CN218624573U - Air pump - Google Patents

Abstract

The utility model discloses an inflator pump, inflator pump includes: the air pump comprises a shell, wherein an air pumping port and an air charging port are arranged on the shell; the cylinder, the cylinder sets up in the shell, and the cylinder has induction port and gas vent, extraction opening and induction port intercommunication, gas vent and inflation inlet intercommunication. The utility model provides an inflator pump has solved effectively among the prior art problem that the inflator pump does not have the function of bleeding.

Description

Air pump

Technical Field

The utility model relates to an inflation equipment technical field particularly, relates to an inflator pump.

Background

The inflator pump comprises a motor, a transmission assembly, a piston rod, a one-way valve and a cylinder, and the principle is that the motor drives the transmission assembly to enable the piston rod to reciprocate in the cylinder, so that the inflating function is realized; when air is pumped, the elastic sheet of the piston rod is closed, and the gas in the cylinder is extruded and rushes out the check valve at the tail end of the cylinder to enter an object with air inflation.

Most all utilize the inflation function of inflator pump to aerify the object at present on the market, and the negative pressure that the inspiration of its in-process other end of inflating produced is then neglected, and hobby outdoor camping at many young people at present, it can't use more inflatable article to avoid, for example swimming life-buoy, rubber boat, inflatable tent, air bed etc. when these article need the manual work to deflate after the use and fold and accomodate, and the gaseous evacuation that can't be accomplished under the state of no pressure, lead to accomodating unchangeably. In the prior art, the function of the inflator pump is single, only the function of inflation is realized, the function of air suction is not realized, and the requirements of users cannot be met.

In summary, the inflator in the prior art has no air pumping function.

SUMMERY OF THE UTILITY MODEL

The embodiment of the utility model provides an in provide an inflator pump to solve among the prior art problem that the inflator pump does not have the function of bleeding.

In order to achieve the above object, the utility model provides an inflator pump, include: the air pump comprises a shell, wherein an air pumping port and an air charging port are arranged on the shell; the cylinder, the cylinder sets up in the shell, and the cylinder has induction port and gas vent, extraction opening and induction port intercommunication, gas vent and inflation inlet intercommunication.

Further, the air exhaust opening is provided with threads or a buckle, and the air exhaust opening can be connected with an air nozzle.

Further, the inflator pump comprises an air nozzle, the air nozzle is detachably connected to the inflation inlet, and the air nozzle can be detachably connected to the air exhaust opening at the same time.

Further, an air inlet is arranged on the shell and communicated with an air suction port of the air cylinder.

Further, the intake port is provided with an opening and closing mechanism for opening or closing the intake port.

Further, the opening and closing mechanism includes: the fixed door is arranged in the air inlet and provided with first vent holes arranged at intervals; the movable door is rotationally connected to the fixed door through a rotating shaft and is provided with a second vent hole; the movable door has a first position where the second vent hole and the first vent hole are staggered and the first vent hole is closed, a second position where the second vent hole is communicated with the first vent hole, and the movable door is switched between the first position and the second position by rotating.

Further, the opening and closing mechanism further includes: the knob is connected to the movable door in a driving mode and drives the movable door to rotate through rotation; and a third vent hole is formed in the knob and communicated with the second vent hole.

Further, the fixed door and the movable door are both of fan-shaped door structures with a plurality of fan blades.

Furthermore, a negative pressure area is formed in the shell, the negative pressure area is communicated with an air suction port of the air cylinder, and the air inlet and the air suction port are communicated with the negative pressure area.

Further, the cylinder includes the cylinder base, encloses into negative pressure zone between cylinder base and the shell, is provided with the induction port on the cylinder base.

Furthermore, a limiting rib and a limiting groove are arranged on the cylinder base, and a limiting boss is arranged on the shell; the limiting boss is clamped in the limiting groove; the cylinder base, the limiting rib, the limiting groove, the limiting boss and the shell are matched to form a negative pressure area.

Furthermore, a limiting groove is formed in the cylinder base, and a limiting boss is arranged on the shell; the limiting boss is clamped in the limiting groove.

Furthermore, the cylinder includes the piston rod that the drive assembly that is connected with the motor and carries out the work, and the drive assembly is connected with the piston rod drive, and drive assembly and piston rod all set up in the negative pressure zone.

Further, the air inlet and the extraction opening are arranged adjacently, and the diameter of the air inlet is larger than that of the extraction opening.

The inflation inlet of the inflator is communicated with the exhaust port of the cylinder, so that the basic inflation function can be realized. The extraction opening of pump communicates with the induction port of cylinder, and the extraction opening can inhale gas under the acting of cylinder, aims at the article that need bleed the extraction opening and carries out the evacuation, plays the function of bleeding. The pump can realize aerifing and two kinds of functions of bleeding, not only can aerify common-purpose article such as car tire, bicycle tire and basketball, also can use the storage bag that need bleed, or the evacuation of bleeding is carried out to article such as inflatable tent, swimming life-buoy, effectively reduces the article volume, convenient storage.

Drawings

FIG. 1 is a schematic view of a portion of an inflator pump according to an embodiment of the present invention with an air inlet open;

FIG. 2 is a schematic view of a portion of the structure of an inflator pump according to an embodiment of the present invention with the intake port closed;

FIG. 3 is a schematic view of the internal structure of an inflator according to an embodiment of the present invention with the air inlet open;

FIG. 4 is a schematic view showing the internal structure of the inflator according to the embodiment of the present invention with the suction port opened;

FIG. 5 is an exploded view of a portion of the inflator in accordance with an embodiment of the present invention;

FIG. 6 is a schematic view showing the internal structure of a part of the structure of an inflator according to an embodiment of the present invention;

FIG. 7 is a schematic structural view of a cylinder base of an inflator according to an embodiment of the present invention;

FIG. 8 is an exploded view of an inflator in accordance with an embodiment of the present invention;

FIG. 9 is a schematic view of the air faucet of the inflator of an embodiment of the present invention when attached to the inflation port;

FIG. 10 is a schematic view of the air faucet of the inflator in accordance with the embodiment of the present invention;

FIG. 11 is a schematic view of the air faucet of the inflator according to an embodiment of the present invention, when the air faucet is connected to the inflation inlet.

Detailed Description

The present invention will be described in further detail with reference to the following drawings and specific examples, which should not be construed as limiting the invention.

Referring to fig. 1 to 11, according to an embodiment of the present invention, an inflator is provided, which includes a housing 10 and a cylinder 20, wherein an air pumping port 11 and an air charging port 12 are provided on the housing 10, and the air pumping port 11 can be used for pumping air to an object; the cylinder 20 is provided in the housing 10, the cylinder 20 having an intake port 21 and an exhaust port 22, the suction port 11 communicating with the intake port 21, the exhaust port 22 communicating with the charging port 12.

The inflation inlet of the inflator is communicated with the exhaust port of the cylinder, so that the basic inflation function can be realized. The extraction opening of pump communicates with the induction port of cylinder, and the extraction opening can inhale gas under the acting of cylinder, aims at the article that need bleed the extraction opening and carries out the evacuation, plays the function of bleeding. The pump can realize aerifing and two kinds of functions of bleeding, not only can aerify common-purpose article such as car tire, bicycle tire and basketball, also can use the storage bag that need bleed, or the evacuation of bleeding is carried out to article such as inflatable tent, swimming life-buoy, effectively reduces the article volume, convenient storage.

It should be noted that the air pumping port can provide air for the cylinder under the condition that air is not pumped, and the air can enter the cylinder through the air pumping port, that is to say, the air pumping port can be used as the air pumping port and can also provide air intake for the cylinder, and the air pump is multipurpose.

Preferably, the air suction opening 11 is provided with a thread or a snap, and the air suction opening 11 can be connected with the air nozzle 30. The structure arranged at the air exhaust opening is convenient for the air faucet to be connected, so that the air suction function can be realized by directly connecting the air faucet to the air exhaust opening, and the air suction device is simple, convenient and practical. In this embodiment, the air extraction opening is provided with an internal thread, and the specific shape is shown in fig. 1 and 3.

As shown in fig. 9 and 10, the inflator includes an air nozzle 30, the air nozzle 30 is detachably connected to the inflation inlet 12, and the air nozzle 30 can be detachably connected to the suction inlet 11. In this embodiment, the air charging port 12 and the air pumping port 11 are both provided with internal threads, the joint of the air faucet 30 is provided with matching external threads, and the air faucet can be installed on the air charging port 12 and the air pumping port 11 by screwing and can be detached according to specific requirements. The connection mode of air cock also can be the form of buckle, or magnetism is inhaled the mode and all can, and here does not do specific restriction, as long as can realize that the mode of installation dismantlement all can.

When the inflation function is needed, the air nozzle is screwed and installed on the inflation inlet 12, and the air suction opening 11 is opened, as shown in fig. 9. When the air suction function is needed, the air nozzle is screwed on the air suction opening 11, and the air inflation hole 12 is opened at the same time, see fig. 10.

Preferably, the housing 10 is provided with an intake port 13, and the intake port 13 communicates with an intake port 21 of the cylinder 20. On the premise of the air suction port 11, an air inlet 13 is additionally arranged, so that the advantage that the requirement of large air inflow required by inflation is met, and the air inlet 13 can enlarge the air inflow capable of being sucked by the air suction port of the cylinder.

Preferably, the intake port 13 is provided with an opening and closing mechanism for opening or closing the intake port 13. The opening and closing mechanism is used for matching an inflation function and an air extraction function, and when the inflation function is needed, the opening and closing mechanism opens the air inlet 13, so that the air inflow meets the requirement of the inflator pump. When the air extraction function is needed, the opening and closing mechanism closes the air inlet 13, so that the air suction port of the air cylinder can only extract air from the air extraction port, and the air extraction function of the air extraction port is realized.

As shown in fig. 8, the opening/closing mechanism includes a fixed door 41 and a movable door 42, the fixed door 41 is installed in the intake port 13, and the fixed door 41 has at least two first ventilation holes 41a arranged at intervals; a movable door 42, the movable door 42 is rotatably connected to the fixed door 41 through a rotating shaft, the movable door 42 has second vent holes 42a matching with the first vent holes 41a in shape, size and number; the movable door 42 has a first position where the second ventilation hole 42a is displaced from the first ventilation hole 41a and the first ventilation hole 41a is closed, the movable door 42 has a second position where the second ventilation hole 42a is communicated with the first ventilation hole 41a, and the movable door 42 is switched between the first position and the second position by being rotated.

The movable door changes the opening and closing of the air inlet 13 through rotation, and the movable door and the fixed door are matched together to realize the corresponding functions of the opening and closing mechanism. In this embodiment, the fixed door 41 and the movable door 42 are both of a fan-shaped door structure having a plurality of blades, and the blades of the fan-shaped door are overlapped or staggered with each other to achieve the effect of staggered communication of the vent holes. Of course, in other embodiments not shown in the drawings, the fixed plate and the movable door may have other shapes and through hole shapes, and the second ventilation holes 42a may be fan-shaped, circular holes, long waist holes, and are uniformly arranged in the circumferential direction of the fan-shaped door, and have the same shape as the first ventilation holes 41 a.

Preferably, the opening and closing mechanism further comprises a knob 43, the knob 43 is connected to the movable door 42 in a driving manner, and the knob 43 drives the movable door 42 to rotate through rotation; the knob 43 is provided with a third vent hole 43a, and the third vent hole 43a is communicated with the second vent hole 42a, see fig. 8 and 9 specifically. The shape of the third vent hole can be selectively changed and arranged in an array mode, and a gas passing gap is formed between the knob and the movable door. The user can operate the knob to rotate the movable door, and the operation is simple and fast.

When the inflation function is required, the knob is in the default position, the third ventilation hole 43a is communicated with the second ventilation hole 42a, the second ventilation hole 42a is communicated with the first ventilation hole 41a, and the air inlet is in an open communication state, see fig. 9. When the air suction function is needed, the knob is rotated for a certain angle to drive the movable door, so that the movable door is switched to the first position, and the air inlet is closed, as shown in fig. 10. In this embodiment, the knob 43 rotates 90 °, although the rotation angle of the knob may also be 15 °, 30 ° or 60 °, which is not limited specifically, and is set according to the number and arrangement of the first ventilation holes 41a and the second ventilation holes 42 a.

As shown in fig. 3 to 6, a negative pressure region 50 is formed inside the casing 10, the negative pressure region 50 communicates with the suction port 21 of the cylinder 20, and both the intake port 13 and the suction port 11 communicate with the negative pressure region 50. The negative pressure region 50 is a partial region of the internal space, which is under negative pressure when the cylinder 20 applies work, and may be a regular space or a space adjacent to other components, and the specific shape is completely determined by the internal structure of the inflator, and any region of the internal space that communicates with the intake port 21 and communicates with the intake port and the exhaust port may be called a negative pressure region. No matter the air entering from the air inlet and/or the air extraction opening enters the negative pressure area firstly and then enters the cylinder, the negative pressure area has the function of forming a semi-closed sound insulation chamber at the negative pressure area, and the noise generated when the cylinder works is effectively reduced.

In the present embodiment, the cylinder 20 includes a cylinder base 23, a negative pressure region 50 is enclosed between the cylinder base 23 and the housing 10, and the cylinder base 23 is provided with an air suction port 21. With reference to the structures shown in fig. 5 to 7, the cylinder base 23 is provided with a piston, a connecting rod, a gear, etc. of the cylinder, which belong to the basic components of the cylinder, and since the shape of the cylinder base has many forms, the present invention is an embodiment as long as a negative pressure region communicated with the air suction port is defined between the cylinder base and the housing.

Preferably, the cylinder base 23 is provided with a limiting rib 231 and a limiting groove 232, and the housing 10 is provided with a limiting boss 14; the limiting boss 14 is clamped in the limiting groove 232; the cylinder base 23, the limiting rib 231, the limiting groove 232, the limiting boss 14 and the shell are matched to form the negative pressure area 50. The clamping fit between the limiting boss 14 and the limiting groove 232 can not only form the sealing of the negative pressure area, but also form the guiding and fixing functions.

The cylinder base 23 is provided with a limiting groove 232, and the shell is provided with a limiting boss 14; the limit boss 14 is clamped in the limit groove 232. The snap fit between the stop boss 14 and the stop groove 232 allows the housing to be guided and secured during installation.

In alternative embodiments other than the present embodiment, one of the cylinder base 23 or the housing 10 is provided with a groove, for example, the cylinder base 23 is provided with a groove, and the housing 10 is provided with a fitting structure for fitting with the groove; or the housing 10 is provided with a groove, and the cylinder base 23 is fitted with the groove to form a fitting structure, whereby the cylinder base 23, the groove, the limit groove 232, the limit projection 14 and the housing 10 are fitted to form the negative pressure region 50. More preferably, the inflator further includes a sealing member (not shown) installed in the groove, and the cylinder base 23, the groove, the sealing member, the stopper groove 232, the stopper boss 14 and the housing 10 cooperate to form the negative pressure region 50. The cylinder 20 comprises a transmission assembly 24 connected with the motor and a piston rod 25 for doing work, the transmission assembly 24 is in driving connection with the piston rod 25, and both the transmission assembly 24 and the piston rod 25 are arranged in the negative pressure region. Therefore, air cannot leak from the positions of the transmission assembly and the piston rod, and the air tightness is better.

To further simplify the operation, the air inlet 13 is provided adjacent to the air suction port 11, and the diameter of the air inlet 13 is larger than that of the air suction port 11. The air inlet 13 and the air pumping opening 11 are arranged adjacently, so that a user can conveniently find the air pumping opening, and the air inlet is rotated on one side, so that the air pumping device is convenient and quick; but also has more delicate and beautiful appearance. In addition, the diameter of the air inlet 13 is larger, so that the air inlet amount of inflation can be met; the diameter of the air pumping hole is relatively small, so that the negative pressure value of the air pumping hole is increased under the condition that the work of the air cylinder is constant, and the air pumping is faster.

It is noted that the terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of example embodiments according to the present application. As used herein, the singular forms "a", "an", and "the" are intended to include the plural forms as well, and it should be understood that when the terms "comprises" and/or "comprising" are used in this specification, they specify the presence of stated features, steps, operations, devices, components, and/or combinations thereof, unless the context clearly indicates otherwise.

It should be noted that the terms "first," "second," and the like in the description and claims of this application and in the drawings described above are used for distinguishing between similar elements and not necessarily for describing a particular sequential or chronological order. It is to be understood that the data so used is interchangeable under appropriate circumstances such that the embodiments of the application described herein are capable of operation in other sequences than those illustrated or described herein.

Of course, the above is a preferred embodiment of the present invention. It should be noted that, for those skilled in the art, without departing from the basic principle of the present invention, several modifications and decorations can be made, and these modifications and decorations are also regarded as the protection scope of the present invention.

Claims (14)

1. An inflator, comprising:

the air pump comprises a shell (10), wherein an air suction port (11) and an air inflation port (12) are arranged on the shell (10);

the air cylinder (20), the air cylinder (20) is arranged in the shell (10), the air cylinder (20) is provided with an air suction port (21) and an air exhaust port (22), the air suction port (11) is communicated with the air suction port (21), and the air exhaust port (22) is communicated with the inflation port (12).

2. The inflator of claim 1,

the air pumping hole (11) is provided with threads or a buckle, and the air pumping hole (11) can be connected with an air nozzle (30).

3. The inflator of claim 1,

the inflator pump comprises an air nozzle (30), the air nozzle (30) is detachably connected to the inflation inlet (12), and the air nozzle (30) can be detachably connected to the suction opening (11).

4. The inflator of claim 1,

an air inlet (13) is formed in the shell (10), and the air inlet (13) is communicated with an air suction port (21) of the air cylinder (20).

5. Inflator according to claim 4, characterized in that the air inlet (13) is provided with an opening and closing mechanism for opening or closing the air inlet (13).

6. The inflator of claim 5, wherein the opening and closing mechanism comprises:

a fixed door (41), wherein the fixed door (41) is installed in the air inlet (13), and the fixed door (41) is provided with first vent holes (41 a) arranged at intervals;

the movable door (42) is rotatably connected to the fixed door (41) through a rotating shaft, and the movable door (42) is provided with a second ventilation hole (42 a);

the movable door (42) has a first position where the second vent hole (42 a) is displaced from the first vent hole (41 a) and the first vent hole (41 a) is closed, the movable door (42) has a second position where the second vent hole (42 a) communicates with the first vent hole (41 a), and the movable door (42) is switched between the first position and the second position by rotation.

7. The inflator of claim 6, wherein the opening and closing mechanism further comprises:

the knob (43), the knob (43) is connected to the movable door (42) in a driving manner, and the knob (43) drives the movable door (42) to rotate through rotation; the knob (43) is provided with a third vent hole (43 a), and the third vent hole (43 a) is communicated with the second vent hole (42 a).

8. The inflator according to claim 6, wherein the fixed door (41) and the movable door (42) are each a fan-shaped door structure having a plurality of fan blades.

9. The inflator according to claim 4, wherein a negative pressure region (50) is formed inside the housing (10), the negative pressure region (50) communicates with the suction port (21) of the cylinder (20), and the intake port (13) and the suction port (11) both communicate with the negative pressure region (50).

10. The inflator according to claim 9, wherein the cylinder (20) includes a cylinder base (23), the cylinder base (23) and the housing (10) enclose the negative pressure region (50), and a suction port (21) is provided on the cylinder base (23).

11. The inflator of claim 10,

the cylinder base (23) is provided with a limiting rib (231) and a limiting groove (232), and the shell is provided with a limiting boss (14);

the limiting boss (14) is clamped in the limiting groove (232); the cylinder base (23), the limiting rib (231), the limiting groove (232), the limiting boss (14) and the shell are matched to form the negative pressure area (50).

12. The inflator of claim 10,

a limiting groove (232) is formed in the cylinder base (23), and a limiting boss (14) is arranged on the shell;

the limiting lug boss (14) is clamped in the limiting groove (232).

13. The inflator of claim 9,

the air cylinder (20) comprises a transmission assembly (24) connected with the motor and a piston rod (25) doing work, the transmission assembly (24) is in driving connection with the piston rod (25), and the transmission assembly (24) and the piston rod (25) are arranged in the negative pressure area (50).

14. Inflator according to claim 4, wherein the air inlet (13) is arranged adjacent to the air suction opening (11), the diameter of the air inlet (13) being greater than the diameter of the air suction opening (11).

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