KR101784188B1 - Variable Stroke Metering Pump - Google Patents

Abstract

The present invention relates to a stroke variable type metering pump, and more particularly, to a stroke variable metering pump including a drive unit for rotating a worm by a motor; A worm shaft that is rotated by rotation of a worm wheel coupled to the worm, a stroke adjustment unit that is provided on one side of the worm shaft, a rotation cam that is rotatably installed on the worm shaft, and an eccentricity of the rotation cam by the stroke adjustment unit A power transmitting portion having an operating cam for transmitting the operating force; A pumping driver having a connecting rod for converting the rotational motion of the worm shaft into a linear reciprocating motion and the like and a plunger for reciprocating linearly by the connecting rod; And a pumping part for sucking and discharging a predetermined amount of fluid by the reciprocating motion of the plunger. The eccentricity of the rotating cam can be freely adjusted by the operating cam, and the amount of fluid to be supplied can be adjusted according to the eccentric position of the rotating cam. Since the advancing and retracting strokes of the connecting rod are driven by the motor by the motor, the same stroke stroke can be obtained, a stable discharge amount can be maintained and the degree of injection can be ensured. Unlike the conventional method using the restoring force of the spring, The effect can be obtained.

Description

Variable Stroke Metering Pump [0002]

BACKGROUND OF THE INVENTION 1. Field of the Invention [0002] The present invention relates to a stroke variable-dose pump, and more particularly, to a stroke variable-dose pump that adjusts a stroke to supply fluid and supplies a predetermined amount of fluid.

In general, the metering pumps are widely used in various fields to quantitatively and precisely supply various chemicals or fluids such as oxidizing agents, reducing agents, coagulants, sterilization / sterilizing agents and microbiological nutrients required in chemical processes, water treatment plants, wastewater and sewage treatment plants, .

Such a metering pump precisely injects a small amount of fluid to a high pressure with respect to a centrifugal pump. In order to easily obtain a high pressure, a cam and a spring are reciprocated.

The metering pump utilizes the restoring force of the compressed spring in the stroke of sucking the fluid, and obtains a high pressure by using the power of the motor in the stroke of discharging the fluid.

The pump head of the metering pump sucks the fluid, and the sliding portion of the plunger for discharging the fluid to the outside is sealed by using gland packing or V-packing.

As the discharge pressure becomes higher, the tightening tightening force must be increased as well, so that the restoring force of the spring must be increased as well, and the load of the unnecessary motor is also increased.

In addition, as the sealing tightening force of the sliding part increases, the suction stroke movement becomes dull. In the worst case, the stroke movement to the bottom dead center is not performed, the discharge amount decreases, and the fluid injection degree There was a problem.

For example, a 'metering pump' is disclosed in Patent Document 1 below.

The metering pump disclosed in Patent Document 1 includes a drive motor having a drive shaft, an eccentric shaft formed around a point eccentric from the center of the drive shaft of the drive motor, a hydraulic oil seal formed with a suction port and a discharge port, A diaphragm fixed to one surface of the diaphragm, a pumping shaft fixed to one surface of the diaphragm, a pumping shaft hinged to the pumping shaft at one end thereof and hinged to the eccentric shaft at the other end thereof, A check valve formed on the discharge side check ball accommodating portion, a pressurizing means for pressing the discharge check ball to the discharge port, a first sensor for sensing the advancing state of the diaphragm, A second sensor for sensing the degree to which the discharge side check ball has risen from the discharge port, And wherein the receiving a signal from the second sensor and a control unit for controlling operation of the drive motor.

The following Patent Document 2 discloses a 'metering pump using a BLDC motor'.

A metering pump using a BLDC motor according to Patent Document 2 includes a base frame, a pumping member mounted on the base frame for discharging a flow rate, a BLDC (brushless dc) driving motor mounted to transmit a toe output to the pumping member, A controller for transmitting a command signal for operating the driving motor, and an actual driving speed of the BLDC driving motor driven according to the command signal, and comparing the actual driving speed with a predetermined driving speed according to a command signal of the BLDC driving motor. And a feedback controller for compensating the command signal to drive the BLDC drive motor at a predetermined drive speed according to the command signal when a difference between an actual drive speed of the drive motor and a preset drive speed according to the command signal occurs .

Korean Patent Publication No. 10-2012-0123815 (published on November 12, 2012) Korean Patent Registration No. 10-0814435 (registered on March 11, 2008)

SUMMARY OF THE INVENTION An object of the present invention is to provide a stroke variable-dose pump capable of driving a reciprocating motion of a plunger by a motor.

Another object of the present invention is to provide a stroke variable metering pump capable of adjusting the reciprocating distance of the plunger according to the supply amount of the fluid.

According to an aspect of the present invention, there is provided a stroke variable metering pump including: a driving unit for rotating a worm by a motor; A worm shaft that is rotated by rotation of a worm wheel coupled to the worm, a stroke adjustment unit that is provided on one side of the worm shaft, a rotation cam that is rotatably installed on the worm shaft, and an eccentricity of the rotation cam by the stroke adjustment unit A power transmitting portion having an operating cam for transmitting the operating force; A pumping driver having a connecting rod for converting the rotational motion of the worm shaft into a linear reciprocating motion and the like and a plunger for reciprocating linearly by the connecting rod; And a pumping part for sucking and discharging a predetermined amount of fluid by reciprocating motion of the plunger.

The power transmission unit includes a worm shaft having the hollow worm wheel installed at one side thereof; An engaging groove portion formed at a predetermined position of the worm shaft so as to engage with the rotation cam; A rotation cam that is rotated by the worm shaft and is movably installed in the engagement groove; And a fixing pin fixed to the center of the rotation cam.

Wherein the stroke adjusting portion includes: an operation cam having a tilted hole through which the fixing pin passes to adjust the eccentric height of the rotation cam installed on the warm shaft; An inclined hole formed in the operating cam; A hollow hole formed on the other side of the operation cam, a length adjustment shaft rotatably fixed to the hollow hole, A fixed cover fixed to the operation cam such that the length-adjusting shaft is not released; A thread formed on the other side of the length adjusting shaft to have a predetermined length; And a handle fixed to the thread.

Wherein the length adjustment shaft is fixed to one surface of the case so as to surround the outer surface of the operation cam; An oil chamber surrounding the outer surface of the length adjusting shaft and fixed to the inner surface of the fixed cover; And a shaft holder having a threaded portion to be engaged with a thread of the length adjusting shaft.

Wherein the pumping driver includes: a connecting rod rotatably coupled to the worm shaft; A first plunger rotatably installed at one end of the connecting rod; A second plunger fixed to one end of the first plunger; And a pump head for sucking and discharging a predetermined amount of fluid to the tip of the second plunger.

As described above, according to the stroke variable metering pump of the present invention, the eccentricity of the rotating cam can be freely adjusted by the operating cam, the amount of fluid to be supplied can be adjusted according to the eccentric position of the rotating cam, Since the advancing and retracting strokes of the connecting rod are driven by the motor, the same stroke stroke can be obtained, a stable discharge amount can be maintained and the degree of injection can be ensured, and an effect that the suction head can be increased unlike the prior art utilizing the restoring force of the spring .

1 is a partially cutaway perspective view showing a stroke variable dosing pump according to a preferred embodiment of the present invention,
2 is an exploded perspective view showing a power transmitting portion of a stroke variable metering pump according to a preferred embodiment of the present invention,
3 is a perspective view of a power transmission unit of a stroke variable metering pump according to a preferred embodiment of the present invention.
FIG. 4 is a cross-sectional view showing a stroke variable metering pump according to a preferred embodiment of the present invention,
5 is a cross-sectional view showing a stroke variable metering pump according to a preferred embodiment of the present invention,
6 is a sectional view showing a state in which the eccentricity of the rotation cam of the stroke variable metering pump according to the preferred embodiment of the present invention is adjusted by the stroke adjusting portion.

BEST MODE FOR CARRYING OUT THE INVENTION Hereinafter, a stroke variable metering pump according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 is a partially cut-away perspective view showing a stroke variable metering pump according to a preferred embodiment of the present invention, FIG. 2 is an exploded perspective view showing a power transmitting portion of a stroke variable metering pump according to a preferred embodiment of the present invention, 3 is a cross-sectional view illustrating a power transmission unit of a stroke variable metering pump according to a preferred embodiment of the present invention.

The stroke variable metering pump according to the preferred embodiment of the present invention includes a driving unit 100 that rotates the worm 111 by the motor 110, a worm shaft 111 that is rotated by rotation of the worm wheel 211 coupled to the worm 111, A stroke adjusting unit 250 installed at one side of the worm shaft 210, a rotation cam 220 rotatably installed at the worm shaft 210, A connecting rod 310 for converting the rotational motion of the worm shaft 210 into a linear reciprocating operation and the like, A pumping unit 300 having a plunger 320 linearly reciprocated by a plunger 310 and a pumping unit 400 sucking and discharging a predetermined amount of fluid by a linear reciprocating motion of the plunger 320.

The stroke variable metering pump according to the embodiment of the present invention can adjust the stroke length of the connecting rod 310 by adjusting the height (eccentricity) of the rotation cam 220 installed on the worm shaft 210, 310 to adjust the length of the fluid in accordance with the linear reciprocating motion so that the required fluid can be supplied in a fixed amount.

1 to 3, the stroke variable metering pump according to the embodiment of the present invention includes a base 120 having a predetermined shape and a case 121 fixed to the upper surface of the base 120 .

A drive unit 100 is installed on the upper surface of the case 121 and a power transmission unit 200 is provided in the case 121 to convert the rotational motion transmitted from the drive unit 100 into a linear reciprocating motion.

The driving unit 100 includes a motor 110 mounted on an upper surface of a case 121 and a worm 111 fixed to a front end of a rotating shaft of the motor 110.

The power transmission unit 200 is installed in a direction orthogonal to the driving unit 100. The power transmission unit 200 includes a worm shaft 210 rotated by a worm wheel 211 coupled to the worm 111, And a stroke adjusting unit 250 for changing the eccentric position of the rotary cam 220. The rotary cam 220 rotates together with the worm shaft 210 to reciprocate the pumping driving unit 300 linearly.

The power transmission unit 200 includes a worm shaft 210 rotated by the worm 111, a rotation cam 220 coupled to the worm shaft 210, and a stroke adjustment unit The stroke adjusting unit 250 includes an operation cam 251 coupled to the rotation cam 220, a length adjustment shaft 260 for moving the operation cam 251, A stationary cover 270 for mounting the shaft 260 to the case 121 and a handle 280 for rotating the length adjustment shaft 260.

The worm shaft 210 of the power transmission unit 200 is hollow having a predetermined length and both sides of the worm shaft 210 are supported by the case 121.

The worm wheel 211 is fixed to the worm shaft 210 at a position corresponding to the worm 110 of the driving unit 100 and the worm wheel 211 and the worm shaft 210 are stably fixed by a key .

That is, the worm wheel 211 is rotated by receiving the rotational force of the worm 111, and the worm wheel 211 rotates the worm shaft 210 by the rotational force transmitted from the worm 111.

The worm shaft 210 has a hollow having a predetermined length and the worm shaft 210 is provided with a rotation cam 220 to which the connecting rod 310 of the pumping driving unit 300 is coupled.

The worm shaft 210 is formed with a coupling groove 212 to which the rotation cam 220 is coupled and a coupling bar 213 connecting the worm shaft 210 with the coupling groove 212.

Bearings 214 are respectively coupled to both ends of the worm shaft 210. A cover 215 is provided at one end of the worm shaft 210 to support the bearings 214. The cover 215 covers the case 121 ).

A fixed cover 270 for supporting a bearing 214 provided on the worm shaft 210 is provided on the other side of the case 120. The fixed cover 270 is fixed to the operating cam 251 of the stroke adjusting unit 250, And it is fixed in a form to surround the outer surface.

The rotation cam 220 is formed of a circular plate having a predetermined thickness and the rotation cam 220 has a groove portion 221 fitted to the connection bar 213 and a fixing portion 224 fixed to penetrate in a direction perpendicular to the groove portion 221. [ And includes a pin 222.

The groove 221 of the rotation cam 220 is engaged with the connection bar 213 and the fixing pin 222 is inserted into the inclined hole 252 of the operation cam 251 coupled to the inside of the worm shaft 210 And is fixed through.

That is, the fixing pin 222 is fixed to the rotation cam 220 so as to be height-adjusted along the inclined hole 252 of the operation cam 251.

A first collar 223 having a diameter larger than the diameter of the rotation cam 220 is installed on one side of the rotation cam 220 and a first collar 223 The second collar 224 being identical to the second collar 224.

The first collar 223 and the second collar 224 cause the connecting rod 310 coupled to the rotating cam 220 to be fixed in place.

A stroke adjusting portion 250 for moving the position of the operation cam 251 is provided on the other side of the worm shaft 210.

The stroke adjusting unit 250 includes an operation cam 251 having an inclined hole 252 through which the fixing pin 222 is inserted to adjust the eccentric height of the rotation cam 220, A hole 252 formed on the other side of the operation cam 251, a hollow hole 253 formed on the other side of the operation cam 251, a length adjusting shaft 260 rotatably fixed to the hollow hole 253, A screw 261 formed on the other side of the length adjusting shaft 270 to have a predetermined length and a handle 280 fixed to the screw 261 .

The operation cam 251 is installed in the hollow interior of the worm shaft 210 and the operation cam 251 is formed with an inclined hole 252 inclined at a predetermined angle so as to fit the fixing pin 222 therethrough.

One end of the length adjustment shaft 260 is fixed to one side of the operation cam 251 and the hollow hole 253 is formed to have a predetermined depth so that the length adjustment shaft 260 is engaged.

One end of the length adjusting shaft 260 is engaged with the hollow hole 253 of the operation cam 251 and the other end of the length adjusting shaft 260 is fixed A thread 261 is formed.

A fixing nut 262 is fastened to one side of the length adjusting shaft 260 and a bearing 263 is fitted to one side of the fixing nut 262 to be inserted into a hollow hole 253.

A bearing cover 264 is fixed so that the length adjustment shaft 260 is not separated from the operation cam 251 and the operation cam 251 supports the operation cam 251 and the length adjustment shaft 260 The stationary cover 270 is fixed.

An oil seal 271 is provided on the inner surface of the fixed cover 270 so as to be in close contact with the outer surface of the length adjusting shaft 260 so that the oil or the like in the length adjusting shaft 260 does not leak, 270 are fixed to the case 121 with bolts.

A shaft holder 275 is fixed to the thread 261 of the length adjusting shaft 260 so that the length adjusting shaft 260 is moved. A threaded portion 276 corresponding to the thread 251 is formed on the inner surface of the shaft holder 275. .

A handle 280 is provided at the tip of the length adjustment shaft 260 to horizontally move the position of the operation cam 251.

The rotation cam 220 is provided with a pumping driving unit 300 that is linearly reciprocated by the power transmission unit 200.

The pumping driving unit 300 converts the rotational motion of the rotating cam 220 into a linear reciprocating motion so as to pump a predetermined amount of fluid from the pumping unit 400.

The pumping driver 300 includes a connecting rod 310 coupled to the rotating cam 220 and a plunger 320 linearly reciprocated by the connecting rod 310.

The connecting rod 310 is rotatably coupled to the outer surface of the rotating cam 220. A first plunger 321 is provided at the tip of the connecting rod 310. The first plunger 321 is provided with a pumping part 400 is provided with a second plunger 322 for sucking and discharging a predetermined amount of fluid.

A first cover 323 for fixing the first plunger 321 is fixed to the outer surface of the first plunger 321 and a second plunger 322 is fixed to the outer surface of the second plunger 322 in a stable manner The second cover 324 is fixed. The second cover 324 is fixed to the first cover 323 in a straight line.

The pumping unit 400 is installed with a pump head 410 so as to be pumped by the second plunger 322 and a first ball 411 is installed on the upper and lower sides of the pump head 410, A first ball guide 412 is provided.

The first ball guide 412 is provided with a second ball guide 414 in which the second ball 413 is movably installed and the flange 415 in which the flow path is formed is fixed to the second ball guide 414 .

Next, a method of operating the stroke variable-dose pump according to a preferred embodiment of the present invention will be described in detail with reference to FIGS. 1 to 6. FIG.

FIG. 4 is a cross-sectional view illustrating a power transmission unit of a stroke variable metering pump according to a preferred embodiment of the present invention, FIG. 5 is a sectional view showing a height adjustment state of a rotation cam of a stroke variable metering pump according to a preferred embodiment of the present invention, to be.

1 to 6, in the stroke variable metering pump according to the embodiment of the present invention, the worm 111 is rotated by the rotation of the motor 110, and the worm shaft 210 is rotated by the worm 111, As shown in Fig.

The worm shaft 210 is supported on both sides of the case 121 and a bearing 214 is provided between the case 121 and the worm shaft 210 to smoothly rotate the worm shaft 210.

The worm shaft 210 is rotated by the worm wheel 211 to rotate the connecting rod 310 of the pumping driving unit 300 coupled to the rotating cam 220.

The worm shaft 210 is formed with a coupling groove 212 so that the rotation cam 220 is installed and the coupling bar 213 is formed with the rotation cam 220 on the coupling groove 212.

4 and 5, a groove 221 is formed in the rotation cam 220 so as to be fitted into the engagement groove 212 and an inclined hole 252 of the operation cam 251 is formed in the groove 221. The fixing pin 222 is fixed.

The rotation cam 220 is rotated in the same manner as the worm shaft 210 and the operation cam 251 adjusts the position of the fixing pin 222 coupled to the inclined hole 252.

A stroke adjusting unit 250 for horizontally moving the actuating cam 251 is installed at one side of the actuating cam 251. The operation cam 251 is provided with an inclined hole 252 inclined at a predetermined angle and the fixing pin 222 is installed to penetrate the inclined hole 252.

The actuating cam 251 is horizontally moved by the length adjusting shaft 260 having a predetermined length and the actuating cam 251 is horizontally moved so that the fixing pin 222 is moved along the inclined hole 252 .

That is, the actuating cam 251 is horizontally moved by the stroke adjusting portion 260 to raise or lower the fixing pin 222. Accordingly, the height of the rotation cam 220 installed in the coupling groove 212 is different.

6 is a sectional view showing a state in which the eccentricity of the rotation cam of the stroke variable metering pump according to the preferred embodiment of the present invention is adjusted by the stroke adjusting portion.

6, the stroke adjusting portion 250 horizontally moves the operation cam 251, and the fixing pin 222 is lifted and lowered along the inclined hole 252. When the fixing pin 222 is inclined It is possible to move along the hole 252 to change the eccentric position of the rotation cam 220. [

6 (a) is a perspective view of the worm shaft 210 in which the fixing pin 222 of the rotation cam 220 is installed at a middle height of the tilting hole 252, and the connecting rod 310 rotated by the rotation cam 220, As shown in FIG.

6 (b), when the operation cam 251 is moved in the left direction in the drawing, the fixing pin 222 is raised along the inclined hole 252, and as shown in FIG. 6 (c) When the operation cam 251 is moved to the right in the drawing, the fixing pin 220 descends along the inclined hole 252.

The rotation cam 220 coupled to the coupling groove 212 can change its eccentric position and the eccentric position of the rotation cam 220 is changed, The reciprocating movement distance of the reciprocating connecting rod 260 can be increased or decreased.

A length adjustment shaft 260 is provided in the hollow hole 253 of the operation cam 251.

The case 121 is provided with a fixed cover 270 for supporting the worm shaft 210 and the actuating cam 251. The fixed cover 270 is used to stabilize the operation cam 251 and the length adjusting shaft 260 .

A shaft holder 275 is fixed to one surface of the fixed cover 270 and a screw portion 276 corresponding to the screw thread 261 of the length adjusting shaft 260 is formed in the shaft holder 275.

The length adjusting shaft 260 is moved along the threaded portion 276 of the shaft holder 275 and the length adjusting shaft 260 is moved along the rotating direction of the handle 280, (251).

The connecting rod 310 is rotated by the rotation of the rotating cam 220 and the connecting rod 310 is rotated along the eccentricity of the rotating cam 220 so that the linear moving stroke of the connecting rod 310 do.

The first plunger 321 and the second plunger 322 are reciprocated in the same direction as the moving distance of the connecting rod 310, .

The plunger 320 reciprocates along the pump head 410 to suck or discharge the fluid.

Although the present invention has been described in detail with reference to the above embodiments, it is needless to say that the present invention is not limited to the above-described embodiments, and various modifications may be made without departing from the spirit of the present invention.

100: driving unit 110: motor
111: Worm 120: Base
121: Case 200: Power transmission unit
210: Worm shaft 211: Worm wheel
212: engaging groove 213: connecting bar
214: Bearing 215: Cover
220: rotation cam 221:
222: fixing pin 223: first collar
224: second collar 250: stroke adjusting portion
251: operation cam 252: inclined hole
253: hollow hole 260: length adjusting shaft
261: Thread 262: Fixing nut
263: Bearing 264: Bearing cover
270: fixed cover 271: oil chamber
275: shaft holder 276: threaded portion
280: handle 300: pumping drive
310: connecting rod 320: plunger
321: first plunger 322: second plunger
400: Pumping section 410: Pump head
411: first ball 412: second ball guide
413: second ball 414: second ball guide
415: Flange

Claims (5)

A driving unit for rotating the worm by a motor;
A worm shaft which is rotated by rotation of a worm wheel coupled to the worm, a stroke adjusting unit provided on one side of the worm shaft, and a tilting hole having a predetermined length and forming an angle with an axial direction of the worm shaft, An operating cam which is installed in the inside of the worm shaft and which is connected to the stroke adjusting unit and which is rotatable integrally with the worm shaft and which is movable along the axial direction of the worm shaft, And a rotation cam that is guided and moved by the inclined hole to adjust the amount of eccentricity.
A pumping driver having a connecting rod for converting the rotational motion of the worm shaft to a linear reciprocating motion and a plunger for reciprocating linearly by the connecting rod; And
A pumping unit for sucking and discharging a predetermined amount of fluid by reciprocating motion of the plunger;
Wherein the pump is a pump. The method according to claim 1,
The power transmission portion
A worm shaft provided at one side of the worm wheel and hollow;
An engaging groove portion formed at a predetermined position of the worm shaft so as to engage with the rotation cam;
A rotation cam that is rotated by the worm shaft and is movably installed in the engagement groove; And
A fixing pin fixed to the center of the rotation cam;
Wherein the pump is a pump. The method according to claim 1,
The stroke adjusting unit
A length adjusting shaft formed with a hollow hole formed on the other side of the operation cam, one side of which is rotatably fixed to the hollow hole, and a screw thread formed on the other side of the length adjusting shaft;
A fixed cover fixed to the operation cam such that the length-adjusting shaft is not released; And
A handle fixed to the thread;
Wherein the pump is a pump. The method of claim 3,
Wherein the fixed cover is fixed to one surface of the case so as to surround the outer surface of the operation cam and has an oil chamber fixed to the inner surface of the fixed cover,
And a shaft holder formed with a threaded portion to be engaged with a thread of the length-adjusting shaft. The method according to claim 1,
Wherein the pumping driver includes: a connecting rod rotatably coupled to the worm shaft;
A first plunger rotatably installed at one end of the connecting rod;
A second plunger fixed to one end of the first plunger; And
A pump head for sucking and discharging a predetermined amount of fluid to the tip of the second plunger;
Wherein the pump is a pump.

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