion trenches (3142), the diversion trenches are communicated with the airflow inlets, and the diversion trenches are in one-to-one correspondence with the airflow inlets.

7. A built-in electric air pump according to claim 1, characterized in that: the power supply of the motor is a dry battery, a storage battery or externally connected with electricity through a plug.

8. A built-in electric air pump according to claim 1, characterized in that: the shell comprises an upper cover (313), a side cover (314) and a lower cover (315), wherein the upper cover is connected with the upper end of the side cover, and the lower end of the side cover is connected with the lower cover.

9. A built-in electric air pump according to claim 1, characterized in that: the housing is provided with a receiving cavity (25).

10. The built-in electric air pump according to claim 9, wherein: the storage cavity (25) is separated from the pump body through a partition plate (24), and the partition plate is provided with a vent hole (241).