KR20090097386A - Metering feeder for packaging machine - Google Patents

Abstract

An apparatus for a packing machine for supplying fixed quantity of contents is provided, which can improve effectiveness of package by supplying fixed quantity of contents. An apparatus for a packing machine for supplying fixed quantity of contents comprises a housing(310) and a control unit. The housing is equipped with a receiving space receiving content. A piston is movably installed inside the receiving space. The control unit controls the supply fixed quantity of content by controlling the stroke of the piston. The control unit comprises a first adjusting element(351), a second adjusting element(352), and a shaft(353). The first adjusting element is fixed to the bottom of the piston. A second adjusting element is screwed with the first adjusting element. The shaft moves the first and the second adjusting elements up and down.

Description

Metering feeder for packing machine {METERING FEEDER FOR PACKAGING MACHINE}

The present invention relates to a fixed amount supply device for a packaging machine, and more particularly, to a fixed amount supply device for supplying the contents of the fixed amount to the charging part of the packaging machine.

In general, in order to safely store the contents of the liquid state, gel or gel state, and powder state from the outside, capping or sealing the inlet of the container after filling an appropriate amount into a container having an inlet on one side is called a package.

Here, there are various kinds of containers such as spout pouches, paper packs, bag-type containers, cans, synthetic resin containers, etc., in terms of their purpose to use, storage and storage periods, and contents.

Recently, spout pouches made of flexible materials have been used in consideration of their storage and handling simplicity.

On the other hand, the packaging machine is a device for automating the packaging process of capping or sealing the inlet of the container after filling the contents, such as medicines, shampoos, cosmetics, detergents, beverages, herbal medicines, ice cream and the like into a spout pouch, a cylindrical container.

Such a packaging machine includes a container supply part for supplying a container, a filling part for filling contents in a container, a capping part for capping or sealing an inlet of the container, and the like.

On the other hand, in the charging unit must be filled in the contents of the precisely metered quantity in each container, for such a quantitative filling is required a quantitative supply device for supplying the contents of the quantitative to the charging unit side.

Conventional metering device is mainly composed of a structure for supplying the contents of the metering to the charging unit by a hydraulic or pneumatic mechanism.

However, the conventional metering and feeding device has a disadvantage that the structure is very complicated, and the metering is not precise and thus the packaging efficiency or failure of each container can not be smoothly supplied to the filling unit.

In addition, the conventional quantitative feeding device has a disadvantage in that it is not precise to adjust the supply quantity of the contents in various ranges, thereby not appropriately corresponding to containers of various sizes.

The present invention has been made in view of the above, and an object thereof is to provide a quantitative supply device capable of greatly improving the packaging efficiency by accurately measuring and supplying a supply quantity of contents by a simple mechanism mechanism. .

In addition, an object of the present invention is to provide a quantitative feeding device capable of varying the supply amount of the content to the container of various sizes by precisely adjusting the supply amount of the content in various ranges.

The present invention for achieving the above object is a quantitative supply device for supplying the contents of the quantitative to the packing part of the packaging machine,

A housing having an accommodating space for accommodating contents, the housing having a piston movable therein; And

And a control unit for adjusting the supply quantity of the contents by adjusting the stroke of the piston.

The control unit,

A first adjusting member fixed to the lower end of the piston;

A second adjusting member screwed to the first adjusting member so as to be movable relative to the first adjusting member; And

And a shaft for vertically moving the first and second adjusting members.

The first control member has a hollow portion therein, the second control member is located in the hollow portion of the first control member, the upper end of the second control member is adjustable spaced apart from the bottom of the piston.

The second adjustment member may be formed on the outer peripheral surface graduations.

The shaft passes through the center of the second control member, the upper end of the shaft has a protrusion, the protrusion is located in the separation space between the top of the second control member and the bottom of the piston and the second control member It is characterized in that the contact with the top and the bottom of the piston.

The shaft is characterized by the vertical reciprocating movement by the cam in contact with the lower end.

The housing has a single communication hole communicating with the accommodation space at one side thereof, and the communication hole is connected to a switching valve for switching the flow of contents.

The switching valve,

A flow path block having a communication passage connected to the communication hole of the housing and an inflow passage and an outlet passage branched from the communication passage; And

First and second on / off valves individually connected to the inflow passage and the outlet passage of the flow path block;

The first and second on-off valves are characterized in that they are individually connected to the supply source and the charging section.

The opening operation of the first opening / closing valve, the closing operation of the second opening / closing valve, and the closing operation of the first opening / closing valve and the opening operation of the second opening / closing valve are performed synchronously.

The central axis of the first and second pinion gears is coupled to the valve body of each of the first and second on-off valves, and the teeth of the first and second pinion gears mesh with each other, and the first and second pinions One of the gears is characterized in that the rack gear is engaged.

The present invention as described above has an effect that the packaging efficiency can be greatly improved by accurately measuring and supplying the supply quantity of the contents by a simple mechanism mechanism.

In particular, the present invention has an advantage in that the supply quantity of the contents can be varied and supplied to containers of various sizes by precisely adjusting the supply quantity of the contents in various ranges.

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

1 is a schematic view showing an example of a packaging machine including a metering device according to the present invention.

As shown in FIG. 1, the packaging machine 100 includes a frame 140, a container supply unit 110 supplying a container, and a charging unit 120 filling a content in a container 150 supplied by the container supply unit 110. ), A capping unit 130 for capping the injection unit 151 of the container 150, a transfer device 200 for transferring the container 150, and a quantitative supply device 300 for supplying contents to the charging unit 120. ).

The container supply unit 110, the charging unit 120, and the capping unit 130 are disposed in a line at the front upper side of the frame 140, and the transfer device 200 is installed at the front side of the frame 140 to store the container 150. ) Are sequentially transferred to the container supply unit 110, the charging unit 120, and the capping unit 130.

The container 150 has a filling space therein, and has an injection portion 151 thereon. An injection hole 152 is formed in the inner circumference of the injection part 151, and the contents are filled into the filling space through the injection hole 152. A groove 153 is formed on the outer circumferential surface of the injection portion 151, and the groove 153 is fitted into a gripper 215 of the transfer member 210 described later.

Although the container 150 shown in FIG. 1 is a pouch-shaped container, the present invention is not limited thereto, and various containers having an injection part such as a cylindrical shape or a bag type may be applicable.

The filling part 120 is disposed in a line in the lateral direction of the container supply part 110 and includes a filling nozzle 121 fixedly installed on the upper portion of the frame 140. The filling tank 121 is connected to the storage tank 125 and the fixed-quantity supply device 300, and the contents stored in the storage tank 125 is quantitatively metered through the fixed-quantity supply device 300, and then the charging nozzle Filled in vessel 150 via 121.

The capping unit 130 is disposed in a line in the lateral direction of the charging unit 120, and has a cap supply unit 131 and a pressure cylinder 132.

The cap feeder 131 has a guide space for guiding the cap 135 therein, and supplies the cap 135 to the upper end of the injection portion 151 of the container 150.

The pressure cylinder 132 has a pressure rod 132a operated by hydraulic pressure or pneumatic pressure, and a pressure end 132b is provided at an end of the pressure rod 132a. By the downward operation of the pressure rod 132a, the pressure end 132b completes the capping of the container 150 by pressing the cap 135 toward the injection part 151 side of the container 150.

The conveying apparatus 200 is wound around the plurality of pulleys 246 in the inner space of the frame 140 and installed in a predetermined track shape, the winding drive 250, a plurality of transfer members fixed to the winding drive 250 ( 210).

The conveying member 210 has a pair of grippers 215 spaced apart from each other at one end thereof. A guide gap 142 is formed in the front panel 141 of the frame 140, and the gripper 215 protrudes outward through the guide gap 142. The gripper 215 may be guided through the guide gap 142 when the transfer member 210 is transported along the trajectory of the winding drive 250.

Winding power source 250 may be any one of a belt, a timing belt, a chain, a rope.

The transfer members 210 carry out a predetermined orbital motion by driving the winding electric drive 250, whereby the container 150 is individually divided into the container supply part 110, the charging part 120, and the capping part 130. Transfer them sequentially.

Here, the configuration of the container supply unit 110, the charging unit 120, the capping unit 130, the transfer device 200, etc. is an exemplary configuration of a general packaging machine for explaining the metering unit 300 according to the present invention Therefore, a detailed description thereof will be omitted. That is, the packaging machine 100 to which the quantitative supply device 300 according to the present invention is applied may have various kinds of container supply unit 110, a filling unit 120, a capping unit 130, a container 150, and the like. .

2 to 5 is a view showing a quantitative supply device according to an embodiment of the present invention.

As shown, the metering supply device 300 of the present invention by adjusting the stroke (stroke distance) of the housing 310, the piston 320 movably installed in the housing 310 and the piston 320 Control unit 350 for adjusting the supply amount of the contents.

The housing 310 is installed to be supported on the upper surface of the frame 140 of the packaging machine 100 by a plurality of support posts 315. The housing 310 has a receiving space 311 for temporarily receiving the contents therein. The housing 310 has one or more communication holes 312 on one side thereof, and the communication holes 312 communicate with the accommodation space 311.

The piston 320 is installed in the housing 310 so as to be movable up and down, and the accommodation space 311 is changed by the movement of the piston 320. When the piston 320 moves downward to increase the volume of the accommodation space 311, a negative pressure is generated in the accommodation space 311, whereby the contents are sucked from the storage tank 125 and accommodated in a set quantity. When the piston 320 moves upward, the contents temporarily accommodated in the accommodation space 311 by the pressing force of the piston 320 may be supplied to the filling nozzle 121 of the charging unit 120 at the set quantity. The storage capacity of the accommodation space 311 that can accommodate the contents in proportion to the stroke of the piston 320 is determined, and the storage capacity of the accommodation space 311 can be adjusted as the stroke of the piston 320 is adjusted. .

The adjusting unit 350 includes a first adjusting member 351 coupled to the piston 320, a second adjusting member 352 installed at the center of the first adjusting member 351, and first and second adjusting members 351. And a shaft 353 for vertically moving the 352.

The first adjustment member 351 may be fixedly coupled to the upper end of the piston 320 by screwing or fastening. The first adjusting member 351 has a hollow portion 351a therein, and a first screw portion 351b is formed on the inner diameter surface of the lower end thereof.

The second adjusting member 352 is disposed in the hollow portion 351a of the first adjusting member 351 so that the upper end of the second adjusting member 352 faces the bottom surface of the piston 320. A second screw portion 352b is formed on the outer circumferential surface of the second adjusting member 352, and the second screw portion 352b is engaged with the first screw portion 351b so that the first and second adjusting members 351 and 352 are engaged with each other. It is screwed to move relatively. As a result, an adjustable gap 355 is formed between the lower end of the piston 320 and the upper end of the second adjustment member 352.

An adjustment knob 352c is formed at a lower end of the second adjustment member 352, and when the adjustment knob 352c is turned, the first and second adjustment members 351 and 352 are relative to the screw portions 351b and 352b engaged with each other. It moves relative by movement.

The shaft 353 penetrates the center of the frame 140 and the second adjusting member 352, and a lower end thereof contacts the cam 354. The cam 354 is driven by a drive motor (not shown) or the like, and the shaft 353 is installed to reciprocate in the vertical direction by driving the cam 354. A bellows pipe 357 is sealedly installed on a part of the outer circumferential surface of the shaft 353, whereby the sealing at the portion where the shaft 353 penetrates the frame 140 can be ensured.

A bearing 358 may be interposed between the outer circumferential surface of the shaft 353 and the inner diameter surface of the second adjusting member 352, whereby the vertical movement of the shaft 353 is stably supported.

The shaft 353 has a projection 353a that projects radially on the top thereof. The protrusion 353a is located in the gap 355 between the piston 320 and the second adjusting member 352. When the shaft 353 moves upward, the upper surface of the protrusion 353a pushes the bottom of the piston 320 to move the piston 320 upward, and when the shaft 353 moves downward, the bottom of the protrusion 353a. The piston 320 moves downward by pressing the upper end of the second adjusting member 352. That is, the piston 320 vertically reciprocates by the vertical reciprocating movement of the shaft 353.

When the gap 355 is adjusted by the relative movement of the first and second adjustment members 351 and 352, the stroke of the protrusion 353a of the shaft 353 is adjusted in response thereto. As such, when the stroke of the protrusion 353a is adjusted, the stroke of the piston 320 may be proportionally adjusted correspondingly.

In particular, a scale portion 352d may be formed on the outer circumferential surface of the second adjusting member 352, and the scale portion 352d indicates the supply quantity of the content adjusted according to the stroke control of the piston 320. By using this scale 352d, the operator can easily check while adjusting the supply quantity of the contents with the naked eye.

A cushioning material 353c such as rubber or the like may be provided on the top and / or bottom of the protrusion 353a, whereby the protrusion 353a occurs when the protrusion 353a comes in contact with the piston 320 and / or the second adjusting member 352. To prevent noise.

As such, in the present invention, the distance 355 between the piston 320 and the second adjustment member 352 is adjusted by the relative movement of the first and second adjustment members 351 and 352 to thereby stroke the piston 320. (Stroke distance) is adjusted. In addition, the storage capacity of the accommodation space 311 is adjusted in proportion to the stroke adjustment amount of the piston 320, whereby the supply amount of the contents can be adjusted.

In the present embodiment, the housing 310 has a single communication hole 312 on one side thereof, and through the communication hole 312 the contents are introduced into the receiving space 311 of the housing 310 and then again the charging unit ( Outflow to the filling nozzle 121 side of 120.

The switching unit 400 is connected to the communication hole 312 of the housing 310, and the switching unit 400 switches the flow of the contents.

The switching unit 400 includes a flow path block 410 connected to the communication hole 312 of the housing 310 and first and second open / close valves 420 and 430 connected to the flow path block 410.

The flow block 410 has a communication passage 411 and the inflow and outflow passages 412 and 413 branched from the communication passage 411, and the communication passage 411 has a communication hole through the communication pipe 361. 312).

The outlet port of the first opening / closing valve 420 is connected to the port of the inflow passage 412, and the inlet port of the first opening / closing valve 420 is connected to the storage tank 125 via the first connection pipe 362. do.

The inlet port of the second opening / closing valve 430 is connected to the port of the outlet flow passage 413, and the outlet port of the first opening / closing valve 430 is connected to the charging nozzle of the charging unit 120 via the second connection pipe 363. It is connected to 121.

Meanwhile, the opening operation of the first opening / closing valve 420 and the closing operation of the second opening / closing valve 430, the closing operation of the first opening / closing valve 420, and the opening operation of the second opening / closing valve 430 are respectively synchronous. It proceeds synchronously. That is, the second open / close valve 430 is closed at the same time as the first open / close valve 420 is opened, and the second open / close valve 430 is opened at the same time as the first open / close valve 420 is closed.

Synchronous opening and closing operations of the first and second on-off valves 420 and 430 are achieved by the combination of the first and second pinion gears 451 and 452 and the rack gears 453.

The rack gear 453 has a plurality of straight teeth 453a on one surface thereof, and the first and second pinion gears 451 and 452 are meshed with the teeth 451a and 452a. The central axis of the first and second pinion gears 451 and 452 is coupled to the valve bodies 421 and 431 of the first and second on-off valves 420 and 430, and the respective pinion gears 451 and 452 are As it rotates, the valve bodies 421 and 431 of the first and second on-off valves 420 and 430 rotate to open and close the flow paths 422 and 432 in the respective valves 420 and 430. The teeth 453a of the rack gears 453 may be selectively engaged with any one of the teeth 451a and 452a of the first and second pinion gears 451 and 452. Accordingly, as the rack gear 453 moves up and down, the first and second pinion gears 451 and 452 rotate in opposite directions, thereby opening and closing the first and second on / off valves 420 and 430. Are alternately made.

As a result, the contents of the storage tank 125 are introduced into the accommodation space 311 of the housing 310 via the first opening / closing valve 420, and the contents of the storage space 311 are secondly opened and closed. The valve 430 is supplied to the filling nozzle 121 of the charging unit 120.

At this time, by adjusting the stroke of the piston 320 by the control unit 350, the accommodation capacity of the housing 310 is adjusted, whereby the supply quantity of the contents to be supplied to the charging unit 120 can be adjusted and supplied. .

1 is a front view showing a packaging machine to which the metering device of the present invention is applied.

2 is a front view showing a metering supply according to an embodiment of the present invention.

Figure 3 is a partial cross-sectional view showing a quantitative supply device according to an embodiment of the present invention.

FIG. 4 is a view illustrating a switching unit viewed from the arrow A direction of FIG. 3.

5 is a cross-sectional view showing the first and second on-off valves of the switching unit according to the present invention.

Brief description of symbols for the main parts of the drawings

300: metering unit 310: housing

320: piston 350: adjustment unit

351: first adjusting member 352: second adjusting member

Claims (10)

As a fixed quantity supply device for supplying the contents of the fixed quantity to the charging part of the packaging machine, A housing having an accommodating space for accommodating contents, the housing having a piston movable therein; And And a control unit for adjusting the supply quantity of the contents by adjusting the stroke of the piston. The method of claim 1, The control unit, A first adjusting member fixed to the lower end of the piston; A second adjusting member screwed to the first adjusting member so as to be movable relative to the first adjusting member; And Quantitative supply device for a packaging machine comprising a shaft for vertically moving the first and second adjustment member. The method of claim 1, The first control member has a hollow therein, the second control member is located in the hollow portion of the first control member, the upper end of the second control member is adjustable spaced apart from the bottom of the piston. A fixed quantity supply device for a packaging machine, characterized in that. The method of claim 3, The second adjustment member is a fixed quantity supply device for a packaging machine, characterized in that the graduation is formed on the outer peripheral surface. The method of claim 2, The shaft passes through the center of the second control member, the upper end of the shaft has a protrusion, the protrusion is located in the separation space between the top of the second control member and the bottom of the piston and the second control member Metering supply device for a packaging machine, characterized in that the upper and the bottom of the piston in contact with. The method of claim 2, The shaft is a fixed quantity supply device for a packaging machine, characterized in that the vertical movement by the cam in contact with the lower end. The method of claim 1, The housing has a single communication hole to communicate with the receiving space on one side, the communication hole is fixed quantity supply device for a packaging machine, characterized in that the switching valve for switching the flow of the contents is connected. The method of claim 7, wherein The switching valve, A flow path block having a communication passage connected to the communication hole of the housing and an inflow passage and an outlet passage branched from the communication passage; And And a first and second on / off valves connected to the inflow passage and the outlet passage of the flow path block, respectively. The method of claim 8, The quantitative supply for the packaging machine, characterized in that the opening operation of the first opening and closing valves, the closing operation of the second opening and closing valves, and the closing operation of the first opening and closing valves and the opening operation of the second opening and closing valves are performed synchronously. Device. The method of claim 9, The central axis of the first and second pinion gears is coupled to the valve body of each of the first and second on-off valves, and the teeth of the first and second pinion gears mesh with each other, and the first and second pinions The rack gear is engaged with any one of the gears, the rack gear is fixed quantity supply device for a packaging machine, characterized in that installed to be moved up and down.

Images