CN115675730A

CN115675730A - Multi-air-chamber inflatable boat and inflation and deflation method thereof

Info

Publication number: CN115675730A
Application number: CN202211468860.9A
Authority: CN
Inventors: 董春阳; 田庆亮
Original assignee: Shandong Wesitters Aviation Technology Co ltd
Current assignee: Shandong Wesitters Aviation Technology Co ltd
Priority date: 2022-11-22
Filing date: 2022-11-22
Publication date: 2023-02-03
Also published as: WO2024108792A1

Abstract

The invention discloses a multi-air-chamber inflatable boat and an inflation and deflation method thereof, and belongs to the technical field of inflatable boats. Including aerifing the hull, aerify the hull internal through the baffle separation for the several air chamber, connect through breather between two adjacent air chambers, be provided with on one of them air chamber and take out and aerify the mechanism, breather includes pipeline and valve, communicates with each other through pipeline inside between two adjacent air chambers, is connected with the valve on the pipeline, the valve includes valve body and knob, the valve body is located the air chamber, the knob is located outside the inflatable hull, take out and aerify the mechanism and include the casing, be provided with the gas filled air flue and the air exhaust flue that run through the casing on the casing, all be provided with motor element in gas filled air flue and the air exhaust flue, the motor element opposite direction who fills gas flue and air exhaust flue is provided with on the casing and aerifys interface and air exhaust interface, aerify interface and air exhaust interface respectively with gas flue and air exhaust air flue inside communicate with each other, detachable connection has the trachea on the air exhaust interface.

Description

Multi-air-chamber inflatable boat and inflation and deflation method thereof

Technical Field

The invention relates to the technical field of inflatable boats, in particular to a multi-air-chamber inflatable boat and an inflation and deflation method thereof.

Background

An inflatable boat is an inflatable boat, which is also called a rubber boat because most of the inflatable boats are made of rubber. The uninflated gas may be compressed. Driven by a motor or manpower. In order to improve the safety of the inflatable boat in navigation, to improve the reliability of the inflatable boat and to prevent the sudden destruction of the air chamber and to prevent the gas from leaking all together, it is common to divide the air chamber into several sealed compartments of similar volume by means of elastic partitions, each of which is provided with an inflation device. For example, in the ship and the method for forming the V-shaped inflatable bottom, the head inflatable chamber, the side inflatable chamber and the keel are all provided with inflation valves, and the whole hull of the inflatable ship is inflated by respectively inflating the inflatable bottom, the head inflatable chamber and the side inflatable chamber through the inflation valves; the existing inflating device built in the inflatable boat can only inflate the inflatable boat body and cannot inflate other inflatable products. Therefore, it is necessary to provide a multi-chamber inflatable boat and an inflation and deflation method thereof.

Disclosure of Invention

The invention aims to provide a multi-air-chamber inflatable boat and an inflation and deflation method thereof, which aim to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides a many air chambers inflatable boat and inflation and deflation method thereof, includes inflatable boat body, and the internal baffle that passes through of inflatable boat separates for the several air chamber, connects through ventilation unit between two adjacent air chambers, be provided with one at least on the inflatable boat body and take out the inflation mechanism, every takes out the inflation mechanism and installs on the air chamber of difference, ventilation unit includes pipeline and valve, communicates with each other through pipeline inside between two adjacent air chambers, is connected with the valve on the pipeline, the valve includes valve body and knob, the valve body is located the air chamber, the knob is located inflatable boat body, take out the inflation mechanism and include the casing, be provided with the inflation air flue and the air exhaust air flue that run through the casing on the casing, all be provided with motor element in inflation air flue and the air exhaust air flue, the motor element opposite direction of inflation air flue and air exhaust air flue is provided with on the casing and aerifys interface and air exhaust interface, aerifys interface and air exhaust interface respectively with aerify air flue and air exhaust air flue inside communicating with, detachable connection has the trachea on the air exhaust interface.

As a further scheme of the invention: the inflation connector and the air exhaust connector are detachably connected with sealing covers.

As a further scheme of the invention: the shell is provided with an inflation electrifying interface and an air exhaust electrifying interface, and the inflation electrifying interface and the air exhaust electrifying interface are respectively and electrically connected with the motor assemblies in the inflation air passage and the air exhaust air passage.

As a further scheme of the invention: and one end of the air pipe, which is far away from the air exhaust interface, is connected with the air nozzles of other inflatable products.

As a further scheme of the invention: and a one-way valve is arranged on the inflation air passage.

As a further scheme of the invention: the inflation electrifying interface and the air exhaust electrifying interface are electrically connected with an external mobile power supply through a wire.

As a further scheme of the invention: the ventilating device and the air pumping and inflating mechanism are both connected with the inflatable boat body in a sealing way, and the pipeline is connected with the partition plate in a sealing way.

As a further scheme of the invention: the periphery of the shell is fixedly provided with a fixing panel, and the fixing panel is welded or glued with the inflatable ship body.

As a further scheme of the invention: the other inflatable products comprise inflatable bottom plates or inflatable keels or survival rings of other inflatable ships.

The inflation method comprises the following steps: s1, turning a knob to open a valve, and enabling air chambers to be communicated with each other through a pipeline and the valve; s2, disassembling a sealing cover on the inflatable connector to enable the interior of the inflatable ship body to be communicated with the outside; s3, an external mobile power supply is plugged into the inflation power-on interface through a lead, the motor assembly in the inflation air channel is powered on and started, air enters the air chambers from the outside through the inflation interface and the inflation air channel under the action of the motor assembly, and the air enters the adjacent air chambers through the ventilation device, so that the air chambers are inflated; and S4, after the inflation is finished, covering the inflation connector tightly by using a sealing cover, and turning a knob to close a valve to ensure that two adjacent air chambers cannot be mutually ventilated to form an independent air chamber.

The air bleeding method comprises the following steps: s5, turning the knob to open the valve, and communicating the air chambers with each other through the pipeline and the valve; s6, disassembling a sealing cover on the air exhaust interface to enable the inflatable boat body to be communicated with the outside; s7, an external mobile power supply is inserted into the air exhaust and electrifying interface through a lead, the motor assembly in the air exhaust passage is electrified and started, air enters the outside from the air chamber through the air exhaust passage and the air exhaust interface under the action of the motor assembly, and the air enters the adjacent air chamber through the ventilation device, so that the inflatable ship body finishes air exhaust; and S8, after air exhaust is finished, covering the air exhaust port by using a sealing cover, and folding and storing the inflatable boat body.

Inflating other inflatable articles comprises the steps of: s9, disassembling an air exhaust interface and a sealing cover on an inflation interface, S10, connecting one end of an air pipe to the air exhaust interface, connecting one end of the air pipe, far away from the inflation hull, to an air nozzle of other inflatable products, S11, inserting an external mobile power supply to the inflation power-on interface through a lead, electrifying and starting a motor assembly in the inflation air channel, enabling air to enter an air chamber from the outside of the inflation through the inflation interface and the inflation air channel under the action of the motor assembly, increasing the air pressure in the air chamber, enabling high-pressure air in the air chamber to enter other inflatable products under the action of pressure difference between the air chamber and other inflatable products to inflate the other inflatable products, S12, disassembling the air pipe, and tightly covering the inflation interface and the air exhaust interface by using the sealing cover.

Compared with the prior art, the invention has the beneficial effects that: the invention can inflate and exhaust the inflatable boat body with a plurality of air chambers; the invention can communicate a plurality of air chambers through the ventilating device, and can complete the inflation and air exhaust of all the air chambers only by one air exhaust and inflation mechanism; the invention is communicated with the air exhaust interface and other inflatable products through the air pipe, so that the invention can inflate other inflatable products.

Drawings

FIG. 1 is a front view of a multi-cell inflatable boat.

FIG. 2 isbase:Sub>A sectional view taken along the line A-A ofbase:Sub>A multi-cell inflatable boat.

Fig. 3 is a partial enlarged view of I of fig. 2.

FIG. 4 is a bottom view of a multi-cell inflatable boat.

FIG. 5 is a perspective view of a multi-cell inflatable boat.

Fig. 6 is a schematic structural view of the pumping and inflating mechanism.

Fig. 7 is a schematic diagram of an inflatable keel of a multi-chamber inflatable boat.

Fig. 8 is a schematic view of a multi-cell inflatable boat inflating other inflatable hulls.

In the figure: 1. an inflatable hull; 2. a partition plate; 3. a gas chamber; 4. a breather device; 41. a pipeline; 42. a valve; 421. a valve body; 422. a knob; 5. a pumping and inflating mechanism; 51. a housing; 511. an inflation power-on interface; 512. an air extraction and power-on interface; 513. fixing the panel; 52. an inflatable airway; 521. a one-way valve; 53. an air exhaust passage; 54. a motor assembly; 55. an inflation interface; 56. an air extraction interface; 57. an air tube; 58. a closure cap; 59. an external mobile power supply; 6. other inflatable boats; 7. an inflatable keel; 8. and (6) seeking survival circles.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Example 1: referring to fig. 1-8, a multi-air-chamber inflatable boat and an inflation and deflation method thereof include an inflatable boat body 1, the inside of the inflatable boat body 1 is divided into a plurality of air chambers 3 by partition plates 2, two adjacent air chambers 3 are connected by a ventilation device 4, at least one air pumping and inflating mechanism 5 is arranged on the inflatable boat body 1, each air pumping and inflating mechanism 5 is mounted on a different air chamber 3, the ventilation device 4 includes a pipeline 41 and a valve 42, the two adjacent air chambers 3 are communicated with each other through the pipeline 41, the pipeline 41 is connected with the valve 42, the valve 42 includes a valve body 421 and a knob 422, the valve body 421 is located in the air chamber 3, the knob 422 is located outside the inflatable boat body 1, the air pumping and inflating mechanism 5 includes a housing 51, the housing 51 is provided with an inflatable air passage 52 and an air pumping air passage 53 penetrating through the housing 51, the inflatable air passage 52 and the air pumping air passage 53 are both provided with a motor assembly 54, the inflatable air passage 52 and the air pumping air passage 53 are provided with motor assemblies 54, the inflatable air passage 52 and the air pumping air passage 53 are opposite in direction, the housing 51 is provided with an inflatable interface 55 and a pumping port 56, the air port 56 is provided with a pumping screw thread 56, the pumping port 56, the air pipe 57 is connected with a sealed air nozzle 57, and a cap 57, the inflatable port 55 and a screw cap is provided with the inflatable port 56. The shell 51 is provided with an inflation electrifying interface 511 and an air exhaust electrifying interface 512, the inflation electrifying interface 511 and the air exhaust electrifying interface 58 are respectively and electrically connected with the motor assembly 54 in the inflation air passage 52 and the air exhaust air passage 53, and the inflation electrifying interface 511 and the air exhaust electrifying interface 512 are electrically connected with the external mobile power supply 59 through wires.

When in inflation: s1, rotating a knob 422 to open a valve 42, and enabling air chambers 3 to be communicated with each other through a pipeline 41 and the valve 42; s2, detaching the sealing cover 58 on the inflation connector 55 to enable the interior of the inflatable hull 1 to be communicated with the outside; s3, an external mobile power supply 59 is plugged into the inflation electrifying interface 511 through a lead, the motor assembly 54 in the inflation air channel 52 is electrified and started, air enters the air chamber 3 from the outside through the inflation interface 55 and the inflation air channel 52 under the action of the motor assembly 54, and the air enters the adjacent air chamber 3 through the ventilation device 4, so that the air chamber 3 is inflated; s4, after the inflation is finished, the sealing cover 58 is used for covering the inflation connector 55 tightly, the knob 422 is rotated to close the valve 42, so that the two adjacent air chambers 3 cannot be ventilated mutually, and the independent air chambers 3 are formed.

Further, the end of the air tube 57 away from the air suction port 56 is connected to the air nozzle of other inflatable products. Enabling the present invention to inflate other inflatable articles.

Still further, a check valve 521 is disposed on the inflation air duct 52. The check valve 521 makes the present invention less prone to air leakage during or after inflation.

Still further, the ventilating device 4 and the pumping and inflating mechanism 5 are both connected with the inflatable boat body 1 in a sealing manner, and the pipeline 41 is connected with the partition board 2 in a sealing manner.

Still further, a fixing panel 513 is fixedly provided to the outer periphery of the hull 51, and the fixing panel 513 is welded or glued to the inflatable hull 1.

In addition, the other inflatable articles include other inflatable boats 6 or inflatable decks or inflatable keels 7 or survival rings 8.

Example 2: referring to fig. 1-8, a multi-air-chamber inflatable boat and an inflation and deflation method thereof include an inflatable boat body 1, the inflatable boat body 1 is divided into a plurality of air chambers 3 by a partition plate 2, two adjacent air chambers 3 are connected by an air breather 4, the inflatable boat body 1 is provided with at least one air pumping and inflating mechanism 5, each air pumping and inflating mechanism 5 is installed on different air chambers 3, the air breather 4 includes a pipeline 41 and a valve 42, the two adjacent air chambers 3 are communicated with each other through the interior of the pipeline 41, the pipeline 41 is connected with the valve 42, the valve 42 includes a valve body 421 and a knob 422, the valve body 421 is located in the air chamber 3, the knob 422 is located outside the inflatable boat body 1, the air pumping and inflating mechanism 5 includes a housing 51, the housing 51 is provided with an inflating air passage 52 and an air pumping and an air passage 53 penetrating through the housing 51, the inflating air passage 52 and the air pumping air passage 53 are both provided with a motor assembly 54, the inflating air passage 52 and the air pumping passage 53 are provided with motor assemblies 54, the inflating interface 55 and the air pumping port 56 are provided with screw threads, the air pumping port 56, one end of the air pipe 57 is connected with a sealing screw thread connector 57, and a sealing screw cap 58 is provided on the air pumping port 56. The shell 51 is provided with an inflation electrifying interface 511 and a suction electrifying interface 512, the inflation electrifying interface 511 and the suction electrifying interface 58 are respectively electrically connected with the motor assembly 54 in the inflation air passage 52 and the suction air passage 53, and the inflation electrifying interface 511 and the suction electrifying interface 512 are electrically connected with the external mobile power supply 59 through wires.

When in air release: s5, rotating the knob 422 to open the valve 42, and enabling the air chambers 3 to be communicated with each other through the pipeline 41 and the valve 42; s6, detaching the sealing cover 58 on the air extraction port 55 to enable the inflatable boat body 1 to be communicated with the outside; s7, an external mobile power supply 59 is plugged into the air extraction power-on interface 512 through a lead, the motor assembly 54 in the air extraction air passage 53 is powered on and started, air enters the outside from the air chamber 3 through the air extraction air passage 53 and the air extraction interface 56 under the action of the motor assembly 54, and enters the adjacent air chamber 3 through the ventilation device 4, so that the inflatable hull 1 finishes air extraction; and S8, after air suction is finished, covering the air suction port 56 tightly by using a sealing cover 58, and folding and storing the inflatable boat body 1.

Example 3: referring to fig. 1-8, when inflating other inflatable products, S9, the air suction port 56 and the sealing cap 58 on the air suction port 55 are removed, S10, one end of the air tube 57 is connected to the air suction port 56, one end of the air tube 57 away from the inflatable boat body 1 is connected to the air nozzles of other inflatable products, S11, the external mobile power supply 59 is plugged into the inflation power-on port 511 through a wire, the motor component 54 located in the inflation air duct 52 is powered on and started, air enters the air chamber 3 from the outside through the air suction port 55 and the inflation air duct 52 under the action of the motor component 54, the air pressure in the air chamber 3 is increased, under the action of the pressure difference between the air chamber 3 and other inflatable products, high-pressure air in the air chamber 3 enters other inflatable products to inflate the other inflatable products, and after S12 and inflation are completed, the air tube 57 is removed, and the air suction port 55 and the air suction port 56 are tightly covered by the sealing cap 58.

Example 4: referring to fig. 1-8, when inflating other inflatable products, the sealing cover 58 on the air extraction interface 56 is detached, one end of the air pipe 57 is connected to the air extraction interface 56, one end of the air pipe 57 away from the inflatable hull 1 is connected to the air nozzles of other inflatable products, the external mobile power supply 59 is electrically connected to the air extraction power-on interface 512 through a wire, under the action of the air pressure difference between the motor assembly 54 in the air extraction air passage 53 and the air pressure difference between the inside and the outside of the inflatable hull 1, the air in the air chamber 3 enters the other inflatable products through the air extraction air passage 53, the air extraction interface 56 and the air pipe 57 to inflate the other inflatable products such as a life buoy, an inflatable tent and the like, after the inflation is completed, the air pipe 57 is detached from the air extraction interface 56 and the other inflatable products, and then the external mobile power supply 59 is detached, and the sealing cover 58 on the air extraction interface 56 is closed to complete the inflation of the other inflatable products.

It should be noted that the above embodiments are only specific and clear descriptions of technical solutions and technical features of the present application. However, to those skilled in the art, aspects or features that are part of the prior art or common general knowledge are not described in detail in the above embodiments.

In addition, the technical solutions of the present application are not limited to the above-described embodiments, and those skilled in the art should take the description as a whole, and the technical solutions in the embodiments may be appropriately combined, so that other embodiments that can be understood by those skilled in the art may be formed.

Claims

1. The utility model provides a ship is aerifyd to many air chambers, includes inflatable hull (1), separates for several air chamber (3) through baffle (2) in inflatable hull (1), its characterized in that: the two adjacent air chambers (3) are connected through the ventilating device (4), at least one pumping and inflating mechanism (5) is arranged on the inflatable boat body (1), each pumping and inflating mechanism (5) is installed on different air chambers (3), the ventilating device (4) comprises a pipeline (41) and a valve (42), the two adjacent air chambers (3) are communicated with each other through the inside of the pipeline (41), the pipeline (41) is connected with the valve (42), the valve (42) comprises a valve body (421) and a knob (422), the valve body (421) is positioned in the air chambers (3), the knob (422) is positioned outside the inflatable boat body (1), the pumping and inflating mechanism (5) comprises a shell (51), an inflating air passage (52) and a pumping air passage (53) which penetrate through the shell (51) are arranged on the shell (51), motor components (54) are arranged in the inflating air passage (52) and the pumping air passage (53), the directions of the motor components (54) of the inflating air passage (52) and the pumping air passage (53) are opposite, an inflating interface (55) and a pumping interface (56) are arranged on the shell (51), the inflating interface (55) and the pumping interface (56) are respectively communicated with the interiors of the inflating air passage (52) and the pumping air passage (53), an air pipe (57) is detachably connected to the air exhaust interface (56).

2. A multi-cell inflatable boat as claimed in claim 1, wherein: the inflation interface (55) and the air exhaust interface (56) are detachably connected with a sealing cover (58).

3. A multi-cell inflatable boat as claimed in claim 2, wherein: the shell (51) is provided with an inflation electrifying interface (511) and a suction electrifying interface (512), and the inflation electrifying interface (511) and the suction electrifying interface (58) are respectively electrically connected with the motor component (54) in the inflation air passage (52) and the suction air passage (53).

4. A multi-cell inflatable boat as claimed in claim 3, wherein: one end of the air pipe (57) far away from the air suction connector (56) is connected with the air nozzles of other inflatable products.

5. The multi-cell inflatable boat of claim 4, wherein: a one-way valve (521) is arranged on the inflation air passage (52).

6. The multi-cell inflatable boat of claim 5, wherein: the inflation electrifying interface (511) and the air exhaust electrifying interface (512) are electrically connected with the external mobile power supply (59) through leads.

7. The multi-cell inflatable boat of claim 6, wherein: the ventilating device (4) and the air pumping and inflating mechanism (5) are both in sealed connection with the inflatable boat body (1), and the pipeline (41) is in sealed connection with the partition board (2).

8. The multi-cell inflatable boat of claim 7, wherein: a fixing panel (513) is fixedly arranged on the periphery of the shell (51).

9. A multi-cell inflatable boat as claimed in claim 8, wherein: the other inflatable products comprise other inflatable boats (6) or inflatable floors or inflatable keels (7) or survival rings (8).

10. An inflation and deflation method of a multi-air-chamber inflatable boat is characterized in that: the inflation method comprises the following steps: s1, turning a knob (422) to open a valve (42), and enabling air chambers (3) to be communicated with each other through a pipeline (41) and the valve (42); s2, detaching a sealing cover (58) on the inflation connector (55) to enable the interior of the inflatable ship body (1) to be communicated with the outside; s3, an external mobile power supply (59) is inserted into the inflation power-on interface (511) through a lead, a motor assembly (54) positioned in the inflation air passage (52) is powered on and started, air enters the air chamber (3) from the outside through the inflation interface (55) and the inflation air passage (52) under the action of the motor assembly (54), and the air enters the adjacent air chamber (3) through the ventilation device (4), so that the air chamber (3) is inflated; s4, after the inflation is finished, the inflation connector (55) is tightly covered by the sealing cover (58), the valve (42) is closed by rotating the knob (422), so that the two adjacent air chambers (3) cannot be mutually ventilated, and the independent air chambers (3) are formed;

the air bleeding method comprises the following steps: s5, opening a valve (42) by rotating a knob (422), and enabling the air chambers (3) to be communicated with each other through a pipeline (41) and the valve (42); s6, detaching a sealing cover (58) on the air extraction interface (55) to enable the inflatable boat body (1) to be communicated with the outside; s7, an external mobile power supply (59) is inserted into the air extraction power-on interface (512) through a lead, the motor assembly (54) positioned in the air extraction air passage (53) is powered on and started, air enters the outside from the air chamber (3) through the air extraction air passage (53) and the air extraction interface (56) under the action of the motor assembly (54), and enters the adjacent air chamber (3) through the ventilation device (4), so that the inflatable boat body (1) finishes air extraction; s8, after air extraction is finished, covering the air extraction port (56) tightly by using a sealing cover (58), and folding and storing the inflatable boat body (1);

inflating other inflatable articles comprises the steps of: s9, disassembling a lower air suction interface (56) and a sealing cover (58) on an inflatable interface (55), S10, connecting one end of an air pipe (57) to the air suction interface (56), connecting one end of the air pipe (57), which is far away from the inflatable ship body (1), to an air nozzle of other inflatable products, S11, inserting an external mobile power supply (59) onto an inflatable electrifying interface (511) through a lead, electrifying a motor component (54) positioned in an inflatable air passage (52) to start, allowing air to enter an air chamber (3) from the outside through the inflatable interface (55) and the inflatable air passage (52) under the action of the motor component (54), increasing the air pressure in the air chamber (3), allowing high-pressure air in the air chamber (3) to enter other inflatable products under the action of pressure difference between the air chamber (3) and the other inflatable products to inflate the other inflatable products, disassembling the air pipe (57) after inflation is completed, and tightly closing the inflatable interface (55) and the air suction interface (56) by using the sealing cover (58).