CN221074669U - Inflation and deflation pump, inflatable tent with same and inflatable article - Google Patents

Abstract

The utility model discloses an inflation and deflation pump, an inflation tent with the inflation pump and an inflation product, and relates to the technical field of inflation products, comprising a shell, a inflation pump and a detachable inflation pump, wherein the deflation pump and the detachable inflation pump are arranged in the shell; the front end of the shell is provided with an inflation inlet, the rear end of the shell is provided with an air inlet, and the inflation inlet and the air inlet are respectively communicated with the inflator pump; the side end of the shell is provided with an air outlet, the rear end of the shell is provided with an air discharge port, and the air discharge pump is arranged between the air outlet and the air discharge port; an inflator pump groove and a deflation pump groove are arranged in the shell at intervals; the inflator has a rechargeable battery that provides operating power to the inflator and the inflator provides shared power to the deflate pump through the battery. When the inflator pump is separated from the shell, the inflator pump can be independently used to directly inflate the inflatable articles; when the air pump is arranged in the shell, the air pump provides a shared power supply for the air pump when the air pump has the air charging function of the air pump, so that the air pump has the air charging accelerating capability.

Description

Inflation and deflation pump, inflatable tent with same and inflatable article

Technical Field

The utility model relates to the technical field of inflatable articles, in particular to an inflation and deflation pump, an inflatable tent with the inflation and deflation pump and the inflatable articles.

Background

With the rise of outdoor economy, inflatable articles such as vehicle-mounted inflatable beds, leisure inflatable mats, inflatable tents and the like are popular because of convenient storage, quick use and light weight. Currently, air pumps for inflatable articles generally use conventional motors, and the pressure requirements for full inflation are different due to the different sizes of the inflatable articles. For example, the vehicle-mounted inflatable bed and the leisure inflatable cushion generally require that the power of the motor of the inflator pump is within 50W and the pressure is 1Psi-2Psi so as to be easily filled. If used in an inflatable tent, the full inflation pressure is required to be further greatly improved. Furthermore, the existing inflation and deflation pumps are combined in the same shell, and the inflation pump serving as a conventional accessory cannot be independently used.

Disclosure of utility model

The utility model aims to avoid the defects of the prior art and provides an inflatable pump, an inflatable tent with the same and an inflatable article. The inflator pump is provided with the rechargeable battery for providing a working power supply for the inflator pump, and when the inflator pump is separated from the shell, the inflator pump can be independently used for directly inflating the inflatable articles; when the air pump is arranged in the shell, the air pump provides a shared power supply for the air pump while the air pump has the air charging function, so that the air pump has the air charging accelerating capability, and the air pump does not need to be independently provided with a power supply.

The above object of the present utility model is achieved by the following technical means:

An inflation and deflation pump comprises a shell 1, a deflation pump 3 and a detachable inflation pump 2, wherein the deflation pump 3 and the detachable inflation pump 2 are arranged in the shell 1;

The front end of the shell 1 is provided with an inflation inlet 14, the rear end of the shell is provided with an air inlet 22, the inflation inlet 14 and the air inlet 22 are respectively communicated with the inflator pump 2, and the inflation inlet 14 is provided with a one-way air valve 15;

The side end of the shell 1 is provided with an air outlet 31, the rear end is provided with an air discharge port 32, the air outlet 31 is provided with a valve, and the air discharge pump 3 is arranged between the air outlet 31 and the air discharge port 32;

An inflator pump groove 11 and a deflate pump groove 12 are arranged in the shell 1 at intervals;

The inflator 2 has a rechargeable battery 23, the battery 23 providing operating power to the inflator 2, the inflator 2 providing shared power to the deflate pump 3 via the battery 23.

Further, the inflator pump 2 is provided with a pump housing 27, the inflator pump 2 comprises a pump body, and the pump body comprises from top to bottom: at least one or more intake air duct chambers 24, an air-charging impeller 25, and an air-charging motor 26, wherein the air-charging motor 26 is electrically connected with the battery 23;

The pump shell 27 is provided with an air charging nozzle 21 matched with the air charging opening 14 and an air inlet net 276 matched with the air inlet 22 at the rear end of the shell 1;

The inflator 2 and its pump housing 27 are detachably disposed in the inflator housing 11 independently of the housing 1.

Further, the pump housing 27 of the inflator 2 and the housing 1 are provided with a locking structure which is mutually associated, and the inflator 2 is detachably locked in the housing 1 through the locking structure.

Preferably, the pump housing 27 is provided with a handle 271, a charging interface 272 and an inflation switch 273, the charging interface 272 is electrically connected with the battery 23, and the inflation switch 273 is electrically connected between the battery 23 and the inflation motor 26.

Preferably, the charging motor 26 includes at least one of a brushless motor or a DC motor.

Preferably, a pump body cabin 274 for placing the pump body and a battery cabin 275 for placing the battery are arranged in the pump shell 27.

Further, the air release pump 3 comprises an air release motor 33, an air release impeller 34 and more than one air release air channel chamber 35 from left to right;

The inflating and deflating pump further comprises a valve, wherein the valve is an electromagnetic valve 36, and the electromagnetic valve 36 is connected with the air outlet 31 to control the opening and closing of the air outlet 31;

a solenoid valve groove 13 for communicating gas is also arranged in the shell 1 at intervals;

The air release pump 3 is arranged in the air release pump groove 12, the electromagnetic valve 36 is arranged in the electromagnetic valve groove 13, and the air release motor 33 and the electromagnetic valve 36 are electrically connected with the battery 23.

Further, a gas release switch 37 is disposed on the housing 1, and the gas release switch 37 is electrically connected between the gas release motor 33 and the battery 23, and between the electromagnetic valve 36 and the battery 23.

The utility model also discloses an inflatable tent with the inflation and deflation pump, which is provided with an air beam, and is characterized in that the air beam is in sealing connection with the inflation and deflation pump, an inflation port 14 at the front end of the shell 1 and an air outlet 31 at the side end are respectively communicated with the air beam, and an air inlet 22 and an air outlet 32 at the rear end of the shell 1 are exposed out of the inflatable tent.

The utility model also discloses a rapid inflatable article, which comprises an air bag or an air beam, and at least comprises one of an inflatable mattress, an inflatable sofa, an inflatable swimming pool and an inflatable tent, wherein the inflatable and deflatable pump is detachably connected with the inflatable article in a butt joint mode;

The inflator pump 2 is detachably provided with an inflation nozzle 21, the air bag or the air beam is provided with an air inlet nozzle, and the air inlet nozzle is detachably connected with the inflation nozzle 21 in a butt joint mode.

The beneficial effects produced by adopting the technical scheme are that:

1) The inflator pump is provided with the rechargeable battery for providing a working power supply for the inflator pump, and when the inflator pump is separated from the shell, the inflator pump can be independently used for directly inflating the inflatable articles; when the air pump is arranged in the shell, the air pump provides a shared power supply for the air pump while the air pump has the air charging function, so that the air pump has the air charging accelerating capability, and the air pump does not need to be independently provided with a power supply (battery).

2) When the intelligent control device is specifically used, the inflation switch and/or the deflation switch can be set to be Bluetooth switches according to intelligent control requirements, and the Bluetooth switches are controlled to be turned on or off through mobile phone APP or APP software of the vehicular central control screen.

3) The inflatable motor adopts a brushless motor, is suitable for inflating the inflatable tent with severe inflation pressure, and can rapidly inflate the inflatable tent.

4) If the inflatable mattress is used for inflating an inflatable mattress, an inflatable sofa, an inflatable swimming pool and the like, the inflatable motor can be fully inflated by adopting a miniature direct current motor.

5) In order to accelerate the air release efficiency, the air release pump is started simultaneously when the electromagnetic valve is started, the air release motor drives the air release impeller to rotate, and air flowing in from the air outlet is further sucked into the air release channel to accelerate the air flow to be discharged from the air release port.

6) When the inflation and deflation pump starts the inflation pump to rapidly inflate the inflatable tent, if the pressure of the inflation pump and the inflatable tent reaches an equilibrium point, the inflatable tent is fully inflated, at the moment, the operation of the inflation pump can be stopped, and the air flow of the inflatable tent cannot flow back due to the unidirectional air valve so as to stop the air leakage of the inflatable tent. When the inflation and deflation pump starts the deflation pump to deflate the inflatable tent rapidly, air flow in the inflatable tent is discharged from the deflation port through the air outlet, the valve and the deflation pump groove, and in the process of discharging the air, the air is discharged from the deflation port rapidly under the holding of the deflation pump; when the deflation pump stops working, the valve is in a closed state, and the backflow of the gas of the inflatable tent is blocked. When the inflatable tent is used for outdoor activities, if the inflatable tent is required to be inflated by other inflatable articles such as an inflatable mattress, the inflator pump in the inflatable tent can be pumped out, and the inflator pump directly and independently inflates the other inflatable articles without being additionally provided with other inflator pumps.

Drawings

FIG. 1 is an exploded schematic view of an embodiment of a charge-discharge pump;

FIG. 2 is a schematic illustration of an inflator in accordance with an embodiment;

FIG. 3 is a schematic view of a deflation pump according to an embodiment;

fig. 4-5 are schematic diagrams of the structure of the air charging and discharging pump according to the embodiment.

Wherein the housing 1; an inflator tank 11; a discharge pump tank 12; a solenoid valve spool 13; an inflation inlet 14; a one-way air valve 15;

An inflator pump 2; an inflation nozzle 21; an air inlet 22; a battery 23; an intake duct chamber 24; an air impeller 25; an air-charging motor 26; a pump housing 27; a handle 271; charging interface 272; an inflation switch 273; a pump body compartment 274; a battery compartment 275; an air intake network 276; an inflation interface 28;

A discharge pump 3; an air outlet 31; a bleed port 32; a deflation motor 33; a gas release impeller 34; a bleed air duct chamber 35; a solenoid valve 36; a gas release switch 37.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and fully with reference to the accompanying drawings, in which it is evident that the embodiments described are only some, but not all embodiments of the utility model.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present utility model, but the present utility model may be practiced in other ways other than those described herein, and persons skilled in the art will readily appreciate that the present utility model is not limited to the specific embodiments disclosed below.

Embodiment 1. An inflation and deflation pump is shown in fig. 1, 4 and 5, comprising a housing 1, a deflation pump 3 and a detachable inflation pump 2 arranged in the housing 1;

The front end of the shell 1 is provided with an inflation inlet 14, the rear end of the shell is provided with an air inlet 22, the inflation inlet 14 and the air inlet 22 are respectively communicated with the inflator pump 2, and the inflation inlet 14 is provided with a one-way air valve 15;

The side end of the shell 1 is provided with an air outlet 31, the rear end is provided with an air discharge port 32, the air outlet 31 is provided with a valve, and the air discharge pump 3 is arranged between the air outlet 31 and the air discharge port 32;

An inflator pump groove 11 and a deflate pump groove 12 are arranged in the shell 1 at intervals;

The inflator 2 has a rechargeable battery 23, the battery 23 providing operating power to the inflator 2, the inflator 2 providing shared power to the deflate pump 3 via the battery 23.

The inflator pump is provided with the rechargeable battery for providing a working power supply for the inflator pump, and when the inflator pump is separated from the shell, the inflator pump can be independently used for directly inflating the inflatable articles; when the air pump is arranged in the shell, the air pump provides a shared power supply for the air pump while the air pump has the air charging function, so that the air pump has the air charging accelerating capability, and the air pump does not need to be independently provided with a power supply (battery).

When the inflation and deflation pump inflates the inflatable article, air flow enters the inflatable article through the one-way air valve, and when the inflation is stopped, the air flow in the inflatable article does not flow back to the one-way air valve, so that the air is prevented from flowing back.

Embodiment 2. This embodiment is based on embodiment 1, as shown in fig. 2, the inflator 2 is provided with a pump housing 27, the inflator 2 includes a pump body, and the pump body includes from top to bottom: at least one or more intake air duct chambers 24, an air-charging impeller 25, and an air-charging motor 26, wherein the air-charging motor 26 is electrically connected with the battery 23;

The pump shell 27 is provided with an air charging nozzle 21 matched with the air charging opening 14 and an air inlet net 276 matched with the air inlet 22 at the rear end of the shell 1;

According to the utility model, the inflator pump and the pump shell thereof are independent of the shell and are detachably arranged in the inflator pump groove, and when the inflator pump is separated from the shell, the inflator pump can be independently used for directly inflating the inflatable articles; when the inflator pump is arranged in the inflator pump groove, the inflator pump endows the inflating function of the inflating and deflating pump.

The air inlet 22 at the rear end of the shell 1, the air inlet net 276 of the pump shell 27, the air inlet channel chamber 24, the air charging motor 26 and the gaps between the pump shell 27 together form an air charging channel, the air charging motor 26 drives the air charging impeller 25 to rotate, external air is sucked into the air charging channel, and air flow is output from the air charging port 14 at the front end of the shell 1 through the gaps between the air charging motor 26 and the pump shell 27.

Embodiment 3. This embodiment is based on embodiment 2, the pump housing 27 of the inflator 2 and the housing 1 are provided with a locking structure (not shown) that is mutually associated, and the inflator 2 is detachably locked in the housing 1 by the locking structure.

One of the clamping structures is as follows: the rear end of the shell is provided with more than two rotatable spring plates at the air inlet side, the rear end of the pump shell is provided with more than two clamping grooves, when the inflator pump is arranged on the shell, the spring plates are rotated to the clamping grooves at the rear end of the pump shell, and the spring plates are clamped in the clamping grooves due to elasticity. The rotary spring leaves the clamping groove, and the inflator pump can be detached from the inflation and deflation pump.

Another clamping structure: more than two lock bolts are arranged on the air inlet side of the rear end of the shell, more than two lock grooves are arranged on the rear side of the pump shell, and when the inflator pump is arranged on the shell, the lock bolts are pushed to the lock grooves on the rear side of the pump shell to be clamped. The lock tongue is pulled to leave the lock groove, so that the inflator pump can be detached from the inflation and deflation pump.

Embodiment 4. This embodiment is based on embodiment 2, as shown in fig. 4, a handle 271, a charging interface 272, and an inflation switch 273 are provided on the pump housing 27, the charging interface 272 is electrically connected to the battery 23, and the inflation switch 273 is electrically connected between the battery 23 and the inflation motor 26.

When the intelligent control device is specifically used, the inflation switch 273 can be set to be a Bluetooth switch according to intelligent control requirements, and the Bluetooth switch is controlled to be turned on or off through APP software of a mobile phone APP or an automobile central control screen.

Embodiment 5. This embodiment is based on embodiment 2, and as shown in fig. 2, the air-charging motor 26 includes at least one of a brushless motor or a dc motor.

If used for inflating a tent, the inflation motor 26 is preferably a brushless motor with a power of preferably 150W, so that the pressure of the inflation pump can reach 4.5Psi, and the inflation motor is particularly suitable for inflating a tent with severe inflation pressure, and can be used for rapidly inflating the tent.

If used for inflating inflatable mattresses, inflatable sofas, inflatable swimming pools and the like, the inflation motor 26 is preferably a miniature direct current motor, and the power of the inflation motor is preferably below 50W, so that the pressure of the inflation pump can reach 1Psi-2 Psi.

Embodiment 6. This embodiment is based on embodiment 2, as shown in fig. 1-2, a pump housing 274 for housing the pump and a battery housing 275 for housing the battery are provided in the pump housing 27.

Embodiment 7. This embodiment is based on embodiment 1, as shown in fig. 1, 3 and 4, the air release pump 3 includes, from left to right, an air release motor 33, an air release impeller 34, and one or more air release air channel chambers 35;

The inflating and deflating pump further comprises a valve, wherein the valve is an electromagnetic valve 36, and the electromagnetic valve 36 is connected with the air outlet 31 to control the opening and closing of the air outlet 31;

a solenoid valve groove 13 for communicating gas is also arranged in the shell 1 at intervals;

The air release pump 3 is arranged in the air release pump groove 12, the electromagnetic valve 36 is arranged in the electromagnetic valve groove 13, and the air release motor 33 and the electromagnetic valve 36 are electrically connected with the battery 23.

The air outlet 31 at the side end of the shell 1, the electromagnetic valve 13, the air discharge pump 12 and the air discharge port 32 at the rear end of the shell 1 form an air discharge channel together, the electromagnetic valve 36 is opened, and air flow is discharged from the air outlet 31 through the air discharge channel and the air discharge port 32. In order to accelerate the air release efficiency, the air release pump 3 is started at the same time when the electromagnetic valve 36 is started, the air release motor 33 drives the air release impeller 34 to rotate, and the air flowing in from the air outlet 31 is further sucked into the air release channel to accelerate the air flow to be discharged from the air release opening 32. In addition, the air release duct chamber 35 is adjacent to the air outlet 31, and the air release efficiency is better.

Embodiment 8. This embodiment is based on embodiment 7, as shown in fig. 1 and 4, a gas release switch 37 is provided on the housing 1, and the gas release switch 37 is electrically connected between the gas release motor 33 and the battery 23, and between the solenoid valve 36 and the battery 23.

In this embodiment, the air release switch 37 simultaneously controls the air release motor 33 and the electromagnetic valve 36, and the air is rapidly released by means of the air release pump.

Of course, the air release switch 37 can be configured as a three-stage switch, for example, the air release switch is pressed to start the electromagnetic valve for the first time to release air freely, the air release pump is pressed to start the air release pump for the second time, and the electromagnetic valve and the air release pump are pressed to disconnect the battery for the third time.

When the intelligent control device is specifically used, the deflation switch 37 can be set to be a Bluetooth switch according to intelligent control requirements, and the on-off of the Bluetooth switch is controlled through mobile phone APP or APP software of the vehicular central control screen.

Embodiment 9. An inflatable tent with an inflation and deflation pump, wherein the inflatable tent is provided with an air beam (not shown in the figure, the air beam refers to a tent main framework after inflation molding), the air beam is in sealing connection with the inflation and deflation pump in any of embodiments 1-8, an inflation port 14 at the front end of the shell 1 and an air outlet 31 at the side end are respectively communicated with the air beam, and an air inlet 22 and an air outlet 32 at the rear end of the shell 1 are exposed to the inflatable tent.

When the inflation and deflation pump starts the inflation pump to rapidly inflate the inflatable tent, if the pressure of the inflation pump and the inflatable tent reaches the balance point, the inflatable tent is fully inflated, at the moment, the operation of the inflation pump can be stopped, and the air flow of the inflatable tent cannot flow back due to the one-way air valve so as to stop the air leakage of the inflatable tent.

When the inflation and deflation pump starts the deflation pump to deflate the inflatable tent rapidly, air flow in the inflatable tent is discharged from the deflation port through the air outlet, the valve and the deflation pump groove, and in the process of discharging the air, the air is discharged from the deflation port rapidly under the holding of the deflation pump; when the deflation pump stops working, the valve is in a closed state, and the backflow of the gas of the inflatable tent is blocked.

When the inflatable tent is used for outdoor activities, if the inflatable tent is required to be inflated by other inflatable articles such as an inflatable mattress, the inflator pump in the inflatable tent can be pumped out, and the inflator pump directly and independently inflates the other inflatable articles without being additionally provided with other inflator pumps.

Embodiment 10. A rapid inflatable article comprising an airbag or beam, said inflatable article comprising at least one of an inflatable mattress, an inflatable sofa, an inflatable pool, and an inflatable tent, said inflatable pump of any of embodiments 1-8 detachably interfacing with said inflatable article (not shown);

The inflator pump 2 is detachably provided with an inflation nozzle 21, the air bag or the air beam is provided with an air inlet nozzle, and the air inlet nozzle is detachably connected with the inflation nozzle 21 in a butt joint mode.

The inflatable article and the inflation and deflation pump are mutually independent to form a complete set of products, and the following are used for example:

Inflating an inflatable article having only one air inlet nozzle: the inflator pump is connected with the inflating nozzle and then is connected with the air inlet nozzle in a butt joint way, and the inflator pump is started to inflate the inflatable articles.

Quick deflation of inflatable articles having only one air inlet nozzle: in general, an air inlet nozzle is internally provided with a rubber valve, when the air is discharged, the rubber valve is pinched by hands to discharge air, and an air discharge pump is connected with an air charging nozzle (at the moment, the air charging nozzle is used as an excessive medium for discharging air) and then is in butt joint with the air inlet nozzle, so that the air discharge of the air-filled article is accelerated under the holding of an air discharge pump.

Inflating an inflatable product having an air inlet nozzle and an air outlet nozzle: the inflator pump is connected with the inflating nozzle and then is connected with the air inlet nozzle in a butt joint way, and the inflator pump is started to inflate the inflatable articles.

Deflating an inflatable product having an air inlet nozzle and an air outlet nozzle: the air discharging pump is connected with the air charging nozzle (at this time, the air charging nozzle is used as an excessive air discharging medium) and then is connected with the air discharging nozzle in a butt joint mode, and the air discharging of the inflatable articles is quickened under the holding of the air discharging pump.

All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Claims (10)

1. An inflation and deflation pump comprises a shell (1) and is characterized by comprising a deflation pump (3) and a detachable inflation pump (2) which are arranged in the shell (1);

the front end of the shell (1) is provided with an inflation inlet (14), the rear end of the shell is provided with an air inlet (22), the inflation inlet (14) and the air inlet (22) are respectively communicated with the inflator pump (2), and the inflation inlet is provided with a one-way air valve (15);

The side end of the shell (1) is provided with an air outlet (31), the rear end of the shell is provided with an air discharge port (32), the air outlet (31) is provided with a valve, and the air discharge pump (3) is arranged between the air outlet (31) and the air discharge port (32);

An inflator pump groove (11) and a deflation pump groove (12) are arranged in the shell (1) at intervals;

The inflator (2) has a rechargeable battery (23), the battery (23) providing operating power to the inflator (2), the inflator (2) providing shared power to the deflate pump (3) via the battery (23).

2. Inflation and deflation pump according to claim 1, wherein the inflation pump (2) is provided with a pump housing (27), the inflation pump (2) comprising a pump body comprising from top to bottom: at least one air inlet duct chamber (24), an air charging impeller (25) and an air charging motor (26), wherein the air charging motor (26) is electrically connected with the battery (23);

The pump shell (27) is provided with an inflating nozzle (21) matched with the inflating opening (14) and an air inlet net (276) matched with an air inlet (22) at the rear end of the shell (1);

the inflator pump (2) and the pump shell (27) thereof are independently arranged in the inflator pump groove (11) and are detachably arranged in the inflator pump groove (11).

3. The inflation and deflation pump according to claim 2, wherein the pump housing (27) of the inflation pump (2) and the housing (1) are provided with a clamping structure which is mutually associated, and the inflation pump (2) is detachably clamped in the housing (1) through the clamping structure.

4. The inflation and deflation pump according to claim 2, wherein a handle (271), a charging interface (272) and an inflation switch (273) are provided on the pump housing (27), the charging interface (272) is electrically connected with the battery (23), and the inflation switch (273) is electrically connected between the battery (23) and the inflation motor (26).

5. The inflation and deflation pump of claim 2, wherein the inflation motor (26) comprises at least one of a brushless motor or a dc motor.

6. The inflation and deflation pump according to claim 2, wherein a pump body compartment (274) for placing the pump body and a battery compartment (275) for placing the battery are provided in the pump housing (27).

7. The inflation and deflation pump according to claim 1, wherein the deflation pump (3) comprises, from left to right, a deflation motor (33), a deflation impeller (34) and one or more deflation air channel chambers (35);

The inflating and deflating pump further comprises a valve, wherein the valve is an electromagnetic valve (36), and the electromagnetic valve (36) is connected with the air outlet (31) to control the opening and closing of the air outlet (31);

A solenoid valve groove (13) for communicating gas is arranged in the shell (1) at intervals;

The air release pump (3) is arranged in the air release pump groove (12), the electromagnetic valve (36) is arranged in the electromagnetic valve groove (13), and the air release motor (33) and the electromagnetic valve (36) are electrically connected with the battery (23).

8. Inflation and deflation pump according to claim 7, wherein the housing (1) is provided with a deflation switch (37), and wherein the deflation switch (37) is electrically connected between the deflation motor (33) and the battery (23), and between the solenoid valve (36) and the battery (23).

9. An inflatable tent with an inflation and deflation pump, the inflatable tent is provided with an air beam, the inflatable tent is characterized in that the air beam is in sealing connection with the inflation and deflation pump according to any one of claims 1-8, an inflation port (14) at the front end of the shell (1) and an air outlet (31) at the side end are respectively communicated with the air beam, and an air inlet (22) and an air outlet (32) at the rear end of the shell (1) are exposed to the inflatable tent.

10. A rapid inflatable article comprising an airbag or beam, said inflatable article comprising at least one of an inflatable mattress, an inflatable sofa, an inflatable pool, and an inflatable tent, wherein the inflation and deflation pump of any of claims 1-8 detachably interfaces said inflatable article.