TWI596277B - Built-in gas storage pump - Google Patents

Description

Built-in gas storage pump

The present invention relates to an inflator, and more particularly to a built-in gas storage type inflator.

According to the prevailing trend of riding bicycles, the related components of bicycles have also developed rapidly. Therefore, there is a bicycle tire with or without inner tube type. This type of tubeless bicycle tire can effectively reduce rolling resistance and has more The convenience of installation has gradually become a favorite of users.

However, such a tubeless bicycle tire needs to be injected with a high pressure to inflate the gas when inflating. Therefore, in the past, the user was only able to inflate with a pneumatic pump. However, at present, the industry has developed a gas storage type air pump, which mainly adds a gas storage cylinder to the original air pump to allow the gas to be pre-stored in the gas cylinder to reach a high pressure storage state. It is released at high pressure and can inflate bicycle tires without tubeless.

However, such an inflator that adds an air reservoir externally not only increases the volume, but also causes inconvenience in carrying and storing, and the overall aesthetics is greatly reduced.

In view of the above, in order to improve the prior art, the conventional air pump of the exposed air reservoir has the problem of increasing the overall volume, resulting in inconvenience of carrying and storing, and poor aesthetic appearance; thus, the present invention provides a built-in gas storage. Inflator, which mainly contains There is: a base having a receiving area and an inner cylinder fixing hole; an inner cylinder being a hollow cylinder, wherein the bottom end of the inner cylinder is fixed in the inner cylinder fixing hole of the base; a hollow cylinder, the bottom end of the outer cylinder is slidably connected to the inner cylinder, the top end of the outer cylinder is closed, and the outer cylinder can be axially reciprocated and slipped relative to the inner cylinder by an external force; The reverse device is coupled to the inner cylinder so that the gas can enter the inner cylinder only by the outer cylinder; the air guide seat has a gas guide body and a gas blocking valve, and the gas guide The occupant system is connected to the accommodating area of the pedestal, and has a guiding airflow passage and a damper chamber, wherein the air guiding duct is in communication with the inner cylinder, and the damper chamber is connected to the air guiding duct. The choke valve is disposed in the choke chamber and is switchable by an external force to switch between an open position and a closed position; a gas transmission joint is connected to the gas guide seat, and the gas barrier is connected The chamber is connected to connect the gas to the gas; a switching member is pivotally connected to the base and coupled with the choke valve, the switching member can be The external force acts on a reciprocating switch between a gas transfer position and a gas storage position; when the switching member is located at the gas storage position, the choke valve is interlocked to switch to the closed position to close the choke chamber, the inner tube The gas inside can not be transported to the gas transmission joint. When the switching member is located at the gas transmission position, the gas barrier valve is interlocked to be switched to the open position, so that the gas barrier chamber is opened, and the gas in the inner cylinder can be The air flow channel and the gas barrier chamber are transported to the gas transmission joint; thereby achieving aesthetics, reducing volume, and facilitating carrying and storage.

"First preferred embodiment of the present invention"

100‧‧‧ Built-in gas storage pump

10‧‧‧ Pedestal

11‧‧‧Base

12‧‧‧ top seat

13‧‧‧Receiving area

14‧‧‧Inner cylinder fixing hole

15‧‧‧Air guide joint chamber

16‧‧‧ Pressure gauge room

20‧‧‧ inner tube

30‧‧‧Outer tube

40‧‧‧ grip

50‧‧‧Stop device

51‧‧‧ fixed body

511‧‧‧ anti-counter flow

52‧‧‧ check valve

60‧‧‧ air bearing seat

61‧‧‧Air guide body

611‧‧‧Air guide base

612‧‧‧Air guide

613‧‧ ‧ air duct

614‧‧‧Steading chamber

62‧‧‧Steel valve

70‧‧‧Switching parts

80‧‧‧ gas connection

81‧‧‧ trachea

82‧‧‧Air nozzle joint

90‧‧‧barometer

"Second preferred embodiment of the present invention"

200‧‧‧ Built-in gas storage pump

10‧‧‧ Pedestal

14‧‧‧Inner cylinder fixing hole

20‧‧‧ inner tube

30‧‧‧Outer tube

40‧‧‧ grip

50‧‧‧Stop device

60‧‧‧ air bearing seat

70‧‧‧Switching parts

80‧‧‧ gas connection

90‧‧‧barometer

91‧‧‧Inner tube connector

"The third preferred embodiment of the present invention"

300‧‧‧ Built-in gas storage pump

10‧‧‧ Pedestal

14‧‧‧Inner cylinder fixing hole

20‧‧‧ inner tube

30‧‧‧Outer tube

40‧‧‧ grip

50‧‧‧Stop device

60‧‧‧ air bearing seat

611‧‧‧Air guide base

70‧‧‧Switching parts

80‧‧‧ gas connection

90‧‧‧barometer

91‧‧‧Inner tube connector

The first figure is an exploded perspective view of a first preferred embodiment of the present invention.

The second drawing is a perspective assembled view of the embodiment shown in the first figure.

The third drawing is a cross-sectional view and a partial enlarged view of the embodiment shown in the first figure.

The fourth figure is a cross-sectional view of the embodiment shown in the first figure and a partial enlarged operation diagram.

The fifth drawing is a schematic view of the cross-sectional operation of the embodiment shown in the first figure.

Figure 6 is a perspective exploded view of a second preferred embodiment of the present invention.

Figure 7 is a perspective assembled view of the embodiment shown in Figure 6.

Figure 8 is a cross-sectional view of the embodiment shown in Figure 6.

Figure 9 is a perspective exploded view of a third preferred embodiment of the present invention.

Figure 11 is a cross-sectional view of the embodiment shown in Figure IX.

In order to enable the reviewing committee to have a better understanding and recognition of the features and features of the present invention, the following preferred embodiments are illustrated with the following description: Referring to the first to fifth figures, the first comparison of the present invention A built-in gas storage type air pump 100 provided by a preferred embodiment mainly includes a base 10, an inner cylinder 20, an outer cylinder 30, a grip 40, a check device 50, and a gas guide seat. 60, a switching member 70, a gas transmission connector 80 and a barometer 90, wherein: please refer to the first to third figures, the base 10 is connected to the top surface of the base 11 by a base 11 and a group The top seat 12 is combined. The base 10 is stably placed on a ground. The bottom surface of the base 10 is recessed with a receiving area 13 . The top surface of the base 10 has an inner cylinder fixing hole 14 and a gas guiding joint chamber. 15 and a barometer chamber 16, the inner cylinder fixing hole 14, the air guiding joint chamber 15 and the air pressure chamber 16 are in communication with the receiving portion 13.

Referring to the first to third figures, the inner cylinder 20 is a hollow cylinder. The bottom end of the inner cylinder 20 extends into the inner cylinder fixing hole 14 of the base 10, and is connected to the base 10. fixed.

Referring to the first to third figures, the outer cylinder 30 is a hollow cylinder, and the outer cylinder The bottom end of the cylinder 30 is slidably coupled to the inner cylinder 20 such that the inner portion of the inner cylinder 20 communicates with the inner portion of the outer cylinder 30. The outer cylinder 30 can be axially opposed to the inner cylinder 20 by an external force. The reciprocating slip is performed to inject a gas inside the outer cylinder 30 into the inner cylinder 20.

Referring to the first to third figures, the grip 40 is attached to the top end of the outer cylinder 30 for the user to hold and close the top end of the outer cylinder 30.

Referring to the first to third figures, the non-return device 50 has a fixed body 51 and a check valve 52. The fixed body 51 is fixedly coupled to the top end of the inner cylinder 20 and has a non-reverse flow path. 511, the anti-reverse flow passage 511 is connected to the inside of the inner cylinder 20 and the inner portion of the outer cylinder 30. The check valve 52 is disposed in the counterflow passage 511 of the fixed body 51 to be used by the non-return device 50. The gas supply can only enter the inside of the inner cylinder 20 from the inside of the outer cylinder 30, and cannot enter the inside of the outer cylinder 30 from the inside of the inner cylinder 20, that is, the gas is unidirectionally pressed by the non-return device 50. The inside of the inner cylinder 20 is introduced from the inside of the outer cylinder 30.

Referring to the first to third figures, the air bearing seat 60 has a gas guiding body main body 61 and a gas blocking valve 62. The air guiding base body 61 has an air guiding base 611 and a gas guiding joint 612. The air guiding base 611 is assembled in the accommodating area 13 of the base 10, and has a guiding airflow path 613, and the air guiding channel 613 is connected to the inner cylinder fixing hole 14, the gas transmission joint chamber 15, and the The air pressure chamber 16 is connected to introduce the gas of the inner cylinder 20 into the air guiding passage 613, and is branched into the air guiding joint chamber 15 and the air pressure chamber 16, and the air guiding joint 612 is coupled. The air guiding joint 615 is connected to the air guiding joint chamber 15 and has a gas blocking chamber 614. The gas blocking chamber 614 is connected to the air guiding chamber. Between the 613 and the outside, the choke valve 62 is disposed in the choke chamber 614 and can be subjected to an external force to an open position to Switching back and forth between closed positions.

Referring to the first to third figures, the switching member 70 is pivotally connected to the base 10 and coupled with the choke valve 62 of the air guiding seat 60. The switching member 70 can be subjected to an external force. Switching between a gas delivery position and a gas storage position.

Referring to the first to third figures, the gas transmission joint 80 has a gas pipe 81 and a gas nozzle joint 82. One end of the gas pipe 81 is connected to the gas guiding joint 612 of the gas guiding seat 60, and the other end is connected with the gas nozzle. The joint 82 is coupled to be coupled by the nozzle joint 82 to an external nozzle (not shown) for outputting gas to the nozzle.

Referring to the first to third figures, the air pressure gauge 90 is disposed in the air pressure chamber 16 of the base 10 and communicates with the air flow passage 613.

Therefore, the above is the introduction of each component of the built-in gas storage type inflator 100 and the assembly method thereof according to the first preferred embodiment of the present invention, and then the use characteristics thereof are as follows: When pre-storing gas to the present invention, the switching member 70 is first switched to the gas storage position (as shown in the fourth figure), and the gas blocking valve 62 is simultaneously linked to the closed position to be used by the choke valve 62. The choke chamber 614 is closed, that is, the air guiding passage 613 and the gas transmission joint 80 are closed in a closed state. At this time, the user can hold the grip 40 and reciprocate the outer cylinder 30 relative to the inner cylinder 20 to transport the gas from the inside of the outer cylinder 30 through the non-return device 50. The inside of the inner cylinder 20 is stored. Since the gas barrier valve 62 is in a closed state at this time, the gas in the inner cylinder 20 cannot be output to the gas transmission joint 80, and can be input into the air pressure chamber chamber 16 via the air flow passage 613. The pressure value of the gas is displayed by the air pressure gauge 90 for the user to know the pressure of the gas stored in the inner cylinder 20.

Then, when the object to be inflated is to be inflated by the present invention, the user switches the switching member 70 from the gas storage position to the gas delivery position (as shown in FIG. 5), and the gas barrier is interlocked by the switching member 70. The valve 62 is switched from the closed position to the open position, so that the gas transmission joint 80 and the air flow passage 613 are in an open state at this time, so that the gas stored in the inner cylinder 20 can pass through the air guide passage 613. The gas barrier chamber 614 enters the gas pipe 81 of the gas transmission joint 80, and is output from the gas nozzle joint 82 to the outside articles to achieve the effect of inflation.

Therefore, the present invention can not only store gas in the inner cylinder in advance, but also design the gas storage without adding an external air reservoir, thereby reducing the overall volume, thereby facilitating carrying and storage, and enhancing the overall aesthetic effect. .

In addition, after the gas is stored in advance in the present invention, the gas stored in the inner cylinder can be in a high pressure state, so as to inflate the tire without the tube tube, and the effect of labor saving can be achieved.

Referring to FIG. 6 to FIG. 8 , a built-in gas storage type inflator 200 according to a second preferred embodiment of the present invention includes a base 10 and an inner same as the first preferred embodiment. a cylinder 20, an outer cylinder 30, a grip 40, a check device 50, a gas guide 60, a switching member 70, a gas connection 80 and a barometer 90, but with the first preferred embodiment The main difference is that in the present embodiment, the base 10 is integrally formed.

In this embodiment, an inner cylinder joint 91 is further disposed, and the inner cylinder joint 91 is fixedly disposed in the inner cylinder fixing hole 14 of the base 10, and the inner cylinder joint 91 and the bottom end of the inner cylinder 20 are The connection is made to fix the bottom end of the inner cylinder 20 to the inner cylinder fixing hole 14.

Although this embodiment is slightly different from the first preferred embodiment, the same purpose and effect can be achieved.

Please refer to the ninth to tenth drawings, which are provided by the third preferred embodiment of the present invention. A built-in gas storage type inflator 300, which comprises a base 10, an inner cylinder 20, an outer cylinder 30, a grip 40, a non-return device 50, and a gas guide, as in the second preferred embodiment. The holder 60, a switching member 70, a gas transmission connector 80, a barometer 90 and an inner tube connector 91, but the main difference from the second preferred embodiment is: In this embodiment, the inner cylinder joint 91 is fixedly disposed on the air guiding base 611 of the air guiding base 60, and then extends into the inner cylinder fixing hole 14 of the base 10, and the inner cylinder joint is further 91 is connected to the bottom end of the inner cylinder 20 to fix the bottom end of the inner cylinder 20 to the inner cylinder fixing hole 14.

Although the embodiment is slightly different from the second preferred embodiment, the same purpose and effect can be achieved.

The above is only the preferred embodiment of the present invention, and is not intended to limit the scope of the present invention, and all of the related art in the art according to the present invention are equivalent to the present invention. The scope of coverage.

100‧‧‧ Built-in gas storage pump

10‧‧‧ Pedestal

11‧‧‧Base

12‧‧‧ top seat

14‧‧‧Inner cylinder fixing hole

15‧‧‧Air guide joint chamber

16‧‧‧ Pressure gauge room

20‧‧‧ inner tube

30‧‧‧Outer tube

40‧‧‧ grip

50‧‧‧Stop device

51‧‧‧ fixed body

511‧‧‧ anti-counter flow

52‧‧‧ check valve

60‧‧‧ air bearing seat

61‧‧‧Air guide body

611‧‧‧Air guide base

612‧‧‧Air guide

613‧‧ ‧ air duct

614‧‧‧Steading chamber

62‧‧‧Steel valve

70‧‧‧Switching parts

80‧‧‧ gas connection

81‧‧‧ trachea

82‧‧‧Air nozzle joint

90‧‧‧barometer

Claims (9)

The utility model relates to a built-in gas storage type air pump, which mainly comprises: a base having a gas guiding joint chamber; an inner cylinder which is a hollow cylinder fixed on the base; and an outer cylinder which is hollow a cylinder, the outer cylinder is slidably connected to the inner cylinder, the top end of the outer cylinder is closed, and the outer cylinder can be axially reciprocated and slipped relative to the inner cylinder by an external force; a check device is connected In the inner cylinder, the gas can only enter the inner cylinder from the outer cylinder unidirectionally; a gas guide seat has a gas guide body and a gas barrier valve, and the gas guide body has a guide a gas base and an air guiding joint, the air guiding base is assembled in the base, and has a guiding air passage, the air guiding joint is disposed in the air guiding joint chamber of the base, and the guiding a gas base is connected, the gas guiding joint has a gas blocking chamber, the air guiding passage is in communication with the inner cylinder, the choke chamber is connected to the air guiding duct, and the choke valve is disposed in the choke gas Inside the chamber, and can be switched by an external force to switch from an open position to a closed position; a gas transmission joint is connected to the gas guide seat a gas guiding joint is connected and communicates with the choke chamber to discharge the gas; when the choke valve is switched to the closed position, the choke chamber is closed, and the gas in the inner cylinder cannot be delivered to the gas In the gas joint, when the choke valve is switched to the open position, the choke chamber is opened, and the gas in the inner cylinder can be transported to the gas transmission joint via the air flow passage and the choke chamber. . The built-in gas storage type air pump according to claim 1, wherein the base has a receiving area and an inner tube fixing hole; the bottom end of the inner tube is fixed to the inner tube fixing hole The main air bearing system is connected to the accommodating area. The built-in gas storage type air pump according to claim 1 further includes a switching member pivotally connected to the base and connected with the gas blocking valve, the switching member being subjected to an external force Switching between a gas transfer position and a gas storage position to switch back and forth; when the switch member is in the gas storage position, the gas block valve is interlocked to switch to the closed position, and when the switch member is located at the gas transfer position, the linkage is linked The choke valve is switched to the open position. The built-in gas storage type air pump according to claim 1, wherein the base is formed by a base and a set of top seats connected to the top surface of the base. The built-in gas storage type air pump according to claim 1 further includes a grip that is attached to the top end of the outer tube for the user to hold and close the outer tube. The top. The built-in gas storage type air pump according to claim 1, wherein the non-return device has a fixed body and a check valve, and the fixing system is fixedly coupled to the top end of the inner tube and has a back flow passage connecting the inside of the inner cylinder and the inner portion of the outer cylinder, the check valve being disposed in the counter flow passage of the fixed body to allow gas to be only inside the outer cylinder It enters the inside of the inner cylinder and cannot enter the inside of the outer cylinder from the inside of the inner cylinder. The built-in gas storage type air pump according to claim 1, wherein the gas transmission joint has a gas pipe and a gas nozzle joint, and one end of the gas pipe is connected with the gas guiding seat main body of the gas guiding seat, and the other end is connected. Then connected to the air nozzle joint, the air nozzle joint is used for combining with an external air nozzle to output gas to the air nozzle. The built-in gas storage type air pump according to claim 1 further includes an inner cylinder joint fixed to the base, and the inner cylinder joint is The bottom end of the inner cylinder is connected to fix the bottom end of the inner cylinder to the base. The built-in gas storage type air pump according to claim 1 further includes an inner cylinder joint fixedly disposed on the air guiding seat main body of the air guiding seat, and the inner cylinder A joint is coupled to the bottom end of the inner cylinder to fix the bottom end of the inner cylinder to the base.