KR102567662B1 - Fluid injection device capable of pressure-quantitative filling - Google Patents

Abstract

The present invention includes a pressure tank filled with a fluid having a predetermined viscosity and compressed air therein; A fluid storage tank for storing the fluid, a fluid supply pump for supplying the fluid to the pressure tank, a supply amount adjusting means for connecting the fluid storage tank and the fluid supply pump and adjusting the supply amount of the fluid, and the pressure tank It is coupled to, the fluid supply means including a fluid supply valve connected to the supply amount control means; A discharge pipe connected to the pressure tank and into which the fluid discharged by the pressure of the compressed air flows, coupled to the discharge pipe, guiding the movement of the fluid and discharging the moved fluid into the container; a fixed discharge means including a discharge nozzle configured to discharge a fixed amount of fluid into the container by inserting the fluid transfer pipe, and a restoring spring for restoring the position of the discharge nozzle; and a frame on which the pressure tank and the fluid supply means are mounted and which support the container to be seated therein.

Description

Fluid injection device capable of pressure-quantitative filling

The present invention relates to a fluid injection device capable of constant-pressure filling, and more particularly, by applying a constant pressure to a viscous liquid such as edible oil, shampoo, etc., so that a storage container can be filled at a constant rate, thereby providing a small amount of fluid. It relates to a fluid injection device capable of pressure-quantitative filling suitable for filling.

In general, a fluid supply device has a problem in that it is difficult to continuously maintain an accurate supply amount because a difference in supply pressure occurs according to the height of the inlet tank and the flow rate of the inlet tank as the fluid is supplied in a free fall.

That is, even when the supply pressure is specified according to the height of the inlet tank, as the inflow flow rate due to continuous supply is reduced and the supplied pressure changes, in order to continuously maintain the accurate supply amount, the control amount according to the flow rate must be adjusted. There was a problem that the supply speed was lowered while lowering.

Accordingly, Korean Patent Laid-open Publication No. 10-2017-0106687 discloses a liquid detergent discharged from the warming tank unit in one or more containers at the same time and transporting the liquid detergent discharged from the heating tank in order to supply and fill the liquid detergent in a fixed amount. ; a capping unit for discharging by automatically fastening a lid to the container transported from the filling unit; And a conveyor work bench for packaging the containers discharged from the capping unit in box units; a liquid detergent material quantitative supply automatic filling system including a bar has been published.

However, the above-described filling unit is configured to include a buffer tank unit, a solenoid valve unit, and an electronic scale unit, and transfers liquid detergent discharged from the warming tank unit to one or more containers at the same time, and liquid stored in the buffer tank unit Detergent is configured to be discharged by gravity, and there is a problem in that the same amount cannot be discharged due to a difference in pressure change formed inside the buffer tank unit.

In addition, according to the above-mentioned prior art literature, since the liquid detergent is discharged using only gravity in the buffer tank unit, a solenoid valve for controlling this must be essentially configured, and a control for controlling the opening and closing amount of the solenoid valve The means must be implemented together.

In other words, it is possible to implement the filling part at the site where liquid detergent is supplied and discharged in large quantities and facilities and systems for filling it are built. There is a problem.

The background art or prior art described above is only to help understand the technical significance of the present invention, and does not mean a widely known technique in the technical field to which the present invention belongs prior to the filing of the present invention.

Republic of Korea Patent Publication No. 10-2017-0106687

In order to solve this problem, the present invention has been made by the above-described background art, by applying a certain pressure to a viscous liquid such as edible oil, shampoo, etc. to automatically quantitatively fill the storage container, thereby filling It is possible to significantly improve the efficiency of the filling operation by reducing the time, realize automation with less worker labor, and pressure-quantity filling that can simultaneously fill multiple containers even when filling a small amount of fluid. Its purpose is to provide a fluid injection device.

In addition, the present invention enables filling by automatically discharging a fixed amount of fluid only when the container to be filled with the fluid is mounted, thereby minimizing the loss of the fluid and preventing the fluid from escaping to the surroundings of the container during filling. It is an object of the present invention to provide a fluid injection device capable of constant-pressure filling that can prevent contamination of peripheral components due to fluid by preventing the occurrence of contamination.

However, the object of the present invention is not limited thereto, and even if not explicitly mentioned, the purpose or effect that can be grasped from the solution or embodiment of the problem is also included therein, of course.

According to one embodiment of the present invention for achieving the above object, a pressure tank filled with a fluid and compressed air having a predetermined viscosity therein; A fluid storage tank for storing the fluid, a fluid supply pump for supplying the fluid to the pressure tank, a supply amount adjusting means for connecting the fluid storage tank and the fluid supply pump and adjusting the supply amount of the fluid, and the pressure tank Is coupled to, fluid supply means including a fluid supply valve connected to the supply amount control means; A discharge pipe connected to the pressure tank and into which the fluid discharged by the pressure of the compressed air flows, coupled to the discharge pipe, guiding the movement of the fluid and discharging the moved fluid into the container; a fixed discharge means including a discharge nozzle configured to discharge a fixed amount of fluid into the container by inserting the fluid transfer pipe, and a restoring spring for restoring the position of the discharge nozzle; and a frame on which the pressure tank and the fluid supply means are mounted and which support the container to be seated thereon.

According to one embodiment of the present invention, the frame unit includes an air tank connected to the pressure tank, a support frame including a support frame on which the fluid storage tank, the fluid supply pump, and the supply amount control means are respectively seated; an adjustment frame supporting the lower portion of the pressure tank and having a plurality of adjustment holes to adjust the height of the mounting panel; A container seating portion for supporting the container to be seated in an inclined state at a predetermined angle, a fixed flange formed with a fixed panel so that the container can be detachably coupled to the control hole, and between the container seating portion and the fixed flange It is formed and characterized in that it comprises; mounting panel consisting of a collection unit for collecting the leaking fluid.

According to one embodiment of the present invention, the pressure tank is configured on one side of the upper part, and a pressure supply unit for filling a certain amount of compressed air, a pressure gauge for measuring and displaying the internal pressure of the pressure tank, the pressure supply unit, and A regulator configured between the pressure gauge and maintaining the internal pressure of the pressure tank constant, detecting the level of the fluid filled in the pressure tank, and transmitting the detected level information to the fluid supply pump It is characterized in that it includes an air vent unit connected to the level sensor and the regulator and exhausting the compressed air to the outside.

According to one embodiment of the present invention, the discharge nozzle is formed to extend at the lower end, is inserted into the inlet of the container, and guides a discharge guide for guiding a fixed amount of fluid to be discharged into the container, and the discharge guide A nozzle operation guide extending from the upper end of the unit and configured to have a predetermined inclination angle to guide the discharge nozzle to move upward while the inlet of the container is in close contact with it, and is formed on the lower circumferential surface of the discharge guide unit, It is characterized in that it is composed of a plurality of fluid discharge holes that are selectively communicated with the moving pipe so that the fluid is discharged.

According to one embodiment of the present invention, the discharge nozzle is coupled to the upper central portion of the nozzle operation guide, the fluid transfer pipe passes through, and the lower end of the restoration spring is seated to support the elastic operation of the restoration spring, It is characterized in that the nozzle upper body for adjusting the internal pressure of the fluid transfer pipe is further configured.

According to this embodiment of the present invention, by applying a certain pressure to a viscous liquid such as edible oil, shampoo, etc., the storage container can be automatically quantitatively filled, thereby reducing the filling time and increasing the efficiency of the filling operation. It can be improved, it is possible to implement automation with less labor of the operator, and there is an effect of simultaneously filling a plurality of containers even when filling a small amount of fluid.

In addition, according to an embodiment of the present invention, a fixed amount of fluid is automatically discharged and filled only when the container to be filled with the fluid is mounted, thereby minimizing the loss of the fluid and, of course, when filling the container with the fluid. It has the effect of preventing contamination of surrounding components due to fluid by preventing it from escaping to the surroundings.

In addition, the various beneficial advantages and effects of the present invention are not limited to the above description, and will be more easily understood in the process of describing specific embodiments of the present invention.

1 is a front view showing a fluid injection device capable of pressure-quantitative filling according to an embodiment of the present invention;
2 is a side view showing a fluid injection device capable of pressure-quantitative filling according to an embodiment of the present invention;
3 is an enlarged view showing a main part of a fluid injection device capable of constant-pressure filling according to an embodiment of the present invention;
4 and 5 are diagrams illustrating a discharge nozzle of a fluid injection device capable of constant-pressure filling according to an embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. First, in adding reference numerals to components of each drawing, it should be noted that the same components have the same numerals as much as possible even if they are displayed on different drawings. In addition, in describing the present invention, if it is determined that a detailed description of a related known configuration or function may obscure the gist of the present invention, the detailed description will be omitted.

In addition, terms such as "comprise", "comprise" or "having" described below mean that the corresponding component may be inherent unless otherwise stated, excluding other components. All terms, including technical or scientific terms, are generally understood by those skilled in the art to which the present invention belongs, unless otherwise defined. have the same meaning as understood. Also, terms such as first, second, A, B, (a), and (b) may be used in describing the components of the present invention. These terms are only used to distinguish the component from other components, and the nature, order, or order of the corresponding component is not limited by the term. When an element is described as being “connected”, “coupled” or “connected” to another element, that element is or may be directly connected to the other element, but there is another element between the elements. It will be understood that elements may be “connected”, “coupled” or “connected”.

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

As shown, the fluid injection device capable of constant pressure filling is connected to the frame unit 100 and the pressure tank 102 to which the pressure tank 102 is mounted, and supplies a certain amount of fluid to the inside of the pressure tank 102. It is configured to include a fluid supply means 200 and a fixed amount discharge means 400 for discharging the fluid discharged from the fluid supply means 200 into the interior of the container in a fixed amount.

The frame unit 100 is configured to be seated on the ground, and the fluid storage tank 210 of the fluid supply means 200, the fluid supply pump 220, and the supply amount control means 230 can be mounted therein, respectively. It is formed in a shape corresponding to the support frame 110 and the upper end of the support frame 110, respectively, and guides the adjustment of the height of the mounting position of the container in which the fluid is accommodated, while the pressure tank 102 ) It is configured to include an adjustment frame 120 to support the mounting of the.

The support frame 110 is configured in a form in which the area gradually narrows from the bottom to the top, and the pump mounting portion is equipped with an air tank connected to the pressure tank 102 to supply a certain amount of compressed air to the lower inner space ( 112) is formed.

The support frame 110 further comprises a support frame 130 on which the fluid storage tank 210 of the fluid supply means 200, the fluid supply pump 220, and the supply amount control means 230 are respectively seated on the upper surface thereof do.

In addition, the support frame 110 is detachably coupled to the control hole 122 of the control frame 120 and adjusts the height of the container to always maintain a constant position regardless of the size of the container. A mounting panel 140 may be further configured so that the end of the discharge nozzle 410 is inserted.

As shown in FIG. 3, the mounting panel 140 supports the container so that the circumferential surface of the lower end of the container is seated in close contact with the front side, and the container seating part 142 supports the container so that the container is seated in an inclined state by a certain angle. ), and a fixed flange 146 coupled to the rear surface to support the mounting panel 140 so that it can be detachably coupled to the control frame 120 and formed to be bent on the upper surface of the fixed flange 146, It consists of a fixed panel 148 that adjusts the height of the mounting panel 140 while being detachably coupled to the adjusting hole 122 of the adjusting frame 120.

In addition, the mounting panel 140 is formed with a predetermined groove between the container seating portion 142 and the fixing flange 146, and when the fluid being filled into the container leaks, the fluid is collected and filled into the filling device. A collection unit 144 that prevents contamination of the frame unit 100 may be further configured.

On the other hand, the control frame 120 is configured at the upper front and rear of the support frame 110, respectively, and together with the support frame 110 supports the load of the pressure tank 102 and simultaneously adjusts the height of the mounting panel 140. It serves as a guide to make this happen.

In such an adjusting frame 120, a plurality of adjusting holes 122 are formed spaced apart at predetermined intervals only in the adjusting frame 120 installed in the front part of the support frame 110, so that the fixing panel 148 of the mounting panel 140 Detachably coupled.

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The fluid supply means 200 includes a fluid storage tank 210, a fluid supply pump 220, a supply amount control means 230 and a fluid supply valve 240.

The fluid storage tank 210 is installed on one side of the supporting panel 130 and serves to receive and temporarily store a fluid having a predetermined viscosity such as cooking oil and shampoo.

The fluid storage tank 210 is connected to the fluid supply pump 220 through a supply amount control means 230, and the supply amount control means 230 is a fluid supply valve configured in the pressure tank 102 by a connection hose or the like ( 240) and is configured to supply a certain amount of fluid to the pressure tank 102.

At this time, the supply amount control means 230 is connected to the fluid supply pump 220 and sucks a certain amount of fluid depending on whether the fluid supply pump 220 is operating and supplies it to the pressure tank 102 side, and is configured at the bottom A connection line 232 composed of a first connection line connected to the fluid storage tank 210 and a second connection line configured at the top and connected to the fluid supply valve 240 is configured.

The pressure tank 102 is connected to an air tank connected to a compressed air supply device for supplying compressed air such as an air compressor to one side of the upper part, and a pressure supply unit 310 for filling a certain amount of compressed air into the pressure tank 102 And, it is configured at a position opposite to the pressure supply unit 310, and the pressure gauge 350 for measuring and displaying the internal pressure of the pressure tank 102, between the pressure supply unit 310 and the pressure gauge 350 A regulator 320 configured to keep the internal pressure of the pressure tank 102 constant and a fluid supply unit 200 that detects the level of fluid filled in the pressure tank 102 and transmits the detected level information to the regulator 320 The level sensor 330 for transmitting to the fluid supply pump 220 is mounted so that the supply amount and supply speed of the fluid to be supplied into the pressure tank 102 can be controlled.

At this time, the regulator 320 detects when a change in the internal pressure of the pressure tank 102 occurs, and adjusts the amount of opening and closing of the pressure supply unit 310 to keep the internal pressure of the pressure tank 102 constant. It can be configured to enable control over

In addition, the regulator 320 may be configured to be connected to the air vent unit 340 to exhaust the internal pressure to the outside when the internal pressure of the pressure tank 102 exceeds a certain pressure.

In addition, the pressure tank 102 is configured to be connected to a discharge pipe 402 of a quantitative discharge means 400 to be described below to the lower surface, so that the fluid stored in the pressure tank 102 is filled with pressure air. ) side and is configured to be discharged to the discharge nozzle 410 side of the quantitative discharge means 400.

As shown in FIGS. 4 and 5 , the constant discharge unit 400 includes a discharge pipe 402 , a discharge nozzle 410 , a recovery spring 420 and a fluid transfer pipe 430 .

The discharge pipe 402 has one side connected to the pressure tank 102 and a lower end connected to the discharge nozzle 410, so that when filling with compressed air, the fluid flowing out due to the pressure of the compressed air flows in, and the introduced fluid It is a component that guides to move toward the discharge nozzle 410.

The discharge pipe 402 is configured to be in communication with the pressure tank 102, and is configured to extend to both lower ends of the fluid discharge path 402a and the discharge pipe 402 to guide the movement of the fluid, and to discharge the fluid through the discharge nozzles. It may be composed of a mounting block 402b to which the fluid moving pipe 430 moving to the side 410 is fixedly coupled.

At this time, the lower surface of the seating block 402b supports the restoring spring 420 so that the upper end of the restoring spring 420 can be seated and elastically operated.

In the present invention, the discharge pipe 402 configured as described above is shown as having a discharge nozzle 410 and a fluid transfer pipe 430 connected to both ends, but is not limited thereto, and includes at least two or more fluid transfer pipes 430. ) and the discharge nozzle 410 may be configured to be connected.

The discharge nozzle 410 is configured so that a fixed amount of fluid can be discharged in a fixed amount into the inside of the container by inserting the fluid transfer pipe 430 therein, and is inserted into the inlet of the container at the lower end to direct the fluid into the container. Discharge is made, the lower end of the restoration spring 420 is seated, and the restoration spring 420 is elastically operated so that the lifting operation and position restoration can be performed.

The discharge nozzle 410 is formed to extend at the lower end, is inserted into the inlet of the container, and includes a discharge guide 414 for guiding a fixed amount of fluid to be discharged into the container, and the discharge guide 414. It consists of a nozzle operation guide 416 extending from the upper end and having a predetermined inclination angle to guide the upward movement of the discharge nozzle 410 while the inlet of the container is in close contact.

At this time, a plurality of fluid discharge holes 412 are formed in the discharge guide 414 at equal intervals along the lower circumferential surface and selectively communicate with the fluid transfer pipe 430 to discharge the fluid.

In addition, the fluid transfer pipe 430 penetrates the upper end of the discharge nozzle 410, that is, the center of the upper part of the nozzle operating guide 416, and the lower end of the recovery spring 420 is seated so that the recovery spring 420 is elastically operated. On the other hand, the nozzle upper body 440 for adjusting the internal pressure of the fluid transfer pipe 430 may be further configured.

The nozzle upper body 440 is formed vertically from the axial direction of the fluid movement pipe 430 on one surface of the outer circumference and is configured with a communication hole 442 formed through so as to communicate with the inside of the fluid movement pipe 430. An opening/closing pin 444 inserted into 442 to open/close the inside of the fluid transfer pipe 430 is further configured.

On the other hand, the fluid transfer pipe 430 is composed of a hollow pipe through which the center is formed, and one side of the upper end is opened to communicate with the fluid discharge path 402a and communicate with the communication hole 442 in the center. And, a through hole 434 configured to be opened or closed in the center penetrated by the opening and closing pin 444 is formed.

In addition, the fluid transfer pipe 430 is formed at equal intervals on the circumferential surface of the lower end, and selectively communicates with the fluid discharge hole 412 to allow a fixed amount of fluid to be discharged.

The constant discharge means 400 of the present invention moves the discharge nozzle 410 upward when the container is seated on the mounting panel 140 in a state of being in close contact with the nozzle operation guide 416 of the discharge nozzle 410. while pressurizing the restoration spring 420 seated on the nozzle upper body 440, and at the same time, the fluid discharge hole 412 of the discharge guide 414 inserted into the inlet of the container is the fluid discharge hole of the fluid transfer pipe 430. While communicating with 432, the fluid filled in the fluid transfer pipe 430 is configured to be discharged into the container through the fluid discharge hole 432 and the fluid discharge hole 412.

That is, the present invention is configured so that a fixed amount of fluid can be discharged only when the discharge guide 414 of the discharge nozzle 410 is inserted into the container, and when the container is separated from the discharge nozzle 410. As the pressing force transmitted to the restoring spring 420 is released, the discharge guide 414 moves downward by the restoring force of the restoring spring 420, and communication between the fluid discharge hole 412 and the fluid discharge hole 432 is released. It is configured to stop the discharge of the fluid.

The above description is merely an example of the technical idea of the present invention, and various modifications and variations can be made to those skilled in the art without departing from the essential characteristics of the present invention. Therefore, the embodiments disclosed in the present invention are not intended to limit the technical idea of the present invention, but to explain, and the scope of the technical idea of the present invention is not limited by these embodiments. The protection scope of the present invention should be construed according to the claims below, and all technical ideas within the equivalent range should be construed as being included in the scope of the present invention.

100: frame part 102: pressure tank
110: support frame 112: pump mounting part
120: adjustment frame 122: adjustment ball
130: supporting frame 140: mounting panel
142: container seating part 144: collection part
146: fixed flange 148: fixed panel
200: fluid supply means 210: fluid storage tank
220: fluid supply pump 230: supply amount control means
232: connection line 240: fluid supply valve
310: pressure supply unit 320: regulator
330: level sensor 340: air vent unit
400: fixed discharge means 402: discharge piping
402a: fluid discharge path 402b: seating block
410: discharge nozzle 412: fluid discharge hole
414: discharge guide part 416: nozzle operation guide
420; Return spring 430: fluid transfer pipe
432: fluid discharge hole 434: through hole
440: nozzle upper body 444: opening and closing pin

Claims (5)

A pressure tank 102 filled with a fluid having a predetermined viscosity and compressed air therein;
Connecting a fluid storage tank 210 in which the fluid is stored, a fluid supply pump 220 for supplying the fluid to the pressure tank 102, and the fluid storage tank 210 and the fluid supply pump 220, Fluid supply means 200 including a supply amount control means 230 for controlling the supply amount of the fluid, and a fluid supply valve 240 coupled to the pressure tank 102 and connected to the supply amount control means 230 ;
A fluid discharge path 402a connected to the pressure tank 102, configured to communicate with the pressure tank 102 so that the fluid discharged by the pressure of compressed air can flow in, and to guide the movement of the fluid; The discharge pipe 402 is configured to extend at both lower ends of the discharge pipe 402 and is composed of a seating block 402b to which a fluid transfer pipe 430 for moving fluid toward the discharge nozzle 410 is fixedly coupled, and the discharge pipe 402 A fluid movement pipe 430 coupled to the pipe 402, guiding the movement of fluid and discharging the moved fluid into the container, and the fluid movement pipe 430 being inserted to discharge a certain amount of fluid into the container in a fixed amount a discharge nozzle 410 configured to achieve this, and a fixed discharge means 400 including a restoration spring 420 for restoring the position of the discharge nozzle 410; and
A support frame including a support frame 130 on which an air tank connected to the pressure tank 102 is mounted and on which the fluid storage tank 210, the fluid supply pump 220, and the supply amount control means 230 are respectively seated 110, an adjustment frame 120 supporting the lower part of the pressure tank 102 and having a plurality of adjustment holes 122 formed therein so as to adjust the height of the mounting panel 140, and the container by a predetermined angle. A container seating portion 142 for supporting the seating in an inclined state, a fixing panel 148 formed to be detachably coupled to the control hole 122, a fixed flange 146, the container seating portion ( 142) and the frame portion 100 including a mounting panel 140 formed between the fixing flange 146 and composed of a collecting portion 144 for collecting leaking fluid;
The discharge nozzle 410 is
A discharge guide 414 extending from the lower end and inserted into the inlet of the container to guide a fixed amount of fluid to be discharged into the container;
A nozzle operation guide 416 extending from the upper end of the discharge guide 414 and configured to have a predetermined inclination angle to guide the discharge nozzle 410 to move upward while the inlet of the container is in close contact with it;
A plurality of fluid discharge holes 412 formed on the lower circumferential surface of the discharge guide part 414 and selectively communicating with the fluid transfer pipe 430 so that fluid is discharged;
The nozzle operation guide 416 is coupled to the upper central portion, the fluid transport pipe 430 passes through, and the lower end of the restoration spring 420 is seated to support the elastic operation of the restoration spring 420, and the fluid A fluid injection device capable of quantitative pressure filling, characterized in that composed of a nozzle upper body 440 for adjusting the internal pressure of the moving pipe 430.
delete According to claim 1,
The pressure tank 102,
It is configured on one side of the upper part, and a pressure supply unit 310 for filling a certain amount of compressed air;
A pressure gauge 350 for measuring and displaying the internal pressure of the pressure tank 102;
A regulator 320 configured between the pressure supply unit 310 and the pressure gauge 350 to keep the internal pressure of the pressure tank 102 constant;
A level sensor 330 for detecting the level of the fluid filled in the pressure tank 102 and transmitting the detected level information to the fluid supply pump 220, and
An air vent unit 340 connected to the regulator 320 and exhausting the compressed air to the outside.
Fluid injection device capable of pressure-quantity filling, characterized in that it comprises a.
delete According to claim 1,
The nozzle upper body 440,
A communication hole 442 formed perpendicularly from the axial direction of the fluid movement pipe 430 on one surface of the outer circumference and formed through to communicate with the inside of the fluid movement pipe 430;
An opening/closing pin 444 inserted into the communication hole 442 to open/close the inside of the fluid transfer pipe 430
A fluid injection device capable of pressure metering filling, characterized in that further configured.