TW201908642A - Inflating connector capable of wirelessly transmitting gas pressure data to electronic device and its combination with high-pressure gas cylinder gas pressure data can be transmitted to an electronic device with a Bluetooth means for allowing a user to observe the combination of the inflating connector and the high-pressure gas cylinder - Google Patents

Abstract

This invention provides an inflating connector capable of wirelessly transmitting gas pressure data to an electronic device and its combination with a high-pressure gas cylinder including an inflating connector and a high-pressure gas cylinder. The inflating connector includes a main body and a gas pressure sensor. The main body has a gas inlet channel, a gas outlet channel communicated with the gas inlet channel, an accommodation part communicated with the gas inlet channel and the gas outlet channel and a connection part not communicated with the gas inlet channel and the gas outlet channel. The gas outlet channel is suitable to be connected to a gas nozzle. The gas pressure sensor is accommodated in the accommodation part and has a sensing unit, an electric power unit and a Bluetooth circuit board. The sensing unit and the electric power unit are respectively and electrically connected to the Bluetooth circuit board. The sensing unit is able to sense a gas pressure flowing into the accommodation part for obtaining gas pressure data. The Bluetooth circuit board is able to connect via Bluetooth and transmit the gas pressure data sensed by the sensing unit to an electronic device, so that the gas pressure data can be displayed by the electronic device, and the high-pressure gas cylinder can be selectively connected to the gas inlet channel or the connection part.

Description

Inflatable connector for wirelessly transmitting air pressure data to an electronic device and its combination with a high pressure gas cylinder

The present invention mainly discloses an inflation joint, and more particularly to an inflatable joint capable of transmitting air pressure data to an electronic device for viewing by a user using Bluetooth technology and a combination thereof with a high pressure gas cylinder.

Most of the bicycle inflators commonly used in the market in the early days were inflated by applying pressure and pressure. As the times progressed, the pump has moved toward the downsizing direction, but due to the shrinking volume of the pump, the force is applied. The amount of pressurized air is reduced, so it takes more effort and time to complete. In addition, because the volume of the small pump is reduced, it is not enough for the bead to quickly fit the wheel frame, so it cannot be applied to the tubeless system. (Tubeless).

If you need to use a small pump to inflate in the riding room, you will not be able to effectively retain the physical strength of the rear section, and for most of the Cavaliers need to complete the inflation quickly, it will not leave the cycling team, and the players will have to make an emergency replacement when they encounter a puncture. The condition of the tire and the inflation is very inconvenient, so it is gradually converted into a quick inflation method using a CO2 cylinder with an inflation joint to solve the above situation.

The primary function of the inflatable joint is to quickly inflate with the CO2 cylinder, and it has a smaller size than the pump to facilitate carrying. Therefore, if the inflation joint is provided with a traditional mechanical pressure gauge for viewing the air pressure value during inflation, the pressure gauge The outer diameter must be greater than the outer diameter of the inflatable joint, which creates a sudden sensation of the appearance of the inflatable joint and also increases the volume of the inflatable joint. Moreover, even if the pressure gauge is forcibly set, in order to avoid the sudden appearance of the overall design, the attached pressure gauge volume must be reduced as much as possible, resulting in the digital scale and unit marking of the pressure gauge must be quite small, making it very difficult for the user to interpret the air pressure. Value. On the other hand, when performing the pumping operation, the inflation joint is connected with the tire nozzle, which will interfere or block the pressure gauge by the spokes. It is difficult to interpret the air pressure data, and the pressure gauge is too large, which may make the inflation joint difficult to connect with the tire nozzle. .

In view of the above problems of the prior art, which cannot be effectively solved and overcome, the present applicant has filed this patent application to solve the aforementioned problems.

The technical problem that the present invention can wirelessly transmit air pressure data to the inflation joint of the electronic device and its combination with the high pressure gas cylinder is that the conventional inflation joint with the pressure gauge is limited by the overall size, and it is difficult for the user to interpret the air pressure value, and the setting is The pressure gauge causes an increase in the volume of the inflation joint, which increases the difficulty of the inflation operation.

Accordingly, the present invention provides an inflation joint that wirelessly transmits air pressure data to an electronic device that includes a body and a pneumatic sensing device. The body includes an intake passage, an outlet passage communicating with the intake passage, and a receiving portion connecting the intake passage and the outlet passage, the intake passage being adapted to be connected to a high pressure gas cylinder, the outlet passage being adapted to be connected a gas nozzle, the air pressure sensing device is disposed at the accommodating portion and is capable of measuring gas pressure flowing into the accommodating portion to obtain air pressure data, and the air pressure sensing device is capable of wirelessly connecting and transmitting the measured air pressure data to the electronic device , causing the electronic device to display air pressure data.

The air pressure sensing device includes a sensing unit, a power unit, and a wireless transmission unit. The sensing unit and the power unit are respectively electrically connected to the wireless transmission unit, and the sensing unit is capable of measuring a flow into the housing. The air pressure is obtained by the gas pressure, and the wireless transmission unit is capable of wirelessly connecting and transmitting the air pressure data measured by the sensing unit to the electronic device.

The wireless transmission unit is a Bluetooth circuit board capable of Bluetooth connection and transmitting the air pressure data measured by the sensing unit to the electronic device.

The air inlet passage extends along a first axis on one side of the body, and the air outlet passage includes a first section that communicates with the intake passage and a second section that communicates with the receiving portion, the first section along a a second axis extending perpendicularly to the first axis is formed on the body, and the second segment extends along the third axis parallel to the first axis to form the body, the receiving portion is parallel to the second axis and perpendicular A fourth axis of the third axis extends over the body.

The body includes a connecting portion extending along the first axis to the body and not communicating with the air inlet passage and the air outlet passage, and the connecting portion is adapted to connect a high pressure gas cylinder.

The invention provides a combination of an inflation joint and a high pressure gas cylinder capable of wirelessly transmitting air pressure data to an electronic device, comprising an inflation joint and a high pressure gas cylinder, the inflation joint comprising a body and a pneumatic sensing device, the body comprising a body An intake passage, an outlet passage communicating with the intake passage, a receiving portion connecting the intake passage and the outlet passage, and a connecting portion not communicating the intake passage and the outlet passage, the outlet passage being adapted to be connected a gas nozzle, the air pressure sensing device is disposed in the accommodating portion and includes a sensing unit, a power unit, and a Bluetooth circuit board, wherein the sensing unit and the power unit are electrically connected to the Bluetooth circuit board, respectively The sensing unit can measure the pressure of the gas flowing into the accommodating portion to obtain the air pressure data, and the Bluetooth circuit board can connect and transmit the air pressure data measured by the sensing unit to the electronic device, so that the electronic device displays the air pressure data. The high pressure gas cylinder is selectively connected to the intake passage or the connecting portion.

Other objects, advantages and novel features of the invention will become apparent from the description and appended claims.

The technology, means and functions of the present invention are described in detail with reference to the accompanying drawings.

Referring to FIGS. 1 through 5, the present invention can wirelessly transmit air pressure data to an inflatable joint of an electronic device and its combination with a high pressure gas cylinder 30 including an inflation joint and a high pressure gas cylinder 30.

The inflation joint includes a body 10 and a gas pressure sensing device 20 disposed on the body 10. The body 10 includes an intake passage 11, an outlet passage 12 communicating with the intake passage 11, and a communication passage 11 and an outlet passage 12. The accommodating portion 13 and a connecting portion 14 that do not communicate the intake passage 11 and the outlet passage 12 are provided.

The intake passage 11 is formed on one side of the body 10 along a first axis A1. The air outlet passage 12 is adapted to be coupled to the air nozzle 40 of the tire, the air outlet passage 12 including a first section 121 communicating with the intake passage 11 and a second section 122 communicating with the receiving portion 13, the first section 121 being along a vertical first axis The second axis A2 of the A1 extends to the body 10, and the second section 122 extends along the third axis A3 parallel to the first axis A1 to form the body 10. The receiving portion 13 is used for accommodating the air pressure sensing device 20. The portion 13 is formed on the body 10 along a fourth axis A4 parallel to the second axis A2 and perpendicular to the third axis A3. The connecting portion 14 extends along the first axis A1 and does not communicate with the intake passage 11 and the outlet passage 12. In this embodiment, the air inlet passage 11 , the air outlet passage 12 , the accommodating portion 13 , and the connecting portion 14 can be holes or slots and do not penetrate the body 10 . The body 10 can also have a cover member 15 and a plurality of fasteners 16 through which the fasteners 16 are detachably coupled to the side of the body 10 on which the receiving portion 13 is disposed, such that the cover member 15 is detachably coupled to The body 10 selectively closes the accommodating portion 13 to prevent the air pressure sensing device 20 accommodated in the accommodating portion 13 from being detached from the body 10 arbitrarily.

The air pressure sensing device 20 is disposed in the accommodating portion 13 and can measure the gas pressure flowing into the accommodating portion 13 to obtain air pressure data. The air pressure sensing device 20 can wirelessly connect and transmit the measured air pressure data to the electronic device 50. The electronic device 50 is caused to display the air pressure data. The electronic device 50 can be a device such as a smart phone, a watch, or a tablet.

The air pressure sensing device 20 includes a sensing unit 21, a power unit 22, and a wireless transmission unit 23. The sensing unit 21 and the power unit 22 are electrically connected to the wireless transmission unit 23, respectively, and the sensing unit 21 can measure the flow to the receiving unit. The air pressure data is obtained by the gas pressure in the portion 13, and the wireless transmission unit 23 can wirelessly connect and transmit the air pressure data measured by the sensing unit 21 to the electronic device 50.

The wireless transmission unit 23 is a Bluetooth circuit board capable of Bluetooth connection and transmitting the air pressure data measured by the sensing unit 21 to the electronic device 50.

The high pressure gas cylinder 30 is selectively connected to the intake passage 11 or the connecting portion 14. When the inflation operation is performed, the high pressure gas cylinder 30 is connected to the intake passage 11. When the inflation operation is not performed, the high pressure gas cylinder 30 is connected to the connection portion 14, so that the high pressure gas cylinder 30 and the body 10 form a body for carrying.

Please refer to FIG. 4 and FIG. 5 , which are schematic diagrams of the use of the present invention. In order to perform the inflation operation, the air outlet passage 12 is first connected to the air nozzle 40 of the tire, and since the inflation joint is not provided with a solid pressure gauge, the overall volume can be reduced, and the air outlet passage 12 is easily connected to the air nozzle 40 of the tire without spokes. 60, the high pressure gas cylinder 30 is removed from the connecting portion 14 and connected to the air inlet passage 11, so that the thimble provided by the body 10 pierces the high pressure gas cylinder 30 to form an opening at the top end of the high pressure gas cylinder 30, the high pressure gas cylinder The high-pressure gas in 30 passes through the opening, the intake passage 11, and the first section 121 of the outlet passage 12, and is rapidly filled into the tire via the nozzle 40. At the same time, the high-pressure gas in the high-pressure cylinder 30 passes through the opening and the intake passage. 11. The second section 122 of the air outlet passage 12 enters the accommodating portion 13, and the sensing unit 21 measures the pressure of the gas flowing into the accommodating portion 13 to obtain the air pressure data, and the wireless transmission unit 23 wirelessly connects and transmits the sensing unit 21 The measured air pressure data is sent to the electronic device 50 for interpretation by the user. When the inflation operation is not performed, the high pressure gas cylinder 30 is connected to the connecting portion 14, so that the inflation joint and the high pressure gas cylinder 30 are not separated from each other, which is convenient to carry, and when the user wants to take out the inflation joint and the high pressure gas cylinder 30 for inflation operation. Both can be taken out at the same time for the user to quickly prepare for the inflation operation.

In summary, the present invention can wirelessly transmit air pressure data to the inflation joint of the electronic device and its combination with the high pressure gas cylinder 30 has the following advantages:

1. Compared with the conventional inflation joint, the present invention can wirelessly transmit air pressure data to the inflation joint of the electronic device and its combination with the high pressure gas cylinder 30 to provide instantaneous air pressure data for the user to interpret.

2. Compared with a conventional inflation joint having a mechanical pressure gauge, the present invention can wirelessly transmit air pressure data to an inflation joint of an electronic device and its combination with a high pressure gas cylinder 30. The air pressure sensing device 20 can wirelessly connect and transmit a sense of transmission. The air pressure data measured by the measuring unit 21 to the electronic device 50 has no physical pressure gauge on the whole structure, and can have a simple and compact appearance, and is easy to connect the air outlet passage 12 to the air nozzle of the tire not only during the inflation operation. 40 is not affected by the spokes 60. When the air pressure data is read, it is not affected by the shielding of the spokes 60 like the conventional inflatable joint with a mechanical pressure gauge, and at the same time, the volume of transportation can be saved.

3. The invention can wirelessly transmit air pressure data to the inflatable joint of the electronic device and the combination thereof with the high pressure gas cylinder 30 to transmit the air pressure data to the electronic device 50 such as a smart phone, a watch or a tablet computer, which is not only available for storage, but also cooperates with The touch screen can be used to enlarge or reduce the air pressure value, and even switch the personalized use panel, so that the inflatable joint can also conform to the trend of technology.

The above is only the preferred embodiment of the present invention, and the scope of the present invention is not limited thereto, so that the numerical values are changed or the equivalent elements are replaced, or the equivalent changes are made according to the scope of the present invention. Modifications should still fall within the scope of the invention patent.

10‧‧‧ Ontology

11‧‧‧Intake passage

12‧‧‧Exhaust passage

121‧‧‧ first paragraph

122‧‧‧ second paragraph

13‧‧‧ 容部

14‧‧‧Connecting Department

15‧‧‧Cleaning pieces

16‧‧‧fasteners

20‧‧‧Pneumatic sensing device

21‧‧‧Sensor unit

22‧‧‧Power unit

23‧‧‧Wireless transmission unit

30‧‧‧High pressure gas cylinder

40‧‧‧ gas nozzle

50‧‧‧Electronic devices

60‧‧‧ spokes

A1‧‧‧first axis

A2‧‧‧second axis

A3‧‧‧ third axis

A4‧‧‧fourth axis

1 is a perspective view of a combination of an inflation joint and a high pressure gas cylinder that can wirelessly transmit air pressure data to an electronic device. Figure 2 is an exploded perspective view of the combination of the inflatable connector and the high pressure gas cylinder of the wirelessly transmitable air pressure data shown in Figure 1 to the electronic device. Figure 3 is a cross-sectional view of the combination of the inflatable joint and the high pressure gas cylinder of the wirelessly transmitable air pressure data shown in Figure 1 to the electronic device. Figure 4 is a schematic view showing the use of the combination of the air-fillable air pressure data to the electronic device and the high-pressure gas cylinder shown in Figure 1, indicating that the high-pressure gas cylinder is connected to the intake passage, so that the high-pressure gas flows to the gas through the outlet passage. Mouth and housing. Figure 5 is a schematic view showing the use of the combination of the air-fillable air pressure data and the high-pressure gas cylinder of the electronic device shown in Figure 1, showing that the air pressure sensing device wirelessly connects and transmits the measured air pressure data to the electronic device.

Claims (8)

An inflation joint capable of wirelessly transmitting air pressure data to an electronic device, comprising: a body including an intake passage, an outlet passage communicating with the intake passage, and a receiving portion connecting the intake passage and the outlet passage The air inlet passage is adapted to be connected to the high pressure gas cylinder, the air outlet passage is adapted to be connected to the air nozzle, and a gas pressure sensing device is disposed at the receiving portion and capable of measuring the pressure of the gas flowing into the receiving portion to obtain the air pressure Data, the air pressure sensing device is capable of wirelessly connecting and transmitting the measured air pressure data to the electronic device to cause the electronic device to display the air pressure data. The wirelessly transmitable air pressure data according to claim 1 to an inflation joint of an electronic device, wherein the air pressure sensing device comprises a sensing unit, a power unit, and a wireless transmission unit, wherein the sensing unit and the power unit are respectively powered The wireless transmission unit is connected to the wireless transmission unit, and the sensing unit is capable of measuring the pressure of the gas flowing into the accommodating portion to obtain the air pressure data, and the wireless transmission unit is capable of wirelessly connecting and transmitting the air pressure data measured by the sensing unit to the electronic device. The wireless transmission unit can be wirelessly transmitted to the inflation connector of the electronic device, wherein the wireless transmission unit is a Bluetooth circuit board capable of Bluetooth connection and transmitting the air pressure data measured by the sensing unit to the electronic device. The wirelessly transmitable air pressure data according to claim 3, wherein the air intake passage extends along a first axis on one side of the body, and the air outlet passage includes a first passage connecting the air intake passage. a second segment connected to the accommodating portion, the first segment extending along the second axis perpendicular to the first axis, the second segment being along a third axis parallel to the first axis An extension extending is formed on the body, and the receiving portion is formed on the body along a fourth axis parallel to the second axis and perpendicular to the third axis. The inflatable connector for wirelessly transmitting air pressure data to an electronic device according to any one of claims 1 to 4, wherein the body includes a connecting portion that is formed along the first axis and is not connected to the body An intake passage and the outlet passage, the connection portion being adapted to connect a high pressure gas cylinder. A combination of an inflation joint and a high pressure gas cylinder capable of wirelessly transmitting air pressure data to an electronic device, comprising: an inflation joint including a body and a pneumatic sensing device, the body including an intake passage and a communication passage An outlet passage of the passage, a receiving portion connecting the intake passage and the outlet passage, and a connecting portion connecting the intake passage and the outlet passage, the outlet passage being adapted to be connected to the air nozzle, the pneumatic sensing device setting The sensing unit includes a sensing unit, a power unit, and a Bluetooth circuit board. The sensing unit and the power unit are electrically connected to the Bluetooth circuit board, respectively, and the sensing unit can measure the flow to the capacity. The gas pressure in the portion is obtained to obtain the air pressure data, and the Bluetooth circuit board is capable of Bluetooth connection and transmitting the air pressure data measured by the sensing unit to the electronic device, so that the electronic device displays the air pressure data; and a high pressure gas cylinder, the selection thereof It is connected to the intake passage or the connecting portion. The wirelessly transmitable air pressure data of claim 6 to a combination of an inflation joint of an electronic device and a high pressure gas cylinder, wherein the intake passage extends along a first axis to form a side of the body, the outlet passage including a communication a first section of the intake passage and a second section communicating with the receiving portion, the first section extending along the second axis perpendicular to the first axis to form the body, the second section being parallel to the body A third axis of the first axis extends extendingly formed in the body, the receiving portion being formed on the body along a fourth axis parallel to the second axis and perpendicular to the third axis. The wirelessly transmitable air pressure data according to claim 7 to a combination of an inflation joint of an electronic device and a high pressure gas cylinder, wherein the connecting portion extends along the first axis to form the body and does not communicate the intake passage and the outlet passage. The connecting portion is adapted to be connected to a high pressure gas cylinder.