TWM524398U - Pneumatic type hydraulic boosting device - Google Patents

Description

Pneumatic hydraulic booster

The present invention is a pneumatic hydraulic pressure boosting device, in particular, a first piston and a second piston are used to perform a left and right reverse action to effectively achieve a pressure doubled. Further, the left pressure chamber can be effectively adjusted by releasing gas. And the pressure inside the right pressure chamber, and through the voltage regulator, the hydraulic pressure lost by the first piston and the second piston in the left and right reverse movements can be compensated, and the pressure relief body can make the low pressure and the high pressure communicate with each other quickly when closed. The effect of liquid pressure release is achieved, thereby effectively achieving a hydraulic pressure boosting device that continuously increases pressure, regulates internal pressure, stabilizes internal pressure, reduces electrical energy consumption, and rapidly releases liquid pressure.

Press, the general hydraulic pump is the power source of the whole hydraulic system. However, according to the conventional hydraulic pump, most of them are driven by an electric motor, which is rotated by the motor to drive the hydraulic pressure generated by the pumping working oil as a hydraulic device. The source of power; however, in order to keep the hydraulic cylinder in the hydraulic system in a fixed position for a long time, it is necessary to maintain the hydraulic pressure in the pipeline, so in the prior art, the hydraulic motor must be kept in the starting state for a long time, but actually The power consumed by the hydraulic motor does not work, but is consumed by heat, vibration and noise. It is very uneconomical. Moreover, when the hydraulic pump is constantly performing internal and external repetitive actions to generate a certain pressure, The hydraulic pump has no external pressure-relieving components, and it is highly likely that the hydraulic pump will be damaged inside; Moreover, when the direction of the hydraulic pump shifts from left to right or to the left to the left, there is also a momentary pressure loss, so that the hydraulic pump does not operate during the process. Stabilization, and thus easy to cause the liquid to help the damage to the Pu Da; so, in order to effectively improve the above shortcomings, the creator created a pneumatic hydraulic booster device, thereby effectively achieving pressure multiplication, adjusting internal pressure and stability The effect of internal pressure to eliminate the shortcomings of conventional products and enhance their efficacy.

The reason is that the main purpose of this creation is to provide a pneumatic hydraulic pressurizing device, which mainly performs the left and right reverse movement through the first piston and the second piston to increase the pressure inside the cylinder, and then the deflation element effectively adjusts the cylinder. The internal pressure, in turn, can effectively stabilize the pressure inside the cylinder through the voltage regulator, and when it is closed, the pressure relief body can make the low pressure and the high pressure intercommunicate and quickly achieve the effect of liquid pressure release, thereby effectively eliminating various disadvantages of the conventional use.

For the purpose of achieving the above, the present invention mainly includes a cylinder body having a left chamber, a right chamber, a left pressing chamber and a right pressing chamber, and a left pressing chamber on one side of the left chamber. A right pressure chamber is disposed on one side of the right chamber, and a partition is disposed on the other side of the left chamber and the other side of the right chamber to isolate the left chamber and the right chamber. A first air port and a second air port are disposed around the cylinder body. a third air port and a fourth air port, wherein the first air port and the third air port are in communication with the left chamber, and the second air port and the fourth air port are connected to the right chamber, and the left chamber is provided a first piston is disposed on a side of the first piston, and a connecting portion is disposed on the other side of the first piston. The connecting portion penetrates the partition to the right chamber to be coupled to a second piston. The other side of the second piston is provided with a right pressing portion, and one end of the left pressing portion penetrates the left chamber to the inside of the left pressing chamber, and one end of the right pressing portion penetrates the right chamber to the inside of the right pressing chamber, the cylinder body One side is provided with a first liquid inlet element, a first liquid outlet element, and a second liquid inlet An element and a second liquid discharge element, wherein the first liquid input element is in communication with the second liquid input element, and the first liquid discharge element is in communication with the second liquid discharge element, the first liquid discharge element is on one side a liquid outlet is provided, and the first liquid inlet member is provided with a liquid inlet port on one side thereof, and one of the first liquid inlet member and the first liquid outlet member is coupled to a pressure relief body, and the pressure relief body is internally The first liquid inlet element and the first liquid discharge element are in communication with each other, and the pressure relief body is internally provided with a barrier body, one end of the pressure relief body is in communication with a transport body, the first liquid discharge element and the second liquid discharge element The discharge element is connected to a voltage stabilizing body; a gas venting element, one end of the gas venting element is connected to the conveying body, and one end of the venting element is connected with a first venting gas and a second venting gas, the deflation element The other end is provided with a first port and a second port, the first port is coupled to the first port and the third port, the second port is connected to the second port and the fourth port The gas port is connected, and one end of the conveying body is connected to a gas pumping device; the first liquid inlet component as described above, The first liquid inlet member, the first liquid outlet member, the second liquid inlet member, and the second liquid outlet member are each provided with a check valve; the pressure relief body as described above, wherein the pressure relief device The body side is further coupled to a first solenoid valve to control whether the pressure relief body is inflated; the air venting element as described above, wherein the air venting element is further coupled to a second solenoid valve to control whether the deflation element is inflated.

1‧‧‧Cylinder

11‧‧‧ left room

12‧‧‧right room

13‧‧‧ Left pressure chamber

14‧‧‧Right pressure chamber

15‧‧‧First port

16‧‧‧second port

17‧‧‧ third port

18‧‧‧ fourth port

2‧‧‧ Compartment

3‧‧‧First Piston

31‧‧‧ Left pressure

32‧‧‧Connecting Department

4‧‧‧second piston

41‧‧‧right pressure

51‧‧‧First liquid input component

511‧‧‧Inlet

52‧‧‧First liquid ejection element

521‧‧‧liquid outlet

53‧‧‧Second liquid input component

54‧‧‧Second fluid discharge component

6‧‧‧Discharge body

61‧‧‧Barrier

7‧‧‧Conveyor

8‧‧‧Power regulator

9‧‧‧Dissipating components

91‧‧‧First gas

92‧‧‧Second gas

93‧‧‧ first mouth

94‧‧‧Second Department

The first picture is a three-dimensional appearance of the creation.

The second picture is a cross-sectional view of the creation.

The third picture is a state diagram of the use of this creation.

The fourth picture is a usage state diagram of the present creation.

The fifth picture is a schematic diagram of the deflated components of this creation.

The sixth picture is a schematic diagram of the deflated components of this creation.

The seventh picture is a schematic diagram of the pressure relief body of this creation.

The eighth figure is a schematic diagram of the pressure relief body of this creation.

The ninth figure is a schematic diagram of the voltage regulator body of the present creation.

Please refer to the first to second figures, which are the three-dimensional appearance and sectional view of the creation. As shown in the figure, the creation mainly includes a cylinder block 1. The cylinder body 1 is provided with a left chamber 11 and a right inside. a chamber 12, a left pressure chamber 13 and a right pressure chamber 14, a left pressure chamber 13 is disposed on one side of the left chamber 11, and a right pressure chamber 14 is disposed on a side of the right chamber 12, the left chamber 11 is on the other side and the right A partition 2 is disposed on the other side of the chamber 12 to isolate the left chamber 11 and the right chamber 12. The cylinder 1 is provided with a first air port 15, a second air port 16, a third air port 17, and a fourth air port 18. The first air port 15 and the third air port 17 are in communication with the left chamber 11. The second air port 16 and the fourth air port 18 are connected to the right chamber 12, and the left chamber 11 is internally provided with a first The piston 3 has a left pressing portion 31 on one side of the first piston 3, and a connecting portion 32 is disposed on the other side of the first piston 3. The connecting portion 32 penetrates the partition 2 to the right chamber 12 to The second piston 4 is connected to the other side, and the second piston 4 is provided with a right pressing portion 41 on the other side. The left pressing portion 31 has one end penetrating the left chamber 11 to the inside of the left pressing chamber 13, and the right pressing portion 41 penetrates the end portion. Right chamber 12 to the right pressure chamber 14 a first liquid inlet member 51, a first liquid outlet member 52, a second liquid inlet member 53, and a second liquid outlet member 54 are disposed on the one side of the cylinder block 1. The second liquid inlet element 53 is in communication with the second liquid discharge element 54. The first liquid discharge element 52 is provided with a liquid outlet 521 on one side. The first liquid inlet member 51 is provided with a liquid inlet port 511, and one of the first liquid inlet member 51 and the first liquid outlet member 52 is coupled to a pressure releasing body 6, and the pressure releasing body 6 is internally connected thereto. The first liquid inlet member 51 and the first liquid outlet member 52 are in communication with each other. The pressure relief body 6 is internally provided with a barrier body 61. One end of the pressure relief body 6 is connected to a transport body 7, and the first outlet is The liquid element 52 and the second liquid discharge element 54 are connected to a voltage stabilizing body 8; a gas venting element 9 having one end connected to the transport body 7, and the air venting element 9 is connected at one end. a venting gas 91 and a second venting gas 92, the venting member 9 is provided with a first mouth portion 93 and a second mouth portion 94 at the other end, the first port portion 93 is connected to the first port 15 and the first portion The third port portion 17 is coupled to the second port portion 16 and the fourth port 18, and the conveying body 7 is coupled to a pumping device at one end; the first liquid inlet member 51 as described above, wherein The first liquid inlet member 51, the first liquid outlet member 52, the second liquid inlet member 53, and the second liquid outlet member 54 are each provided with a check valve; The third to fourth figures are the use state diagrams of the present invention. As shown in the figure, the first liquid inlet member 51 is provided with the check valve inside the second liquid inlet member 53 to make the first inlet. The liquid element 51 and the second liquid input element 53 are only detachable, and the check valve is also provided inside the first liquid discharge element 52 and the second liquid discharge element 54 to make the first liquid discharge The element 52 and the second liquid discharge element 54 can only be out of the way, so that the external air is introduced into the air release element 9 via the air pump, and the gas is sent to the first air port 15 by the air release element 9 and The third port 17 or the second port 16 and the fourth port 18 are such that when the gas is introduced into the first port 15 and the third port 17, the first piston 3 and the second piston 4 are subjected to Pushing the gas so that the first piston 3 and the second piston 4 are right Traversely, when the first piston 3 and the second piston 4 are traversed to the right, a pulling force is generated inside the left pressing chamber 13 so that the second pressing chamber 13 is provided with a second The liquid introducing member 53 is pulled by the pulling force to draw the external liquid into the left pressing chamber 13, and the second liquid introducing member 53 is in communication with the first liquid introducing member 51, and the second liquid introducing member 53 is connected. The liquid inlet port 511 does not allow the external liquid to be introduced. Therefore, when the second liquid inlet member 53 is subjected to the tensile force, the liquid inlet port 511 provided by the first liquid inlet member 51 is externally disposed. After the liquid is introduced, it flows to the second liquid inlet member 53 to flow the liquid into the left pressure chamber 13, and the right pressure chamber 14 is subjected to a pressure due to the rightward pressing portion 41 traversing to the right. After the liquid inside the right pressure chamber 14 is subjected to the pressure thereof, the liquid is discharged through the liquid outlet 521 provided in the first liquid discharge member 52; conversely, when the gas is introduced into the two gas ports 16 and When the fourth port 18 is 18, the first piston 3 and the second piston 4 are subjected to a thrust so that the first piston 3 and the second piston 4 are traversed to the left. When the first piston 3 and the second piston 4 are traversed to the left, the right pressure chamber 14 is subjected to a pulling force, so that the first liquid-inducing element 51 is pulled by the liquid-injecting port 511 to be externally The liquid is introduced into the right pressure chamber 14, and the left pressure chamber 13 is subjected to a pressure to the left by the left pressure portion 21 so that the liquid inside the left pressure chamber 13 is subjected to the pressure thereof. The second liquid discharge member 54 leads the liquid out. However, since the second liquid discharge member 54 does not have the liquid outlet 521, the liquid can be led out. Thus, when the liquid inside the left pressure chamber 13 is subjected to the pressure thereof. Then, after passing through the second liquid discharge element 54, the liquid outlet 521 provided in the first liquid discharge element 52 is further sent to effectively discharge the liquid, thereby passing through the first piston 3. And the second piston 4 is repeatedly actuated by the left and right, and can effectively achieve the effect of continuously increasing the pressure and reducing the power consumption; please refer to the fifth to sixth figures, which is a schematic diagram of the gas venting component of the present invention, such as As shown in the figure, when the gas is introduced into the venting member 9 through the conveying body 7, the gas enters the first port portion 93 and enters the first port 15 and the third port 17 to make the first piston 3 and The second piston 4 is traversed to the right by a thrust. When the first piston 3 and the second piston 4 are traversed to the right, the right pressing portion 41 transmits the gas in the right pressure chamber 14. The second air port 16 and the fourth air port 18 are led out through the second port portion 94, and then the second exhaust gas 92 connected to one end of the air baffle element 9 is vented, and if the gas is reversed When entering the second port portion 94 and further entering the second port 16 and the fourth port 18, the first piston 3 and the second piston 4 are biased to the left and the left button is moved to the left. The portion 31 presses the gas inside the left pressure chamber 13 so that the gas is extracted from the first port 15 and the third port 17 to the first port portion 93, and then the end of the gas venting member 9 is connected thereto. The first vent gas 91 vents its gas, thereby effectively achieving the effect of adjusting the internal pressure of the cylinder; The eighth figure is a schematic diagram of the pressure relief body of the present invention. As shown in the figure, the external gas is transmitted through the conveying body 7 to introduce the pressure releasing body 6 through the air pumping device, and the barrier body 61 transmits the gas. Pushing so that the barrier body 61 isolates the first liquid-inducing element 51 from the first liquid-ejection element 52 so as to be separately operated; however, if the pressure-relief body 6 stops After the gas, the barrier body 61 is retracted to release the communication between the first liquid inlet member 51 and the first liquid outlet member 52, so that the first liquid inlet member 51 and the first liquid outlet member 52 Interconnected to achieve low pressure and high pressure intercommunication and quickly achieve the effect of pressure release; please refer to the ninth figure, which is a schematic diagram of the voltage regulator body of the present invention, as shown in the figure, when the first piston 3 and the second When the piston 4 is actuated to the leftmost or rightmost position, the displacement is required. In the conversion process, the first liquid input element 51 and the second liquid discharge element 52 are connected to each other to cause a voltage loss. Thus, the voltage regulator 8 is disposed on the first liquid input component. 51 and the second liquid discharge member 52 are in communication when the first piston 3 and the second piston 4 are actuated to the leftmost or rightmost portion to cause the first liquid inlet member 51 and the second liquid outlet member 52. When the voltage is lost at the junction, the pressure inside the voltage regulator 8 is passed through to compensate for the loss of pressure between the first liquid inlet member 51 and the second liquid outlet member 52, thereby effectively achieving the effect of stabilizing the internal pressure. In summary, the creation is a pneumatic hydraulic booster that can effectively improve the shortcomings of the conventional hydraulic pump; this creation can produce more advanced, more convenient, more in line with the user's needs, and has indeed met New patent application requirements, 提出 file patent application according to law.

However, the above is only the best embodiment of this creation, and it is not possible to limit the scope of this creation; therefore, the simple equivalent changes and modifications made by the scope of the patent application and the content of the new manual. All should remain within the scope of this creation patent.

1‧‧‧Cylinder

11‧‧‧ left room

12‧‧‧right room

14‧‧‧Right pressure chamber

15‧‧‧First port

16‧‧‧second port

17‧‧‧ third port

18‧‧‧ fourth port

2‧‧‧ Compartment

51‧‧‧First liquid input component

511‧‧‧Inlet

52‧‧‧First liquid ejection element

521‧‧‧liquid outlet

53‧‧‧Second liquid input component

54‧‧‧Second fluid discharge element

6‧‧‧Discharge body

7‧‧‧Conveyor

8‧‧‧Power regulator

9‧‧‧Dissipating components

91‧‧‧First gas

92‧‧‧Second gas

93‧‧‧ first mouth

94‧‧‧Second Department

Claims (8)

A pneumatic hydraulic pressure boosting device includes: a cylinder body having a left chamber, a right chamber, a left pressure chamber and a right pressure chamber, and a left pressure chamber on a side of the left chamber, A right pressure chamber is disposed on one side of the right chamber, and a partition is disposed on the other side of the left chamber and the other side of the right chamber to isolate the left chamber and the right chamber, and a first air port and a second air port are disposed around the cylinder body. a third air port and a fourth air port, wherein the first air port and the third air port are in communication with the left chamber, and the second air port and the fourth air port are connected to the right chamber, and the cylinder body is provided with a side a first liquid inlet element, a first liquid discharge component, a second liquid inlet component and a second liquid discharge component, wherein the first liquid inlet component is in communication with the second liquid inlet component, the first liquid discharge component Corresponding to the second liquid discharge element, the first liquid discharge element is provided with a liquid outlet on one side, and the first liquid inlet element is provided with a liquid inlet on one side; a first piston is disposed on the first piston In the left interior portion, a left pressing portion is disposed on one side of the first piston, and a connecting portion is disposed on the other side of the first piston, and the connecting portion is worn The second body is connected to a second piston, and the second side of the second piston is provided with a right pressing portion, and one end of the left pressing portion penetrates the left chamber to the inside of the left pressing chamber, and the right pressing portion One end penetrates the right chamber to the inside of the right pressure chamber; and a gas venting element, one end of the gas venting element is in communication with a conveying body, and one end of the gas venting element is connected to a first venting gas and a second venting gas. The first end of the component is connected to the first port and the third port, and the second port is connected to the second port and the second port The four ports are connected, and one end of the conveying body is connected to a pumping device. The pneumatic hydraulic pressure boosting device of claim 1, wherein the first liquid inlet member, the first liquid outlet member, the second liquid inlet member, and the second liquid outlet member are each provided with a Check valve. The pneumatic hydraulic pressure boosting device of claim 1, wherein the air venting element is further coupled to a second electromagnetic valve to control whether the deflation element is inflated. A pneumatic hydraulic pressure boosting device includes: a cylinder body having a left chamber, a right chamber, a left pressure chamber and a right pressure chamber, and a left pressure chamber on a side of the left chamber, A right pressure chamber is disposed on one side of the right chamber, and a partition is disposed on the other side of the left chamber and the other side of the right chamber to isolate the left chamber and the right chamber, and a first air port and a second air port are disposed around the cylinder body. a third air port and a fourth air port, wherein the first air port and the third air port are in communication with the left chamber, and the second air port and the fourth air port are connected to the right chamber, and the cylinder body is provided with a side a first liquid inlet element, a first liquid discharge component, a second liquid inlet component and a second liquid discharge component, wherein the first liquid inlet component is in communication with the second liquid inlet component, the first liquid discharge component Corresponding to the second liquid discharge element, the first liquid discharge element is provided with a liquid outlet on one side, and the first liquid inlet element is provided with a liquid inlet on one side; a first piston is disposed on the first piston In the left interior portion, a left pressing portion is disposed on one side of the first piston, and a connecting portion is disposed on the other side of the first piston, and the connecting portion is worn The second body is connected to a second piston, and the second side of the second piston is provided with a right pressing portion, and one end of the left pressing portion penetrates the left chamber to the inside of the left pressing chamber, and the right pressing portion One end penetrates the right chamber to the inside of the right pressure chamber; a pressure relief body is connected to one side of the first liquid inlet element and the first liquid discharge element, and the pressure relief body is internally The first liquid inlet element and the first liquid outlet element are connected The pressure relief body is internally provided with a blocking body, one end of the pressure releasing body is connected with a conveying body, and a gas venting element, one end of the gas venting element is connected with the conveying body, and one end of the venting element is connected with one a first venting gas and a second venting gas, the first venting portion is connected to the first venting port and the third venting port, The second port is connected to the second port and the fourth port, and one end of the conveying body is connected to a pumping device. The pneumatic hydraulic pressure boosting device of claim 4, wherein the first liquid inlet member, the first liquid outlet member, the second liquid inlet member, and the second liquid outlet member are each provided with a Check valve. The pneumatic hydraulic pressure boosting device of claim 4, wherein the pressure relief body is further connected to a first electromagnetic valve to control whether the pressure relief body is inflated. A pneumatic hydraulic pressure boosting device includes: a cylinder body having a left chamber, a right chamber, a left pressure chamber and a right pressure chamber, and a left pressure chamber on a side of the left chamber, A right pressure chamber is disposed on one side of the right chamber, and a partition is disposed on the other side of the left chamber and the other side of the right chamber to isolate the left chamber and the right chamber, and a first air port and a second air port are disposed around the cylinder body. a third air port and a fourth air port, wherein the first air port and the third air port are in communication with the left chamber, and the second air port and the fourth air port are connected to the right chamber, and the cylinder body is provided with a side a first liquid inlet element, a first liquid discharge component, a second liquid inlet component and a second liquid discharge component, wherein the first liquid inlet component is in communication with the second liquid inlet component, the first liquid discharge component Corresponding to the second liquid discharge element, the first liquid discharge element is provided with a liquid outlet on one side, and the first liquid inlet element is provided with a liquid inlet on one side; a first piston, the first piston is disposed in the left interior portion, a left pressing portion is disposed on one side of the first piston, and a connecting portion is disposed on the other side of the first piston, and the connecting portion penetrates the partition to The right chamber is connected to a second piston, and the second side of the second piston is provided with a right pressing portion, and one end of the left pressing portion penetrates the left chamber to the inside of the left pressing chamber, and one end of the right pressing portion penetrates the a venting member, one end of the deflation member is connected to a conveying body, and one end of the venting member is connected to a first venting gas and a second venting gas, and the venting member is connected at the other end The first port portion is connected to the first port and the third port, and the second port is coupled to the second port and the fourth port. One end of the transport body is coupled to an air pumping device; and a voltage stabilizing body is coupled to the first liquid ejecting element and the second liquid ejecting element. The pneumatic hydraulic pressure boosting device of claim 7, wherein the first liquid inlet member, the first liquid outlet member, the second liquid inlet member, and the second liquid outlet member are each provided with a Check valve.