KR20220064233A - Pump using hydraulic cylinder - Google Patents

Abstract

The present invention relates to a pump using a hydraulic cylinder, comprising: a housing including an inner space where fluid can move; a first inflow part arranged at one side of the inner space of the housing and allowing the inner space to communicate with the outside; a second inflow part arranged at the other side of the inner space of the housing and allowing the inner space to communicate with the outside; a first movement part arranged on one side of the inner space of the housing and communicating with the inner space; a second movement part arranged at the other side of the inner space of the housing and communicating with the inner space; a movement pipe allowing the first movement part and the second movement part to communicate with each other; a discharge part included in the movement pipe and discharging fluid having moved to the movement pipe, to the outside; and a cylinder part included in the housing. The cylinder part includes: a cylinder head sliding in the inner space of the housing; a cylinder shaft connected to the cylinder head; and a hydraulic cylinder for sliding the cylinder shaft using hydraulic pressure. Therefore, provided is a pump using a hydraulic cylinder, wherein fluid can be discharged at high pressure while preventing a malfunction of the pump.

Description

Pump using hydraulic cylinder

The present invention relates to a pump using a hydraulic cylinder, and more particularly, to a pump using a hydraulic cylinder capable of discharging fluid at a high pressure while preventing a failure of the pump by operating the pump through a cylinder using hydraulic pressure. It's about the pump.

The pump may provide power to move the fluid, and may discharge the fluid to the outside through the pump. Pumps are used to move various types of fluids in various industrial sites.

In general, a pump provides pressure to move a fluid using a motor and a gear, and the fluid is discharged to the outside by the pressure generated through the motor and the gear. However, the conventional pump using a motor and a gear has the following problems.

The fluid discharged through the pump has a different discharge pressure depending on the intended use. In some cases, it is necessary to discharge the fluid at high pressure depending on the conditions of the industrial site. In this case, the fluid must be discharged by applying a high pressure of the fluid.

However, when a pressure for moving a fluid is provided by using a motor and a gear like a conventional pump, there is a problem in that the motor, the gear, and other parts may fail due to the high pressure.

In addition, when the pressure is transmitted to the fluid through the motor and the gear, the pressure may not be efficiently transmitted due to the durability of the motor and the gear. In particular, when a high pressure is transmitted to the fluid, the motor and the gear may not completely transmit the increased pressure to the fluid.

More specifically, when using a motor and a gear to transmit pressure to a fluid, the high pressure part cannot be completely transferred to the fluid due to the durability of the motor and gear. There is a problem in that it is difficult to spray the fluid.

The present invention relates to solving the above-described problems, and more particularly, using a hydraulic cylinder capable of discharging fluid at high pressure while preventing failure of the pump by operating the pump through a cylinder using hydraulic pressure. It's about the pump.

A pump using a hydraulic cylinder of the present invention for solving the above problems is a pump for discharging a fluid, the housing having an internal space in which the fluid can move; a first inlet portion provided on one side of the inner space of the housing to communicate the inner space with the outside; a second inlet portion provided on the other side of the inner space of the housing to communicate the inner space with the outside; a first moving part provided on one side of the inner space of the housing and communicating with the inner space; a second moving part provided on the other side of the inner space of the housing and communicating with the inner space; a moving pipe for communicating the first moving part and the second moving part; a discharge unit provided in the moving pipe and discharging the fluid moved through the moving pipe to the outside; a cylinder part provided in the housing, wherein the cylinder part includes: a cylinder head slidingly moving in the inner space of the housing; a cylinder shaft connected to the cylinder head; and a hydraulic cylinder for slidingly moving the cylinder shaft through hydraulic pressure.

The pump using the hydraulic cylinder of the present invention for solving the above-described problems may include a cylinder tube provided in the inner space of the housing.

The pump using the hydraulic cylinder of the present invention for solving the above-described problems is coupled to the first inlet, a first connection housing having an inner space, and the second inlet, coupled to the second inlet, having an inner space and a second connection housing, wherein the first connection housing includes a first supply unit communicating the inner space and the outside of the first connection housing, and the first inlet and the inner space of the first connection housing and a first connection part for communicating with the second connection housing, a second supply part for communicating the inner space and the outside of the second connection housing, and the second inlet part and the inside of the second connection housing It may include a second connection part for communicating the space.

The first connection housing of the pump using the hydraulic cylinder of the present invention for solving the above problems may be provided with a first check valve capable of closing or opening between the first supply part and the first connection part. .

The second connection housing of the pump using the hydraulic cylinder of the present invention for solving the above problems may be provided with a second check valve capable of closing or opening between the second supply part and the second connection part. .

The first connection housing and the second connection housing of the pump using the hydraulic cylinder of the present invention for solving the above problems may be communicated with each other through a connection pipe.

The first moving part of the pump using the hydraulic cylinder of the present invention for solving the above problems, a third check valve capable of closing or opening between the inner space of the housing and the first moving part is provided can be

The second moving part of the pump using the hydraulic cylinder of the present invention for solving the above problems is provided with a fourth check valve that can close or open between the inner space of the housing and the first moving part can be

The present invention relates to a pump using a hydraulic cylinder, and has the advantage of preventing failure of the pump as pressure is transmitted to a fluid inside a housing through a cylinder using hydraulic pressure instead of using a motor and a gear.

In addition, the present invention has an advantage in that the fluid can be discharged at a high pressure as the pressure is transmitted to the fluid inside the housing through a cylinder using hydraulic pressure instead of using a motor and a gear.

1 is a perspective view showing a pump using a hydraulic cylinder according to an embodiment of the present invention.
Figure 2 (a) is a perspective view of a housing according to an embodiment of the present invention, Figure 2 (b) is a cross-sectional view of the housing according to an embodiment of the present invention.
3 is an exploded perspective view illustrating a pump using a hydraulic cylinder according to an embodiment of the present invention.
4 is a view showing that the cylinder tube is installed in the inner space of the housing according to the embodiment of the present invention, the cylinder head is installed inside the cylinder tube.
Figure 5 (a) is a view showing the first and second connection housing according to an embodiment of the present invention, Figure 5 (b) is a first and second check valve in the first and second connection housing according to an embodiment of the present invention; It is a diagram showing that is provided.
6 is a view showing that the third check valve and the fourth check valve are provided in the first moving part and the second moving part according to an embodiment of the present invention.
FIG. 7 is a cross-sectional view of FIG. 6 .
8(a) and 8(b) are views illustrating a direction in which a fluid flows according to a movement of a cylinder head according to an embodiment of the present invention.
9 is a view illustrating that the first connection housing and the second connection housing are connected through the connection pipe while the supply pipe is connected to the first connection housing according to an embodiment of the present invention.
10 is a perspective view illustrating a rear surface of a pump using a hydraulic cylinder according to an embodiment of the present invention.

This specification clarifies the scope of the present invention, explains the principles of the present invention, and discloses embodiments so that those of ordinary skill in the art to which the present invention pertains can practice the present invention. The disclosed embodiments may be implemented in various forms.

Expressions such as “comprises” or “may include” that may be used in various embodiments of the present invention indicate the existence of a corresponding disclosed function, operation, or component, and may include one or more additional functions, operations, or Components, etc. are not limited. In addition, in various embodiments of the present invention, terms such as “comprise” or “have” are intended to designate that a feature, number, step, action, component, part, or combination thereof described in the specification is present, It should be understood that this does not preclude the possibility of addition or existence of one or more other features or numbers, steps, operations, components, parts, or combinations thereof.

When a component is referred to as being “connected to and coupled to” another component, the component may be directly connected or coupled to the other component, but between the component and the other component. It should be understood that there may be other new components in the On the other hand, when it is said that an element is "directly connected" or "coupled" to another element, it will be understood that no new element exists between the element and the other element. should be able to

The terms first, second, etc. used herein may be used to describe various components, but the components should not be limited by the terms. The terms are used only for the purpose of distinguishing one component from another.

The present invention relates to a pump using a hydraulic cylinder, and to a pump using a hydraulic cylinder capable of discharging fluid at a high pressure while preventing failure of the pump by operating the pump through the cylinder using hydraulic pressure .

The fluid discharged through the pump using the hydraulic cylinder according to the embodiment of the present invention may be various fluids used in industrial sites, and the pump using the hydraulic cylinder according to the embodiment of the present invention can be used in various industrial sites. there will be Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

Referring to FIG. 1 , the pump using a hydraulic cylinder according to an embodiment of the present invention includes a housing 110 , a first inlet 120 , a second inlet 130 , a first moving part 140 , It includes a second moving part 150 , a moving pipe 160 , a discharge part 161 , and a cylinder part 200 .

The housing 110 is provided with an internal space in which the fluid can move. The housing 110 may be the main body of the pump, and an internal space in which the fluid can move is formed inside the housing 110 while extending in a cylindrical shape.

2 (a) and 2 (b), the housing 110 may be provided with a first inlet portion 120 and a second inlet portion 130 for introducing a fluid into the internal space, the A discharge unit 161 capable of discharging the fluid in the inner space of the housing 110 to the outside may be provided.

The first inlet 120 is provided on one side of the inner space of the housing 110 to communicate the inner space with the outside. The second inlet 130 is provided on the other side of the inner space of the housing 110 to communicate the inner space with the outside.

Referring to FIGS. 2A and 2B , the first inlet 120 may be a hole formed in a side surface of the inner space from one side of the inner space, and the first inlet 120 may be a hole formed in a side surface of the inner space. ) through which an external fluid is introduced into the inner space of the housing 110 .

The second inlet 130 may be a hole formed in a side surface of the inner space from the other side of the inner space, and an external fluid may pass through the second inlet 130 into the inner space of the housing 110 . is introduced into The fluid flows into the inner space of the housing 110 at two points through the first inlet 120 and the second inlet 130 .

The first moving part 140 is provided on one side of the inner space of the housing 110 and communicating with the inner space, and the second moving part 150 is provided on one side of the inner space of the housing 110 . It will communicate with the internal space while being provided.

2A and 2B , the first moving part 140 may be a hole formed in the upper surface of the inner space from one side of the inner space, and the first moving part 140 may be a hole formed in the upper surface of the inner space. ), the fluid disposed in the inner space of the housing 110 may be moved out of the inner space.

The second moving part 150 may be a hole formed in the upper surface of the inner space from the other side of the inner space, and the fluid disposed in the inner space of the housing 110 through the second moving part 150 . may be moved out of the inner space. The fluid disposed in the inner space of the housing 110 at two points through the first moving part 140 and the second moving part 150 may be moved out of the inner space.

Referring to FIGS. 2A and 2B , the moving tube 160 connects the first moving part 140 and the second moving part 150 to each other. The moving pipe 160 may be a pipe connecting the first moving part 140 and the second moving part 150 , and the fluid disposed in the inner space of the housing 110 is the first moving part 140 . ) and the second moving part 150 is moved to the moving pipe 160 .

The discharge part 161 is provided in the moving pipe 160 , and discharges the fluid moved to the moving pipe 160 to the outside. The discharge part 161 may be a hole formed at an intermediate point of the moving pipe 160 , or a hole for communicating the inner space and the outside of the moving pipe 160 .

The fluid disposed in the inner space of the housing 110 moves to the moving pipe 160 through the first moving part 140 and the second moving part 150 , and the fluid moved to the moving pipe 160 . is discharged to the outside through the discharge unit (161).

In more detail, looking at the flow of fluid inside the pump using the hydraulic cylinder according to the embodiment of the present invention, the inside of the housing 110 through the first inlet 120 and the second inlet 130 . The fluid flows into the space, and the fluid introduced into the inner space of the housing 110 moves to the moving tube 160 through the first moving part 140 and the second moving part 150 . The fluid moved to the moving pipe 160 is discharged to the outside through the discharge unit 161 .

Referring to FIG. 1 , one end of the housing 110 may be opened to the outside to install components inside the housing 110 , and one end of the housing 110 open to the outside is a housing stopper 111 . can be closed through

Referring to FIG. 3 , the cylinder part 200 is provided in the housing 110 , and the cylinder part 200 includes a cylinder head 210 , a cylinder shaft 220 , and a hydraulic cylinder 230 . .

The cylinder part 200 is capable of sliding the cylinder head 210 in the inner space of the housing 110 through the hydraulic cylinder 230 , and the cylinder head 210 is the housing 110 . As the reciprocating slide moves in the inner space, the fluid disposed in the inner space of the housing 110 may be discharged to the discharge unit 161 .

The cylinder head 210 slides in the inner space of the housing 110 . The cylinder head 210 may have a plate shape, and may have the same shape as a cross-section of the inner space of the housing 110 . For example, if the inner space of the housing 110 is formed in a cylindrical shape, the cylinder head 210 may be fitted in the inner space of the housing 110 while being formed in a disk shape.

3 and 4 , the pump using a hydraulic cylinder according to an embodiment of the present invention may further include a cylinder tube 240 provided in the inner space of the housing 110 . The cylinder tube 240 may be a tube installed in the inner space of the housing 110 , and the cylinder head 210 may reciprocally slide while being installed in the cylinder tube 240 .

The cylinder shaft 220 is connected to the cylinder head 210 and may extend in a rod shape. The cylinder shaft 220 connects the hydraulic cylinder 230 and the cylinder head 210 , and may be reciprocally slidably moved by the hydraulic cylinder 230 .

When the cylinder shaft 220 reciprocates by the hydraulic cylinder 230 , the cylinder head 210 coupled to one side of the cylinder shaft 220 slides reciprocally in the inner space of the housing 110 . be able to move

3 and 4 , the cylinder part 200 of the pump using a hydraulic cylinder according to an embodiment of the present invention may further include a cylinder housing 250 coupled to the housing 110 . The cylinder housing 250 may be a housing capable of supporting the configuration of the cylinder part 200 , and the cylinder shaft 220 may extend into the housing 110 while being supported by the cylinder housing 250 . there is.

The hydraulic cylinder 230 can slide the cylinder shaft 220, and can slide the cylinder shaft 220 using the pressure of a fluid. The hydraulic cylinder 230 is capable of injecting a fluid inside or discharging a fluid to the outside, which can slide or move the cylinder shaft 220 while pushing or pulling the cylinder shaft 220 with the pressure of the fluid. will be.

5 (a) and 5 (b), the pump using the hydraulic cylinder according to the embodiment of the present invention may further include a first connection housing 170 and a second connection housing 180. . The first connection housing 170 is coupled to the housing 110 at the point of the first inlet 120 , and the second connection housing 180 is connected to the housing at the point of the second inlet 130 . It is bound to (110).

The first connection housing 170 and the second connection housing 180 may receive a fluid from the outside and introduce the fluid into the inner space of the housing 110 , the first connection housing 170 and A first check valve 173 and a second check valve 183 may be provided in the second connection housing 180 .

The first connection housing 170 and the second connection housing 180 supply fluid to the inner space of the housing 110 through the first check valve 173 and the second check valve 183 . You can control the timing.

The first connection housing 170 is coupled to the first inlet part 120 , and the first connection housing 170 includes a first supply part 171 , a first connection part 172 , and a first check valve ( 173).

The first connection housing 170 has a space in which a fluid can be stored therein, and the first supply unit 171 communicates with the interior space of the first connection housing 170 and the outside. The first supply unit 171 may be a hole for communicating the inner space and the outside of the first connection housing 170 , and the fluid flows through the first supply unit 171 inside the first connection housing 170 . can enter the space.

The first connection part 172 communicates with the first inlet part 120 and the inner space of the first connection housing 170 . The first connection part 172 may be a hole for communicating the first inlet part 120 and the internal space of the first connection housing 170 , and the fluid stored in the first connection housing 170 is the It moves to the first inlet part 120 through the first connection part 172 .

Referring to FIG. 5( b ), the first check valve 173 is provided in the inner space of the first connection housing 170 , and according to the pressure of the inner space of the housing 110 , the first supply unit ( 171) and the first connection part 172 may be closed or opened.

According to one embodiment, the first check valve 173 may include a ball and a spring. When pressure is applied from the inner space of the housing 110 to the first connection housing 170 , the beads of the first check valve 173 are moved between the first supply unit 171 and the first connection unit 172 . By blocking the space, the gap between the first supply part 171 and the first connection part 172 is closed.

Conversely, when pressure is applied from the first connection housing 170 to the inner space of the housing 110 , the beads of the first check valve 173 are floated and the first supply unit 171 and the first A space is formed between the connection parts 172 so that the space between the first supply part 171 and the first connection part 172 is opened.

Here, the closing between the first supply part 171 and the first connection part 172 means that the fluid does not move from the first supply part 171 to the first connection part 172, and the first connection part 172 is closed. The opening between the first supply part 171 and the first connection part 172 means that the fluid can move from the first supply part 171 to the first connection part 172 .

In addition, when the pressure is applied to the first connection housing 170 from the inner space of the housing 110 , the cylinder head 210 in the inner space of the housing 110 is connected to the first connection housing 170 and When it moves in the direction of the first inlet 120 , it means that the inner space of the housing 110 is compressed while applying pressure to the first connection housing 170 .

Conversely, when pressure is applied from the first connection housing 170 to the inner space of the housing 110 , the cylinder head 210 in the inner space of the housing 110 moves to the first connection housing 170 . and when it moves in the opposite direction of the first inlet 120 , the inner space of the housing 110 expands and pressure is applied from the first connection housing 170 to the inner space of the housing 110 . it means.

The first check valve 173 has been described as including a bead and a spring, but is not limited thereto, and the first check valve 173 is provided between the first supply unit 171 and the first connection unit 172 . As long as it can be closed or opened, it can consist of various types of valves.

Referring to FIG. 1 , an upper portion of the first connection housing 170 may be opened to the outside for installation of the first check valve 173 , and the upper portion of the first connection housing 170 opened to the outside is It can be closed through the first connection housing stopper 174 .

The second connection housing 180 is coupled to the second inlet 130 , and the second connection housing 180 includes a second supply unit 181 , a second connection unit 182 , and a second check valve ( 183).

The second connection housing 180 has a space in which a fluid can be stored, and the second supply unit 181 communicates with the interior space of the second connection housing 180 and the outside. The second supply unit 181 may be a hole for communicating the inner space and the outside of the second connection housing 180 , and a fluid flows through the second supply unit 181 inside the second connection housing 180 . can enter the space.

The second connection part 182 communicates with the second inlet part 130 and the inner space of the second connection housing 180 . The second connection part 182 may be a hole for communicating the second inlet part 130 and the inner space of the second connection housing 180 , and the fluid stored in the second connection housing 180 is the It moves to the second inlet 130 through the second connection part 182 .

Referring to FIG. 5B , the second check valve 183 is provided in the inner space of the second connection housing 180 , and according to the pressure of the inner space of the housing 110 , the second supply unit ( 181) and the second connection part 182 may be closed or opened.

According to one embodiment, the second check valve 183 may include a ball and a spring. When pressure is applied from the inner space of the housing 110 to the second connection housing 180 , the beads of the second check valve 183 are moved between the second supply unit 181 and the second connection unit 182 . By blocking the space, the gap between the second supply part 181 and the second connection part 182 is closed.

Conversely, when pressure is applied from the second connection housing 180 to the inner space of the housing 110 , the beads of the second check valve 183 are floated and the second supply unit 181 and the second A space is formed between the connection parts 182 so that the space between the second supply part 181 and the second connection part 182 is opened.

Here, the closing between the second supply part 181 and the second connection part 182 means that the fluid does not move from the second supply part 181 to the second connection part 182, and the first The opening between the second supply part 181 and the second connection part 182 means that the fluid can move from the second supply part 181 to the second connection part 182 .

In addition, when the pressure is applied from the inner space of the housing 110 to the second connection housing 180 , the cylinder head 210 in the inner space of the housing 110 is connected to the second connection housing 180 and When it moves in the direction of the second inlet 130 , it means that the inner space of the housing 110 is compressed while applying pressure to the second connection housing 180 .

Conversely, when pressure is applied from the second connection housing 180 to the inner space of the housing 110 , the cylinder head 210 in the inner space of the housing 110 moves to the second connection housing 180 . and when it moves in the opposite direction of the second inlet 130 , the inner space of the housing 110 expands and pressure is applied from the second connection housing 180 to the inner space of the housing 110 . it means.

The second check valve 183 has been described as including beads and a spring, but is not limited thereto, and the second check valve 183 is provided between the second supply unit 181 and the second connection unit 182 . As long as it can be closed or opened, it can consist of various types of valves.

Referring to FIG. 1 , an upper portion of the second connection housing 180 may be opened to the outside for installation of the second check valve 183 , and the upper portion of the second connection housing 180 opened to the outside is It can be closed through the second connection housing stopper 184 .

6 and 7 , the first moving part 140 according to an embodiment of the present invention has a space between the inner space of the housing 110 and the first moving part 140 that can be closed or opened. A third check valve 141 may be provided, and the second moving part 150 has a fourth check capable of closing or opening between the inner space of the housing 110 and the second moving part 150 . A valve 151 may be provided.

Referring to FIGS. 6 and 7 , the third check valve 141 is provided in the first moving part 140 , and according to the pressure of the internal space of the housing 110 , the inside of the housing 110 . It is possible to close or open a space between the space and the first moving part 140 .

According to one embodiment, the third check valve 141 may include a ball and a spring. When pressure is applied from the inner space of the housing 110 to the first moving part 140 , the ball of the third check valve 141 floats and the inner space of the housing 110 and the first movement A space is formed between the parts 140 , and the space between the inner space of the housing 110 and the first moving part 140 is opened by the space.

Conversely, when pressure is applied from the first moving part 140 to the inner space of the housing 110 , the beads of the third check valve 141 move to the inner space of the housing 110 and the first movement. It closes while blocking the space between the parts 140 .

Here, the closing between the inner space of the housing 110 and the first moving part 140 means that the fluid does not move from the inner space of the housing 110 to the first moving part 140 . and the opening between the inner space of the housing 110 and the first moving part 140 means that the fluid can move from the inner space of the housing 110 to the first moving part 140 . do.

In addition, when pressure is applied from the inner space of the housing 110 to the first moving part 140 , the cylinder head 210 in the inner space of the housing 110 moves to the first moving part 140 . direction, it means that pressure is applied to the first moving part 140 while the inner space of the housing 110 is compressed.

Conversely, when pressure is applied from the first moving part 140 to the inner space of the housing 110 , the cylinder head 210 moves into the first moving part 140 in the inner space of the housing 110 . When moving in the opposite direction to , it means that pressure is applied from the first moving part 140 to the inner space of the housing 110 while the inner space of the housing 110 is expanded.

The third check valve 141 has been described as including beads and a spring, but is not limited thereto, and the third check valve 141 includes the inner space of the housing 110 and the first moving part 140 . As long as the gap can be closed or opened, it can be made of various types of valves.

Referring to FIG. 1 , the upper part of the first moving part 140 may be opened to the outside for installation of the third check valve 141 , and the upper part of the first moving part 140 opened to the outside is It may be closed through the first moving part stopper 142 .

Referring to FIGS. 6 and 7 , the fourth check valve 151 is provided in the second moving part 150 , and according to the pressure of the internal space of the housing 110 , the inside of the housing 110 . It is possible to close or open a space between the space and the second moving part 150 .

According to an embodiment, the fourth check valve 151 may include a bead and a spring. When pressure is applied from the inner space of the housing 110 to the second moving part 150 , the ball of the fourth check valve 151 is floated and the inner space of the housing 110 and the second movement A space is formed between the parts 150 , and the space between the inner space of the housing 110 and the second moving part 150 is opened by the space.

Conversely, when pressure is applied from the second moving part 150 to the inner space of the housing 110 , the beads of the fourth check valve 151 move to the inner space of the housing 110 and the second movement. It is closed while blocking the space between the parts 150 .

Here, the closing between the inner space of the housing 110 and the second moving part 150 means that the fluid does not move from the inner space of the housing 110 to the second moving part 150 . and the opening between the inner space of the housing 110 and the second moving part 150 means that the fluid can move from the inner space of the housing 110 to the second moving part 150 . do.

In addition, when the pressure is applied from the inner space of the housing 110 to the second moving part 150 , the cylinder head 210 in the inner space of the housing 110 moves in the direction of the second moving part 150 . When moving to , it means that pressure is applied to the second moving part 150 while the inner space of the housing 110 is compressed.

Conversely, when pressure is applied from the second moving part 150 to the inner space of the housing 110 , the cylinder head 210 moves into the second moving part 150 in the inner space of the housing 110 . When it moves in the opposite direction of , it means that pressure is applied from the second moving part 150 to the inner space of the housing 110 while the inner space of the housing 110 is expanded.

The fourth check valve 151 has been described as including beads and a spring, but is not limited thereto, and the fourth check valve 151 includes the inner space of the housing 110 and the second moving part 150 . As long as the gap can be closed or opened, it can be made of various types of valves.

Referring to FIG. 1 , the upper part of the second moving part 150 may be opened to the outside for installation of the fourth check valve 151 , and the upper part of the second moving part 150 opened to the outside is It may be closed through the second moving part stopper 152 .

1 and 3 , the discharge unit stopper 162 may be provided on the upper portion of the discharge unit 161 . The discharge part stopper 162 may block the discharge part 161 when the discharge part 161 is not in use. In addition, a hole communicating with the discharge unit 161 may be formed in the discharge part stopper 162 , and a pump may be used while the discharge pipe is connected to the hole.

Hereinafter, an operation process of a pump using a hydraulic cylinder according to an embodiment of the present invention will be described in detail. In the following description, one side of the housing 110 is the left direction of FIGS. 8(a) and 8(b) in which the first inlet part 120 and the first moving part 140 are disposed, and the housing The other side of 110 is the right direction of FIGS. 8(a) and 8(b) in which the second inlet 130 and the second moving part 150 are disposed.

In addition, one end of the housing 110 is the left end of FIGS. 8(a) and 8(b) where the first inlet part 120 and the first moving part 140 are disposed, and the housing 110 ) is the right end of FIGS. 8(a) and 8(b) where the second inlet 130 and the second moving part 150 are disposed.

8 (a) and 8 (b), the cylinder head 210 by the hydraulic cylinder 230 of the cylinder part 200 reciprocally slides in the inner space of the housing 110 do.

When the cylinder head 210 moves in the direction of one end of the housing 110 as shown in FIG. 8A , the first check valve 173 provided in the first connection housing 170 is closed, and the second The fluid does not move through the first inlet 120 .

At the same time, as the third check valve 141 provided in the first moving part 140 is opened, the fluid provided between one end of the housing 110 and the cylinder head 210 moves through the first movement. It is moved to the moving pipe 160 through the part 140 . The fluid moved to the moving pipe 160 is discharged to the outside through the discharge unit 161 .

At this time, as the fourth check valve 151 provided in the second moving part 150 is closed, the fluid of the moving pipe 160 cannot move through the second moving part 150 . In addition, as the second check valve 183 provided in the second connection housing 180 is opened, the fluid flows into the housing 110 through the second inlet 130 , the housing ( A fluid is filled between the other end of the 110 and the cylinder head 210 .

When the cylinder head 210 moves in the other end direction of the housing 110 as shown in FIG. 8(b), the second check valve 183 provided in the second connection housing 180 is closed, and the second check valve 183 is closed. The fluid does not move through the second inlet 130 .

At the same time, as the fourth check valve 151 provided in the second moving part 150 is opened, the fluid provided between the other end of the housing 110 and the cylinder head 210 moves through the second movement. It is moved to the moving pipe 160 through the part 150 . The fluid moved to the moving pipe 160 is discharged to the outside through the discharge unit 161 .

At this time, while the third check valve 141 provided in the first moving part 140 is closed, the fluid of the moving pipe 160 cannot move through the first moving part 140 . In addition, as the first check valve 173 provided in the first connection housing 170 is opened, the fluid flows into the housing 110 through the first inlet 120 , the housing ( A fluid is filled between one end of the 110 and the cylinder head 210 .

As such, when the cylinder head 210 reciprocates and slides in the inner space of the housing 110 through the hydraulic cylinder 230 , the fluid can be discharged through the discharge unit 161 .

That is, when the fluid flows into the inner space of the housing 110 through the second inlet 130 as shown in FIG. 8( a ), the fluid between one end of the housing 110 and the cylinder head 210 . is discharged to the outside through the first moving unit 140 - the moving pipe 160 - the discharge unit 161.

When the fluid flows into the inner space of the housing 110 through the first inlet 120 as shown in FIG. 8(b), the fluid between the other end of the housing 110 and the cylinder head 210 is 2 The moving part 150 - the moving pipe 160 - is discharged to the outside through the discharge unit (161).

As such, in the pump using a hydraulic cylinder according to an embodiment of the present invention, both when the cylinder head 210 moves in the direction of one end of the housing 110 and when the pump moves in the direction of the other end of the housing 110 , the discharge It is possible to discharge the fluid to the part 161 .

Referring to FIG. 9 , the first supply part 171 of the first connection housing 170 may be connected to a supply pipe 176 to which a fluid is supplied, and the first connection housing 170 through the supply pipe 176 . ) to supply fluid. The fluid supplied to the first connection housing 170 is supplied to the inner space of the housing 110 through the first inlet 120 .

According to an embodiment of the present invention, the first connection housing 170 and the second connection housing 180 may communicate with each other through a connection pipe 175 . Referring to FIG. 9 , the first connection housing 170 receives a fluid from the supply pipe 176 , and the fluid supplied to the first connection housing 170 passes through the second connection pipe 175 . While moving to the connection housing 180 , the fluid is supplied to the second connection housing 180 . The fluid supplied to the second connection housing 180 is supplied to the inner space of the housing 110 through the second inlet 130 .

However, the present invention is not limited thereto, and the second supply unit 181 of the second connection housing 180 may be connected to a separate supply pipe to which a fluid is supplied. The second connection housing 180 may be supplied with a fluid through a separate supply pipe, and the fluid supplied to the second connection housing 180 is supplied to the housing 110 through the second inlet 130 . supplied to the interior space. Through the above method, the pump using the hydraulic cylinder according to the embodiment of the present invention can discharge the fluid to the outside while receiving the fluid.

A plurality of the first inlet 120 and the second inlet 130 according to an embodiment of the present invention may be provided.

Referring to FIG. 10 , the first inlet 120 may be provided on one side of the housing 110 , and may be provided on the front and rear surfaces of one side of the housing 110 . Also, the second inlet 130 may be provided on the other side of the housing 110 , and may be provided on the front and rear surfaces of the other side of the housing 110 .

In this way, when the first inlet 120 and the second inlet 130 are provided on the front and rear surfaces of the housing 110, respectively, the user can use the first inlet 120 and the second inlet as needed. The pump can be used by coupling the first connection housing 170 and the second connection housing 180 to the second inlet 130 .

Referring to FIG. 10 , a connection housing stopper 190 may be coupled to a point where the first connection housing 170 and the second connection housing 180 are not coupled, and through the connection housing stopper 190 . It is possible to block the unused first inlet 120 and the second inlet 130 .

Here, the front surface of the housing 110 is the surface to which the first connection housing 170 and the second connection housing 180 are coupled in FIG. 1 , and the rear surface of the housing 110 is the connection housing in FIG. 10 . The stopper 190 may be a combined surface.

The pump using the hydraulic cylinder according to the embodiment of the present invention described above has the following effects.

Unlike a conventional pump using a motor and a gear, the pump using a hydraulic cylinder according to an embodiment of the present invention transmits pressure to the fluid inside the housing through a cylinder using hydraulic pressure to prevent failure of the pump. There are advantages.

In particular, the pump using the hydraulic cylinder according to the embodiment of the present invention has the advantage of preventing failure of the motor, gear, and other parts due to high-pressure fluid as the motor and gear are not used. there is.

In addition, the pump using a hydraulic cylinder according to an embodiment of the present invention has the advantage of discharging the fluid at a high pressure as the pressure is transmitted to the fluid inside the housing through a cylinder using hydraulic pressure instead of using a motor and a gear There is this.

Specifically, the conventional pump using a motor and a gear has a problem in that it cannot completely transmit a high pressure of the fluid due to the durability of the motor and the gear, but the pump using the hydraulic cylinder according to the embodiment of the present invention uses a hydraulic cylinder. Even if the pressure of the fluid increases as it is used, there is an advantage in that the fluid can be discharged at a high pressure by completely delivering the increased pressure of the fluid.

As described above, the present invention has been described with reference to one embodiment shown in the drawings, but it will be understood that this is merely exemplary and that various modifications and variations of embodiments are possible therefrom by those skilled in the art. . Therefore, the true technical protection scope of the present invention should be determined by the technical spirit of the appended claims.

110...housing 111...housing cap
120...First inlet 130...Second inlet
140... 1st moving part 141... 3rd check valve
142...1st moving part stopper 150...2nd moving part
151...4th check valve 152...2nd moving part stopper
160...Movement tube 161...Discharge part
162...Exhaust stopper 170...First connection housing
171...First supply unit 172...First connection unit
173...1st check valve 174...1st connection housing cap
175...connector 176...supply pipe
180...Second connection housing 181...Second supply unit
182...First connection 183...First check valve
184...1st connection housing stopper 190...connection housing stopper
200...Cylinder part 210...Cylinder head
220...cylinder shaft 230...hydraulic cylinder
240...cylinder tube 250...cylinder housing

Claims (8)

A pump for discharging a fluid, the pump comprising:
a housing having an internal space through which a fluid can move;
a first inlet portion provided on one side of the inner space of the housing to communicate the inner space with the outside;
a second inlet portion provided on the other side of the inner space of the housing to communicate the inner space with the outside;
a first moving part provided on one side of the inner space of the housing and communicating with the inner space;
a second moving part provided on the other side of the inner space of the housing and communicating with the inner space;
a moving pipe for communicating the first moving part and the second moving part;
a discharge unit provided in the moving pipe and discharging the fluid moved through the moving pipe to the outside;
It includes; a cylinder part provided in the housing;
The cylinder part,
a cylinder head slidably moving in the inner space of the housing;
a cylinder shaft connected to the cylinder head;
A pump using a hydraulic cylinder, comprising: a hydraulic cylinder that slides the cylinder shaft through hydraulic pressure. According to claim 1,
A pump using a hydraulic cylinder, characterized in that it includes a cylinder tube provided in the inner space of the housing. According to claim 1,
a first connection housing coupled to the first inlet and having an internal space;
It is coupled to the second inlet and includes a second connection housing having an internal space,
The first connection housing,
A first supply unit for communicating the inner space and the outside of the first connection housing, and a first connection unit for communicating the first inlet and the inner space of the first connection housing,
The second connection housing,
A hydraulic cylinder comprising: a second supply part for communicating the inner space of the second connection housing with the outside; and a second connection part for communicating the second inlet part with the inner space of the second connection housing; the pump you use. 4. The method of claim 3,
The first connection housing, the pump using a hydraulic cylinder, characterized in that provided with a first check valve that can close or open between the first supply part and the first connection part. 4. The method of claim 3,
The second connection housing, the pump using a hydraulic cylinder, characterized in that provided with a second check valve that can close or open between the second supply part and the second connection part. 4. The method of claim 3,
The pump using a hydraulic cylinder, characterized in that the first connection housing and the second connection housing communicate with each other through a connection pipe. According to claim 1,
The first moving part, the pump using a hydraulic cylinder, characterized in that provided with a third check valve that can close or open between the inner space of the housing and the first moving part. According to claim 1,
The second moving part, the pump using a hydraulic cylinder, characterized in that provided with a fourth check valve that can close or open between the inner space of the housing and the first moving part.

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