KR100888024B1 - Grease pumping unit and feeder including the same - Google Patents

Abstract

The present invention relates to a grease pumping unit and a grease supply apparatus including the same, which can improve grease pumping efficiency and improve grease supplyability.

The grease supply apparatus according to the present invention includes a grease reservoir in which grease is stored; A housing having a receiving space for receiving the grease of the grease reservoir; A plurality of grease pumping units radially installed at the housing side to pump grease in the grease reservoir; A plurality of supply pipes individually connected to the respective grease pumping unit sides; An eccentric cam eccentrically rotating in the center of the housing and driving the plurality of grease pumping units; And a driving motor for rotating the eccentric cam.

Description

Grease pumping unit and feeder including same {GREASE PUMPING UNIT AND GREASE FEEDING APPARATUS}

The present invention relates to a grease pumping unit and a grease supply apparatus including the same, which can improve grease pumping efficiency and improve grease supplyability.

Grease is a kind of lubricating oil used in semi-solid state. It is mainly used in the part where lubricating oil is difficult to be injected. It shows liquid state during movement, and when it stops, it loses its mobility and becomes semi-solid state.

These greases have a variety of products depending on their use and composition. Most of these greases are prepared by adding a metal soap and a small amount of water to a liquid mineral oil-based lubricant and mixing them in a colloidal state. When friction deformation is caused by the movement of the machine or the temperature rises, oil in the inside leaks outwardly, and it is used in the friction part where the load of the rotating shaft against the bearing is large, and the part which is difficult to refuel. Recently, synthetic oils such as silicone oil are also used instead of mineral oils, and fatty acid salts such as calcium, aluminum, and lithium are frequently used for metal soaps.

On the other hand, such grease should be properly supplied automatically or manually where lubrication is required in a vehicle manufacturing facility or various production facilities such as a steel mill, etc., and a grease supply device for supplying such grease is provided by a pumping unit from a grease reservoir. It was configured to pump and to supply this pumped grease to a plurality of lubrication points. In particular, a conventional grease supply device is configured to alternately supply grease to a plurality of lubrication points by switching of a plurality of supply pipes, and in particular, for proper distribution of a plurality of switching valves and greases for switching a plurality of supply pipes. Dosing valve is installed.

However, such a conventional grease supply device has a disadvantage in that the structure of the pumping unit is complicated to increase the manufacturing cost as well as lower the pumping efficiency and lower the grease supply efficiency.

In addition, the conventional grease supply device requires a plurality of components such as a plurality of supply pipes, a switching valve, a distribution valve, and the layout thereof is very complicated, which makes the installation work cumbersome and expensive. There was a drawback that the supply efficiency of supplying the pumped grease to each lubrication point is extremely reduced.

The present invention has been made in view of the above, it is easy to assemble and disassemble due to the simplified structure, and to provide a grease pumping unit that can not only reduce the manufacturing cost but also maximize the pumping efficiency. Its purpose is to.

In addition, the present invention implements a simple grease supply structure to supply grease directly from the grease reservoir to each lubrication point, thereby simplifying the installation work and reducing the installation cost, and also improving the supply efficiency of the pumped grease. The aim is to provide a grease supply that can be used.

The grease pumping unit of the present invention for achieving the above object,

A first body having a sleeve structure and having an outlet on one outer circumferential surface thereof;

A pump cylinder installed through one end of the first body and having an inlet;

A stud installed through the other end opening of the first body to close the other end opening and having an accommodation space accommodating grease therein, the accommodation space communicating with an outlet of the first body;

A first piston movably installed through one end of the pump cylinder;

A second piston movably installed adjacent to the first piston and movably installed through the other opening of the pump cylinder;

An eccentric cam for reciprocating the first piston by eccentric rotation;

A second body having a discharge port in communication with an outlet of the first body;

A check valve disposed in the second body to prevent backflow of grease; And

And a return spring interposed between the stud and the second piston.

The eccentric cam has a catch ring fixed to the outside thereof, the catch ring is formed with a stepped portion, and the free end of the first piston is connected to the stepped portion of the catch ring.

The second body has a tapered flow path at a portion adjacent to the outlet of the first body, and the check valve is installed in the tapered flow path.

The check valve is a valve body having a tapered portion for opening and closing the tapered flow path of the second body, a sealing member disposed on the tapered portion of the valve body, a clamp ring for fixing the sealing member to the valve body side, the second body The adjustment nut is installed on the discharge port side of the adjustable height, and includes a spring interposed between the clamp ring and the adjustment nut.

The grease supply apparatus according to the present invention,

A grease reservoir with grease;

A housing having a receiving space for receiving the grease of the grease reservoir;

A plurality of grease pumping units radially installed at the housing side to pump grease in the grease reservoir;

A plurality of supply pipes individually connected to the respective grease pumping unit sides;

An eccentric cam eccentrically rotating in the center of the housing and driving the plurality of grease pumping units; And

It includes a drive motor for rotating the eccentric cam.

The grease pumping unit may include a first body having a sleeve structure and having an outlet at one outer circumferential surface thereof; A pump cylinder installed through one end of the first body and having an inlet; A stud installed through the other end opening of the first body to close the other end opening and having an accommodation space accommodating grease therein, the accommodation space communicating with an outlet of the first body; A first piston movably installed through one end of the pump cylinder; A second piston movably installed adjacent to the first piston and movably installed through the other opening of the pump cylinder; An eccentric cam for reciprocating the first piston by eccentric rotation; A second body having a discharge port in communication with an outlet of the first body; A check valve disposed in the second body to prevent backflow of grease; And a return spring interposed between the stud and the second piston.

The present invention as described above, because of the simplified structure is very easy to assemble and disassembly, there is an advantage that can not only reduce the manufacturing cost but also maximize the pumping efficiency.

Further, the present invention not only facilitates the installation work and reduces the installation cost by applying a simpler grease supply layout, but also has the effect of improving the supply efficiency of the pumped grease.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 to 7 illustrate a grease pumping unit and a grease supply apparatus including the same according to an embodiment of the present invention.

As shown in FIG. 1, the grease supply device of the present invention is provided with a grease reservoir 210 in which grease is stored, a housing 220 in which the grease reservoir 210 is installed, and eccentrically rotatable in the center of the housing 220. An eccentric cam 230, a drive unit 240 for rotating the eccentric cam 230, a plurality of grease pumping unit 100 for pumping grease by the eccentric rotation of the eccentric cam 230.

The grease reservoir 210 has grease stored therein, and a detachable cover 211 is provided on the top thereof, and the grease reservoir 210 can be recharged after opening the cover 211.

The grease reservoir 210 is coupled to the top of the housing 220 via a connector 224 having a communication hole 224a.

The housing 220 has a grease accommodating space 221 for accommodating grease therein, and the grease accommodating space 221 communicates with the inside of the grease reservoir 210 through the communication hole 224a of the connector 224. do.

In the housing 220, a plurality of mounting holes 223 are formed on the side wall of the housing 220, and a grease pumping unit 100 is installed in each of the mounting holes 223.

In particular, as the plurality of installation holes 223 are radially formed on the side wall surface of the housing 220, the plurality of grease pumping units 100 are radially disposed on the side wall of the housing 220 as shown in FIG. 2. It can be made of a structure.

Each of the grease pumping units 100, the discharge port 25 side of the supply pipe 250 may be separately installed, whereby a plurality of supply pipes 250 may be disposed radially in the housing 220 Thus, the grease pumped by each grease pump 100 may be individually supplied to the lubrication point through each supply pipe 250.

In particular, the present invention is due to the structure in which the plurality of grease pumping unit 100 radially disposed on the housing 220 side, as the grease pumped by the grease pumping unit 100 directly supplied to a plurality of lubrication points In addition, the present invention does not require a separate switching valve and a dispensing valve as compared with the related art, and the layout of the supply pipe is simple, so that the installation work is simple and the installation cost can be reduced.

The eccentric cam 230 is rotatably installed in the center of the housing 220, and each grease pumping unit 100 is located in the receiving space 221 of the housing 220 by the eccentric rotation of the eccentric cam 230. Grease may be pumped to the supply pipe 250.

The eccentric cam 230 may be in direct contact with or indirectly connected to the first piston 31 of the grease pumping unit 100, thereby reciprocating the first piston 31 by the eccentric rotation of the eccentric cam 230. Can induce movement.

More specifically, as shown in FIG. 3, the eccentric cam 230 has first and second bearings 231 and 232 disposed on the outer circumferential surface thereof in the axial direction, and the first and second bearings 231 and 232. A catch ring 233 is interposed therebetween, and the catch ring 233 may have an annular step 233a on which an engaging jaw 31c of the first piston 31 to be described later is caught. . The stepped jaw 233a of the catch ring 233 and the engaging jaw 31c of the first piston 31 are engaged with each other, and the eccentric cam (ie) is connected by the connection structure of the catch ring 233 and the first piston 31. The eccentric rotational motion of 230 is converted into a reciprocating motion of the first piston 21.

The drive unit 240 is configured to eccentrically rotate the eccentric cam 230, the drive motor 241, the transmission unit 242 for transmitting the driving force of the drive motor 241, the rotation by the transmission unit 242 And a shaft 243.

As illustrated in FIG. 1, the electric unit 242 includes a worm gear 242a provided on the output shaft 241a of the drive motor 241 and a worm wheel 242b meshed with the worm gear 242a side. The worm wheel 242b is coupled to the shaft 243 by a key 243a or the like. As a result, the rotational force of the driving motor 241 is transmitted in the direction orthogonal to rotate the shaft 243.

The shaft 243 is eccentrically positioned from the center of the eccentric cam 230, whereby the eccentric cam 230 rotates eccentrically with respect to the center of the shaft 243.

In addition, a stirring member 245 is provided at an upper end of the shaft 243, and the stirring member 245 is positioned in the grease reservoir 210 and rotates with the shaft 243 to stir the grease in the grease reservoir 210. As a result, oil separation in the grease can be prevented and the high viscosity of the grease can be kept constant.

The grease pumping unit 100 is movable in the pump body 15 and the pump cylinder 15 coupled to the inside of the first body 10, the first body 10 of the sleeve structure, as shown in FIG. 4. And first and second pistons 31 and 32 and second bodies 20 coupled to the outside of the first body 10.

The first body 10 has an opening at both ends thereof, and has a sleeve structure in which a hollow part is formed, and has an outlet 11 at one outer peripheral surface thereof.

The pump cylinder 15 is fixed to one end opening of the first body 10 by screwing or the like, and the other end of the first body 10 is coupled with a stud 50 so that the other end of the first body 10 is closed. do. And, the stud 50 is coupled to the position adjustment by the adjustment nut 55, the position of the stud 50 on the other end of the first body 10 by adjusting the adjustment nut 55 by screwing it Can be adjusted and coupled, whereby the discharge pressure of the grease pumping unit 100 is adjustable.

The pump cylinder 15 is fixedly installed inside the first body 10 by screwing or the like, and the outer diameter of the pump cylinder 15 and the inner diameter of the first body 10 are sealed by the packing 15f or the like.

The pump cylinder 15 has a tubular structure in which both ends are open, and has a hollow portion 15a therein, in which the first and second pistons 31 and 32 are movable. The inlet port 15b is formed on one side outer circumferential surface of the pump cylinder 15.

The first piston 31 is installed to move in and out of the hollow portion 15a of the pump cylinder 15 through the opening of one end of the pump cylinder 15, and the second piston 32 of the pump cylinder 15 It is installed to move in and out of the hollow portion 15a of the pump cylinder 15 while passing through the other end opening.

The first piston 31 has a large diameter portion 31a and a small diameter portion 31b moving in and out of the hollow portion 15a of the pump cylinder 15, and the small diameter portion 31b has a larger diameter than the large diameter portion 31a. The engaging jaw 31c is provided.

The first piston 31 may reciprocate back and forth in the hollow portion 15a of the pump cylinder 15 by the eccentric rotation of the eccentric cam 230. Preferably, since the engaging jaw 31c of the first piston 31 is caught by the annular step 233a of the catch ring 233, the first piston 31 and the eccentric cam 230 have a constant connection relationship. It can be maintained, thereby the first piston 31 has the advantage that the precise and stable reciprocating movement is guaranteed.

The second piston 32 has a large diameter portion 32a and a small diameter portion 32b that move in the hollow portion 15a of the pump cylinder 15, and the small diameter portion 32b has a larger diameter than the large diameter portion 32a. The locking jaw 32c is provided. The second piston 32 reciprocates forward and backward in conjunction with the first piston 31.

The pump cylinder 15 has a first passage 15c radially penetrated at a position adjacent to the inlet 15b, and a second passage 15d communicating with the first passage 15c extends in the axial direction. The second flow path 15d can communicate with the accommodation space 54 of the stud 50 by the movement of the second piston 32.

The stud 50 has an accommodating space 54 for temporarily accommodating grease therein. The accommodating space 54 has a return spring 33 accommodated therein, and the return spring 33 is connected to the stud 50. The second piston 32 is elastically supported by being interposed between the locking jaws 32c of the second piston 32.

The third passage 51 communicating with the receiving space 54 of the stud 50 passes through the outer diameter, and the third passage 51 communicates with the outlet 11 of the first body 10.

A sealing member 35 such as a gasket is interposed between the pump cylinder 15 and the stud 50, and the sealing member 35 has a hollow portion 35a therein, and the hollow portion 35a is a pump. It has the same inner diameter as the hollow portion 15a of the cylinder 15.

The second body 20 is installed on the outlet 11 side of the first body 10, and thus the second body 20 is installed in a direction orthogonal to the first body 10, and the second body The engaging portion of the 20 and the first body 10 is sealed by the O-ring 20a or the like.

The second body 20 has a fourth flow passage 21 communicating with the outlet 11 of the first body 10, and a tapered flow passage 22 is formed on the fourth flow passage 21. The discharge port 25 is formed on the tapered flow passage 22.

The check valve 40 prevents grease from flowing backward from the discharge port 25 toward the outlet 11 of the first body 10 on the tapered flow passage 22 and the discharge port 25 side of the second body 20. ) Is installed.

The check valve 40 is disposed above the valve body 41 having the tapered portion 41a for opening and closing the tapered flow passage 22 of the second body 20 and the upper portion of the tapered portion 41a of the valve body 41. The height of the adjustment member provided on the side of the discharge port 25 of the second sealing body (43), the clamp ring (42) for fixing the sealing member (43), the sealing member (43) to the valve body (41) ( 45, a spring 44 interposed between the clamp ring 42 and the adjustment nut 45.

The valve body 41 has the taper part 41a of the form corresponding to the tapered flow path 22 of the 2nd body 20 at the lower end side, and this taper part 41a is the upper and lower sides of the valve body 41. FIG. By moving, the tapered flow path 22 of the second body 20 can be opened and closed.

The sealing member 43 is disposed above the taper portion 41a of the valve body 41, and the sealing member 43 can be firmly fixed by the clamp ring 42.

As shown in FIG. 4, the adjusting nut 45 has a communication hole 45a through which grease passes, and the adjusting nut 45 has a male screw part 45b on its outer circumferential surface. The male screw portion 45b is screwed to the female screw portion 25b of the discharge port 25. On the other hand, by the screw structure (45b, 25b) the adjustment nut 45 is easy to adjust the height in the discharge port 25, by adjusting the height of the adjustment nut 45 such that the elastic force of the spring 44 By adjusting, the pumping pressure or pumping amount of the grease can be adjusted.

The operation relationship between the grease supply device 200 and the grease pump 100 of the present invention configured as described above will be described in detail as follows.

As the drive motor 241 of the drive unit 240 is driven, the shaft 243 rotates, and the eccentric cam 230 rotates eccentrically by the rotation of the shaft 243, and the eccentric cam 230 is eccentric. By rotation, the plurality of grease pumps 100 performs the pumping operation individually.

On the other hand, the operation of the grease pump 100 is shown in Figs.

As shown in FIG. 5, the inlet 15b of the pump cylinder 15 is opened by the eccentric rotation of the eccentric cam 230 and the first piston 31 is advanced toward the eccentric cam 230. Grease is introduced into the hollow portion 15a of the pump cylinder 15 through this open inlet 15b.

Then, as shown in Figure 6, when the first piston 31 is reversed toward the studs 50 by the continuous eccentric rotation of the eccentric cam 230, the second piston 32 in conjunction with this stud Moving toward 50 pressurizes the return spring 33, thereby opening one side openings of the first and second flow paths 15c and 15d of the pump cylinder 15 to open the grease to the first and second flow paths ( 15c, 15d). At the same time, the grease in the receiving space 54 of the stud 50 is discharged from the outlet 11 of the third passage 51 and the first body 10 of the stud 50 by the pressure action of the second piston 32. It is conveyed to the discharge port 25 side of the second body 20 through). At this time, the valve body 41 of the check valve 40 moves upward by the pressure of the grease to be transferred, so that the fourth flow passage 21 and the tapered flow passage 22 of the second body 20 are opened. Is transferred to the discharge port 25 through the fourth flow passage 21 and the tapered flow passage 22 of the second body 20. Then, the accommodating space 54 of the stud 50 from which the grease is discharged is in a negative pressure state, so that the check valve 40 returns the valve body 41 to its original position by the elastic force of the spring 44 and thus the second pressure. The fourth flow passage 21 and the taper portion 22 of the body 20 are closed.

As shown in FIG. 7, when the first piston 31 is advanced toward the eccentric cam 230 by the continuous eccentric rotation of the eccentric cam 230, the second piston 32 returns the return spring 33. Moves toward the eccentric cam 230, whereby the other openings of the first and second flow paths 15c and 15d are opened so that the grease in the first and second flow paths 15c and 15d is in a negative pressure stud ( 50 is transferred into the receiving space 54. Then, the first piston 31 is returned to the state of FIG. 5 by the continuous eccentric rotation of the eccentric cam 230.

1 is a side cross-sectional view showing a grease supply apparatus according to an embodiment of the present invention.

FIG. 2 is a plan sectional view taken along the line A-A of FIG.

3 is an enlarged view illustrating an enlarged portion of the grease pumping unit of FIG. 1.

4 is a cross-sectional view showing a grease pumping unit according to the present invention.

5 to 7 are diagrams sequentially showing the pumping operation of the grease by the grease pumping unit of the present invention.

Brief description of symbols for the main parts of the drawings

100: grease pumping unit 200: grease supply device

210: grease reservoir 220: housing

230: eccentric cam 240: drive unit

Claims (9)

delete delete delete A first body having a sleeve structure at both ends and having an outlet on one outer circumferential surface thereof; A pump cylinder installed through one opening of the first body, the pump cylinder having an inlet and having an open end at both ends thereof; A stud installed through the other end opening of the first body to close the other end opening and having an accommodation space accommodating grease therein, the accommodation space communicating with an outlet of the first body; A first piston movably installed while passing through an opening of one end of the pump cylinder; A second piston movably installed adjacent to the first piston and movably installed while passing through the other opening of the pump cylinder; An eccentric cam for reciprocating the first piston by eccentric rotation; A second body having a discharge port in communication with an outlet of the first body and having a flow path tapered at a portion adjacent to the outlet of the first body; A check valve installed in the tapered flow path of the second body to prevent backflow of grease; And A return spring interposed between the stud and the second piston; The check valve is a valve body having a tapered portion for opening and closing the tapered flow path of the second body, a sealing member disposed on the tapered portion of the valve body, a clamp ring for fixing the sealing member to the valve body side, the second body Grease pumping unit characterized in that it comprises a spring interposed between the adjustment nut, the clamp ring and the adjustment nut installed on the discharge port side of the height adjustment. delete delete delete delete A grease reservoir with grease; A housing having a receiving space for receiving the grease of the grease reservoir; A plurality of grease pumping units radially installed at the housing side to pump grease in the grease reservoir; A plurality of supply pipes individually connected to the respective grease pumping unit sides; An eccentric cam for driving the plurality of grease pumping units by eccentrically rotating in the center of the housing; And Includes; drive motor for rotating the eccentric cam, The grease pumping unit, A first body having a sleeve structure at both ends and having an outlet on one outer circumferential surface thereof; A pump cylinder installed through one opening of the first body, the pump cylinder having an inlet and having an open end at both ends thereof; A stud installed through the other end opening of the first body to close the other end opening and having an accommodation space accommodating grease therein, the accommodation space communicating with an outlet of the first body; A first piston movably installed while passing through an opening of one end of the pump cylinder; A second piston movably installed adjacent to the first piston and movably installed while passing through the other opening of the pump cylinder; An eccentric cam for reciprocating the first piston by eccentric rotation; A second body having a discharge port in communication with an outlet of the first body and having a flow path tapered at a portion adjacent to the outlet of the first body; A check valve installed in the tapered flow path of the second body to prevent backflow of grease; And And a return spring interposed between the stud and the second piston. The check valve is a valve body having a tapered portion for opening and closing the tapered flow path of the second body, a sealing member disposed on the tapered portion of the valve body, a clamp ring for fixing the sealing member to the valve body side, the second body Grease supply device characterized in that it comprises a spring interposed between the adjustment nut, the clamp ring and the adjustment nut installed on the discharge port side of the height adjustable.

Images