KR102052888B1 - Powder packing system capable of powder stabilization discharge - Google Patents

Abstract

The present invention relates to a powder stabilization apparatus of a powder packaging system, which is formed below the storage hopper 10 and the storage hopper 10 in which powder is stored, and is discharged from the storage hopper 10 so that the powder is put into the bag. Quantitative measuring means 20 is set to quantitatively discharge the powder to be discharged, and the powder discharge means 30 is provided to receive the quantitative powder introduced into the quantitative measuring means 20 from the storage hopper 10 to the bag (B) ), The bag supply means 40 for supplying the bag for accommodating the powder to the powder discharge means 30, and the bag B supplied by the bag supply means 40 to hold the powder discharge means. (30) is positioned directly below, and provided directly below the powder discharging means (30) to fill and convey the powder discharged from the powder discharging means (30) to the bag (B) supplied directly under the powder discharging means (30). Automatic packaging means 50 and the ruler The packaging means 50 is formed on one side, the powder packaging system formed by the automatic bag closing means (60) provided to finish the upper end of the bag (B), the powder is accommodated by the automatic packaging means, the automatic packaging means (50) Formed on one side, and supplied with the bag (B) containing the powder by the automatic packaging means to seal the top of the open bag, mixed with air in the bag inside the unstable powder through vibration by the vibrator As the air mixed in the powder is discharged to the upper side of the bag, the powder sinks to the lower side of the bag and stabilizes, and only the air discharged from the powder on the upper side of the bag in the process of transferring to the automatic bag closing means 60 is the upper part of the bag. It relates to a powder stabilization apparatus of a powder packaging system, characterized in that the powder stabilization unit 100 is formed to be discharged to the outside with the opening.

Description

Powder packing system capable of powder stabilization discharge {Powder packing system capable of powder stabilization discharge}

The present invention relates to a powder packaging system capable of stabilizing the discharge of powder, and more particularly, as the air is contained in the powder in the process of filling the powder inside the bag through the powder system, the fire may be scattered due to the scattering of the powder or the volume expansion of the powder. By purifying the powder contained inside the bag in the purged state stably by separating the air from the inside of the bag and stabilizing it, it is possible to prevent the loss of the powder during transport of the bag containing the powder, so that it is possible to package the powder quantitatively. The present invention relates to a powder packaging system capable of stabilizing and discharging powder, which can improve productivity through prevention of poor packing of powder due to loss and prevent work environment pollution due to scattering of powder.

In general, the equipment for packaging the powder is a means for discharging the powder, such as an ogre feeder to discharge the powder transported through the storage hopper, blocking valve or screw conveyor, bag holding means for fixing the bag (bag) for storing the powder It consists of a load cell for measuring the weight of the powder contained in the bag, a bag conveying conveyor for finishing the transfer of the bag, and a dust collecting facility.

Looking at the packaging containing the powder to the bag through the configuration of the conventional powder packaging equipment as described above, the bag is first supplied and fixed by the bag holding means, then the powder is discharged into the bag through the powder discharge means. At this time, the powder is quantitatively measured by the load cell so as to be quantitatively accommodated in the bag, and then conveyed through the conveyor means to close the upper opening of the bag in which the powder is received, and then discharged.

However, the packaging of the powder through the conventional powder packaging equipment is a powder that falls through the powder discharge means due to the impact that the entire contents of the contents fall into the bag at once, the powder is scattered inside the bag and thus a lot of dust As the powder is contained in the bag and the air inside the bag is discharged to the outside, the volume of the powder increases as the powder is diluted with the air, thereby maintaining the destabilized state of the powder inside the bag. Is conveyed through the conveyor means in the expanded state. In the process of transporting such powder in an unstable state inside the bag, the loss of the quantitative powder to be accommodated in the bag due to the flow of the bag is large, and this causes a factor of lowering the reliability of the product due to under-quantification.

Therefore, it is possible to safely transport the bag containing the powder must be stabilized and transported in the bag. In order to stabilize the powder inside the bag, the powder is uniformly accommodated inside the bag, and the air diluted in the powder must be completely separated from the powder and discharged to the outside. However, a part for stabilizing the powder inside the bag is still present. It is impossible to stabilize the body evenly because of the increase of production cost due to unnecessary manpower and stabilization by manpower because there is no separate device other than the method of repeatedly holding the bag by manpower to keep the powder evenly inside. There is a problem that the work environment is deteriorated due to the loss of oil and the scattering of the powder with the expanded volume during transportation and the pollution of the work environment due to dust, which increases work time and increases labor costs.

In addition, the scattering powder and dust generated during the transport of the bag containing the expanded volume of the powder caused errors in the quantitative measurement of the powder, so that the packaging of the quantitatively accommodated powder is difficult to package the powder for quantitative packaging There is a hassle that needs to be re-adjusted from the discharge means to increase the packaging time. In addition, even when the powder is re-injected, there is still a difficulty in quantitative packaging due to instability due to the volume expansion of the powder in the transfer process, which leads to a poor packaging of the powder.

Republic of Korea Patent No. 10-1586583, registered January 12, 2016.

Accordingly, the present invention has been made to solve the problems described above, and the powder inside the bag containing the powder is diluted with air to stabilize the unstable state due to the expanded volume so that the powder is evenly contained within the bag. A powder stabilization device is provided on one side of the powder discharging means so that the diluted air inside the powder is removed from the bag so that the powder is stabilized in the bag and then transported. The powder stabilization device is provided in the bag by the provided powder stabilizer. The powder and air are diluted in the air to quickly discharge the air inside the powder in an unstable state, and the powder inside the bag is evenly settled in the bag to stabilize it, preventing scattering of the powder. Powder packaging can be prevented by quantitative prevention. The purpose of the present invention is to provide a powder packaging system capable of stabilizing and discharging powder that can prevent unnecessary labor cost increase and productivity improvement and prevention of work environment pollution due to the scattering of powder through prevention of poor packaging of powder due to damage of the stand. have.

Powder packaging system capable of stabilizing the discharge of the powder in accordance with the present invention in order to achieve the above object is formed in the storage hopper 10 and the storage hopper 10 is stored, the powder is stored in order to be put into the bag A quantitative measuring means 20 is set to quantitatively discharge the powder discharged from the hopper 10 and the quantitative powder injected from the storage hopper 10 to the quantitative measuring means 20 to receive and discharge to the bag (B). Prepared powder discharge means 30, the bag supply means for supplying the bag for accommodating the powder to the powder discharge means 30, and the bag (B) supplied by the bag supply means 40 The powder discharging means is gripped so as to be positioned directly under the powder discharging means 30, and the powder discharged from the powder discharging means 30 is filled in the bag B supplied directly under the powder discharging means 30. (30) directly under The automatic wrapping means 50 and the automatic wrapping means 50 are formed on one side, and the automatic wrapping means 60 is provided to finish the sewing machine on the upper end of the bag B transported by receiving the powder by the automatic wrapping means. In the formed powder packaging system, formed on one side of the automatic packaging means 50, the bag (B) is supplied by the automatic packaging means to seal the top of the open bag, and then mixed with air in the bag. When the destabilized powder is vibrated by the vibrator and the air mixed in the powder is discharged to the upper side of the bag, the powder sinks to the lower side of the bag and stabilizes, and then is transferred to the automatic bag closing means 60 in the bag. Characterized in that the powder stabilization unit 100 is formed so that only the air discharged from the powder on the upper side is discharged to the outside with the opening of the top of the bag.

Here, the powder stabilization unit 100 has a plurality of vibrators 112 formed on one side of the automatic packaging means, and mixed with air from the automatic packaging means 50 is supplied so that the bag containing the powder in the destabilized state is supplied. A vibrating plate 114 is formed above the vibrator 112, and the vibrating housing is provided to vibrate the vibrating plate 114 according to the operation of the vibrator 112 to vibrate the bag B positioned on the vibrating plate. 110; When the bag B in the standing state receives the powder onto the vibrating plate 114 and is supplied, the bag is fixed so as not to fall down due to the vibration of the vibrating plate, and included in the powder by the vibration of the vibrating plate 114. When the air is discharged from the powder, the upper part of the bag is sealed so that powder and air are completely separated and stabilized inside the bag without being discharged to the outside together with the powder or dust, and when the powder inside the bag B is stabilized, Characterized in that formed by the bag-sealing means 120 is provided so that only the air in the bag is discharged to the outside while opening the sealed bag top while transferring to the bag closing means (60).

On the other hand, the bag sealing means 120 is coupled to the upper portion of the automatic packaging means, the cylinder unit 122 is provided to position the bag (B) on the vibration plate 114 through the vertical operation of the cylinder rod; The guide unit 124 is formed symmetrically to the left and right sides of the cylinder unit 122, the guide bar is operated together and guided without deviating from the same vertical line directly above the vibration plate 114 when the cylinder rod of the cylinder unit 122 moves up and down and; A lifting plate 126 on a horizontal plate coupled to the lower end of the cylinder rod 122 and the lower end of the guide rod 124 of the guide unit 124; A closed cylinder unit 128 coupled to a lower surface of the elevating frame 126 and symmetrically formed to correspond to a cylinder rod on the front and rear surfaces of an open top of the bag; Is coupled to each end of the cylinder rod of the symmetrically formed cylinder cylinder 128, the length is equal to or larger than the upper left and right width of the bag (B) to be gripped and sealed in contact with the open upper front and rear surfaces of the bag (B) Grip sealing plate 130; characterized in that formed.

The present invention grasps the bag to one side of the powder discharge means, vibrating the bag to quickly discharge the air diluted in the powder to stabilize the unstable powder is expanded due to the dilution of the powder and the air inside the bag in the process of being accommodated in the bag By soaking the expanded powder in the bag to stabilize the inside of the bag, to prevent the scattering of the powder from the inside of the bag during the transport of the bag containing the powder, and to prevent the loss of the powder can be packed in quantitative powder Work due to loss of powder and swelling of the bag by air diluted in the powder, preventing unnecessary labor cost increase through the prevention of poor packing of the bag due to the damage of the bag which is weak to external impact, improving productivity, and scattering of the powder. It is effective to prevent environmental pollution.

1 is an overall side view of the powder packaging system capable of stabilizing the discharge according to the present invention.
Figure 2 is a side view of the main part of the powder stabilization unit of the powder packaging system capable of discharging powder stabilized according to the present invention.
Figure 3 is a side view of the main part of the vibration housing of the powder packaging system capable of discharging the powder stabilized according to the present invention.
Figure 4 is a side view of the main portion of the bag sealing gripping means of the powder packaging system capable of stabilizing the discharge of the powder according to the present invention.

Advantages and features of the present invention, and methods for achieving them will be apparent with reference to the embodiments described below in detail in conjunction with the accompanying drawings. However, the present invention is not limited to the embodiments disclosed below but will be implemented in many different forms.

In this specification, this embodiment is provided to make the disclosure of the present invention complete, and to fully inform the scope of the invention to those skilled in the art. And the present invention is only defined by the scope of the claims. Thus, in some embodiments, well known components, well known operations and well known techniques are not described in detail in order to avoid obscuring the present invention.

Like reference numerals refer to like elements throughout. In addition, the terms used (discussed) herein are for the purpose of describing particular embodiments only and are not intended to be limiting of the invention. In this specification, the singular also includes the plural unless specifically stated otherwise in the phrase. In addition, components and operations referred to as 'includes (or includes)' do not exclude the presence or addition of one or more other components and operations.

Unless otherwise defined, all terms (including technical and scientific terms) used in the present specification may be used in a sense that can be commonly understood by those skilled in the art. In addition, the terms defined in the commonly used dictionary are not ideally or excessively interpreted unless they are defined.

Hereinafter, with reference to the accompanying drawings will be described in detail the technical features according to an embodiment of the powder packaging system capable of stabilizing the discharge according to the present invention.

1 is an overall side view of the powder packaging system capable of stabilizing the discharge according to the present invention, Figure 2 is a main side view of the powder stabilization unit of the powder packaging system capable of stabilizing the discharge according to the present invention, Figure 3 is the present invention Main part side view of the vibration housing of the powder packaging system capable of stabilizing the discharge according to the present invention, Figure 4 is a main side view of the bag sealing means of the bag packaging system capable of stabilizing the discharge of powder according to the present invention.

In the powder packaging system capable of stabilizing and discharging the powder according to the present invention, the powder is diluted with the air inside and outside the bag in the process of injecting the powder into the bag, and is accommodated in the bag. Stabilization of the unstable powder due to irregular scattering of the powder due to the occurrence of the bagging phenomenon of the bag and the impact of the powder injected into the bag, thereby minimizing the breakage of the bag due to the bagging phenomenon of the bag, Not only to solve the problems caused by the storage of the bag, but also to facilitate the quantitative packaging through the control of the generation of powder dust scattered through the stabilization of the powder, it is diluted with the air in the bag as described above to expand the volume In order to stabilize the powder, the bag is lifted up by manpower. It reduces the manpower wasted by separating the air and powder diluted in the powder to stabilize the powder, and prevents the defect of quantitative powder packaging by the dust and the scattered powder caused by the scattering of the powder caused by the flow of the bag by the manpower. It is formed to.

The powder packaging system capable of stabilizing and discharging the powder is formed in the storage hopper 10 in which the powder is stored and the lower side of the storage hopper 10, and the powder discharged from the storage hopper 10 to be injected into the bag. A quantitative measuring means 20 quantitatively set to quantitatively discharge, powder discharging means 30 arranged to receive powder of quantitatively charged from the storage hopper 10 into the quantitative measuring means 20 and to discharge it to the bag B; A bag supply means 40 for supplying a bag for accommodating the powder to the powder discharge means 30, and a bag (B) supplied by the bag supply means 40 to hold the powder discharge means (30) Automatic packaging means provided so as to be positioned directly underneath, so as to fill and transport the powder discharged from the powder discharging means 30 to the bag (B) supplied directly under the powder discharging means (30). 50, the automatic gun The conventional powder packaging system formed on one side and formed of automatic bag closing means 60 provided to finish the upper end of the bag (B) transported by receiving the powder by automatic packing means is shown in FIG. As described above, the powder stabilization unit 100 is configured between the automatic packing means 50 for introducing the powder into the bag and the automatic bag closing means 60 for finishing the sewing of the opened bag top by stabilizing the expanded powder. And preventing poor powder quantity packaging due to scattering powder generated in the stabilization step.

The powder stabilization unit 100 is formed on one side of the automatic packing means 50, and receives the bag (B) containing the powder by the automatic packing means to seal the top of the open bag, and then inside the bag. The process of transporting to the automatic bag closing means (60) after the air mixed with the air is stabilized by the air mixed in the powder is discharged to the upper side in the bag through the vibration by the vibrator is stabilized by the lower side in the bag. Only air discharged from the powder on the upper side in the bag is formed to discharge to the outside with the opening of the bag top.

The powder stabilization unit 100, as shown in Figure 2, is composed of a vibration housing 110, the bag sealing means 120. Here, as shown in FIG. 3, the vibrating housing 110 includes a plurality of vibrators 112 formed on one side of the automatic packing means, and mixed with air from the automatic packing means 50 to accommodate powder in an unstable state. A vibrating plate 114 is formed above the vibrator 112 so that the bag is supplied and positioned. The vibrating plate 114 is vibrated in accordance with the operation of the vibrator 112 to vibrate B positioned on the vibrating plate. ) Is vibrated.

The bag sealing means 120 is fixed to prevent the bag is collapsed by the vibration of the vibration plate when the bag (B) in the standing state is received by receiving the powder on the vibration plate 114, the vibration plate 114 Air in the powder is discharged from the powder by the vibration of the) and the top of the bag is sealed to ensure that the powder and air are completely separated and stabilized inside the bag without being discharged to the outside together with the powder or dust. B) When the powder inside is stabilized, the air inside the bag is discharged to the outside while opening the closed bag top while transferring to the automatic bag closing means 60. As shown in FIG. 4, the cylinder unit 122 ), The guide unit 124, the lifting frame 126, the closed cylinder unit 128, the grip sealing plate 130 is composed of.

The cylinder unit 122 seals and grips the opened upper portion of the bag B by a gripping seal plate to be described later, and then moves the bag to a position and automatic bag closing means 60 on the vibration plate to be described later. The bag is formed to move up and down, is coupled to the upper portion of the automatic packaging means 50, it is provided to position the bag (B) on the vibration plate 114 through the vertical operation of the cylinder rod.

The guide unit 124 is formed symmetrically to the left and right sides of the cylinder unit 122, the guide bar is operated together without deviating from the same vertical line directly above the vibration plate 114 during the lifting operation of the cylinder rod of the cylinder unit 122 It is provided to guide.

The lifting frame 126 is coupled to the sealed cylinder unit to be described later is to be moved up and down to the vibration plate side by the cylinder unit, the cylinder rod lower end and the guide unit 124 guide rod lower end of the cylinder unit 122 is operated up and down It is formed in a horizontal plate shape that is coupled to.

The sealing cylinder unit 128 is formed so as to move forward and backward when facing each other horizontally from the front and rear sides of the bag so as to be held together by the gripping sealing plate 130 to be described later closed the upper side of the bag, the lifting frame 126 is coupled to the lower surface, the cylinder rod is correspondingly symmetrically formed on the front and rear surfaces of the open top of the bag.

The gripping seal plate 130 is formed to correspond to the width of the left and right length of the bag so as to be in close contact with the upper front and rear surfaces of the bag (B) in accordance with the front and rear operation of the sealed cylinder unit 128 described above. , Are respectively coupled to the ends of the cylinder rod of the symmetrically formed cylinder cylinder 128, the length is greater than or equal to the width of the upper left and right sides of the bag (B) to be gripped and sealed in contact with the open upper front and rear surfaces of the bag (B) Is formed.

In the powder packaging system capable of stabilizing and discharging the powder according to the present invention, when the bag is supplied by the bag supply means 40 to the powder discharge means 30, the powder stored in the storage hopper 10 is transferred to the quantitative measuring means 20. After a quantitative measurement by the automatic packaging means 50, the gripping step is put into the inside of the bag open top.

At this time, the powder put into the bag is mixed with the air inside and outside the bag during the fall rate from the powder discharging means and the inside of the bag, and the powder contained in the bag has greatly expanded the voids between the particles, causing the volume of the powder to temporarily expand and destabilize The powder of the state will be in the state accommodated in the bag.

after. The bag B containing the destabilized powder is transported from the automatic packing means 50 to the automatic packing closing means 60, and in this process, the powder stabilizing unit 100 is formed on one side of the automatic packing means 50. Wherein B) proceeds through the bag (B) first the cylinder rod of the cylinder unit 122 is moved downward to the upper side of the opening of the bag, the guide unit 124 also moves together.

Next, as the lifting frame 126 moves downward according to the operation of the cylinder unit 122, the closed cylinder unit 128 provided before and after the bag B on the lower surface of the lifting frame 126 is operated, and is sealed. While the cylinder rod of the cylinder unit 128 is moved back and forth to the bag front and rear surface side, the gripping sealing plate 130 is in close contact with the bag front and rear surface so as to grip.

Here, the gripping closure plate 130 is formed to be equal to or longer than the left and right length of the open top of the bag so that the open top of the bag is completely sealed. The reason is that when the bag is vibrated by vibrator which will be described below, the air mixed in the powder in the unstable state is separated, generating scattering powder, and as a result of the powder dust, a large amount of powder is discharged to the outside of the bag. By preventing from being made, it is possible to maintain the initial state of the quantitative packaging of the powder package by maintaining the original powder as it is measured.

As such, the bag B opened by the grip sealing plate 130 is hermetically gripped and placed on the upper surface of the vibrating plate 114 of the vibrating housing 110, and then vibrating plate according to the operation of the vibrator 112. 114 is activated, and the bag B vibrates together to separate the air in the powder having the expanded volume in an unstable state from the powder, thereby minimizing the powder particle voids and proceeding the powder to a stabilized state.

Next, as time elapses continuously, the powder is stabilized while the powder scattered inside the sealed bag according to the vibration of the bag B is settled by gravity, and is then automatically packed by the bag sealing means 120. While moving the bag (B) to the closing means 60 side by moving back and forth holding the gripping sealing plate 130 in close contact with the front and back of the top of the bag (B) by changing the upper part of the bag back to an open state again inside The air is naturally discharged, and then, by sewing and finishing the bag top opened by the automatic packing closing means 60, the stabilized powder containing the fixed amount is packed.

Thus, the bag containing safe powder is significantly reduced in volume, making it easy to store and move the bag, and the bag's damage caused by external shocks is significantly reduced due to the bulking of the bag due to air volume expansion. It is self-evident that it can be improved further.

The present invention has been described in detail as an embodiment, but the scope of the present invention is not limited thereto, and a person of ordinary skill within the technical scope of the present invention is apparent that many modifications and variations are possible. It will be included to the practical equivalents of the embodiment.

10: storage hopper 20: quantitative measuring means
30: powder discharge means 40: bag supply means
50: automatic packing means 60: automatic bag closing means
100: powder stabilization unit 110: vibration housing
112: vibrator 114: vibration plate
120: bag sealing means 122: cylinder unit
124: guide unit 126: lifting frame
128: sealed cylinder unit 130: gripping closed plate

Claims (3)

The storage hopper 10 in which the powder is stored, and the lower side of the storage hopper 10, the quantitative measuring means 20 is quantitatively set to discharge the powder discharged from the storage hopper 10 in order to put the powder into the bag And, the powder discharge means 30 is provided to receive the quantitative powder introduced into the quantitative measuring means 20 from the storage hopper 10 to the bag (B), and to receive the powder in the powder discharge means (30) The bag supply means for supplying the bag for supplying the bag and the bag (B) supplied by the bag supply means 40 to be positioned directly below the powder discharge means 30, the powder discharge means (30) Automatic packaging means 50 provided directly under the powder discharging means 30 to fill and transport the powder discharged from the powder discharging means 30 to the bag (B) supplied directly below, and the automatic packing means (50). ) Formed on one side and powdered by automatic packing means In the powder packaging system formed of the automatic bag closing means 60 provided to finish the sewing machine (B) the upper end received and transported, the bag is formed on one side of the automatic packing means 50, the powder is received by the automatic packing means After receiving (B), the top of the opened bag is sealed, and the air mixed in the bag is unstable and mixed with air inside the bag through the vibration by the vibrator. After sinking downward and stabilizing, the powder stabilization unit 100 is formed such that only air discharged from the powder on the upper side of the bag is discharged to the outside along with the opening of the bag in the process of transferring to the automatic bag closing means 60. The powder stabilization unit 100 has a plurality of vibrators 112 formed on one side of the automatic packing means, and is mixed with air from the automatic packing means 50. The vibrating plate 114 is formed above the vibrator 112 so that the bag containing the destabilized powder is supplied and positioned on the vibrating plate by vibrating the vibrating plate 114 according to the operation of the vibrator 112. A vibrating housing 110 provided to vibrate the bag B; When the bag B in the standing state receives the powder onto the vibrating plate 114 and is supplied, the bag is fixed so as not to fall down due to the vibration of the vibrating plate, and included in the powder by the vibration of the vibrating plate 114. When the air is discharged from the powder, the upper part of the bag is sealed so that powder and air are completely separated and stabilized inside the bag without being discharged to the outside together with the powder or dust, and when the powder inside the bag B is stabilized, The bag sealing means 120 is formed to be discharged to the outside while only the air inside the bag is opened while transporting to the bag closing means 60, the bag sealing means 120 is an automatic packaging A cylinder unit 122 coupled to an upper portion of the means and provided to position the bag B on the vibration plate 114 through vertical operation of the cylinder rod; The guide unit 124 is formed symmetrically to the left and right sides of the cylinder unit 122, the guide bar is operated together and guided without deviating from the same vertical line directly above the vibration plate 114 when the cylinder rod of the cylinder unit 122 moves up and down and; A lifting plate 126 on a horizontal plate coupled to the lower end of the cylinder rod 122 and the lower end of the guide unit 124 guide rod operated up and down; A sealed cylinder unit 128 coupled to a lower surface of the elevating frame 126 and symmetrically formed to correspond to a cylinder rod on the front and rear surfaces of the open top of the bag; Is coupled to each end of the cylinder rod of the symmetrically formed cylinder cylinder 128, the length is equal to or larger than the upper left and right width of the bag (B) to be gripped and sealed in contact with the open upper front and rear surfaces of the bag (B) Grip sealing plate 130; Powder packaging system capable of stabilizing the powder discharge, characterized in that formed in.
delete delete

Images