JP2009067423A - Dispensing packaging apparatus - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a dispensing packaging apparatus from which dust can be hygienically removed by reducing a chance for an operator to come into contact with a filter as much as possible. <P>SOLUTION: The dispensing packaging apparatus can dispense granules fed into an annular recessed channel on a rotary table by a specified amount, and successively packages the dispensed granules. A dust collecting duct opened to a part where the dust of the granules is generated is arranged, and a dust collecting filter device connected with the dust collecting duct through a suction path for catching the dust passing through the suction path is provided. The dust collecting filter device has a catching filter and a mounting body mounted with the catching filter, and the mounting body and the catching filter are integrated with the main body of the dispensing packaging apparatus freely removably. <P>COPYRIGHT: (C)2009,JPO&INPIT

Description

  The present invention relates to a packaging device for packaging powders such as drugs, and more particularly to the structure of a dust collection filter device of a packaging device.

For example, in a packaging device that handles powder as granular material, it is necessary to suck and clean the dust (powdered material) adhering to the device in order to prevent contamination. For this reason, in the packaging apparatus shown in the following patent document 1 etc., the filter which capture | acquires the dust attracted | sucked using the suction machine is provided.
Japanese Patent Laid-Open No. 5-213301

In the conventional packaging device, the operator directly grips the filter with fingers and removes the filter from the packaging device, and the dust attached to the filter is sucked and removed by a suction device such as a vacuum cleaner.
However, there is a problem that it is not hygienic for an operator to directly hold the filter with fingers.

  Then, in view of the said subject, this invention aims at provision of the packaging apparatus which can reduce the opportunity that an operator contacts a filter as much as possible, and can cleanly remove dust hygienically.

  The present invention is a packaging device that cuts out a predetermined amount of granular material supplied to an annular groove on a rotary table and sequentially divides the cut granular material, and the dust of the granular material is A dust collection duct that is opened in the generated portion is disposed, connected to the dust collection duct via a suction path, and provided with a dust collection filter device for capturing dust that has passed through the suction path, and the dust collection duct The filter device includes a capture filter and a mounting body on which the capture filter is mounted, and the mounting body and the capture filter are integrally and detachably provided on the packaging device body.

  In the above configuration, dust is captured from the dust collecting duct through the suction path so as to adhere to the capture filter, and the mounting body equipped with the capture filter is detachable from the packaging device body integrally with the capture filter. In order to clean and remove the dust adhering to the capture filter, the operator can remove the gripping body with his / her fingers and remove it, which reduces the chance of the operator directly touching the capture filter and is hygienic. .

  In the packaging device of the present invention, the mounting body is detachably provided in a case fixed to the packaging device body, the case is disposed in the middle of the suction path, and the mounting body is mounted in the case The suction device for making negative pressure in the case and the wearing body is connected to the case.

  In the above configuration, the attachment body is attached to the case together with the capture filter, and the case is connected to the suction path. Dust adhering to the capture filter attached to the body is aspirated and dust is cleaned and removed, so that the dust attached to the capture filter is removed without the operator directly touching the capture filter, Hygienic.

  According to the packaging device of the present invention, the mounting body equipped with the capture filter is detachable from the packaging device body integrally with the capture filter. The operator can reduce the chance that the operator directly touches the capture filter by gripping and removing the mounting body with his / her fingers, and can cleanly remove dust adhering to the capture filter.

  Hereinafter, the packing device according to the present invention will be described with reference to the drawings, taking as an example a powder packing device that handles powder as a granular material. FIG. 1 is a schematic plan view of a part extracted from a packaging device showing an embodiment of the present invention, FIG. 2 is a front view thereof, and FIG. 3 is an upper view mainly of a hopper arranged on a side of a cutout portion. FIG. 4 is a front view mainly showing a hopper and a sealing device, and FIG. 5 is a single front sectional view of the hopper.

  As shown in FIGS. 1 to 5, the packaging device 1 according to the embodiment of the present invention includes a rotary plate 4 that rotates integrally with the rotary table 2 around the vertical axis 3, and an annular groove 5 of the rotary plate 4. The feeder 7 for supplying the powder 6, the cutting part 8 for cutting the powder 6 supplied to the annular groove 5 outward in the radial direction of the rotary table 2 by a predetermined amount, and the cutting part 8. A hopper 9 that receives the powder 6, a sealing device 10 that wraps (heat-seals) the wrapping paper B that can receive the powder 6 dropped from the hopper 9, and is generated by a packaging operation. And a dust collection unit for cleaning and removing the powder 6 as dust.

FIG. 6 is a perspective view from the rear of the packaging device with the back plate removed, and FIG. 7 is an explanatory diagram linearly showing the dust collection path.
As shown in FIG. 6 and FIG. 7, as a dust collection unit, dust collection ducts provided at a plurality of locations described later, a dust collection filter device 11 connected to a predetermined dust collection duct among the dust collection ducts, and the rest The dust collecting filter device has a switching valve device 12 (four-way switching valve device) connected to the dust collecting duct, and the predetermined dust collecting duct is disposed on the fan suction path 13 via the fan suction path 13. 11, the remaining dust collection duct and the switching valve device 12 are connected in communication by a vacuum cleaner suction path 14.
In addition, at least one of the fan suction paths 13 is configured to be detachable so as to be connected to the cleaner suction path 14.

  Returning to FIG. 1 to FIG. 5, the rotating plate 4 includes a flat plate portion 15 on the inner diameter side and a groove portion 16 having an arcuate cross section formed integrally on the outer diameter side of the flat plate portion 15 and projecting downward. The annular groove 5 is formed on the upper surface of the groove 16.

An annular groove member 17 is attached concentrically with the rotating plate 4 at a position closer to the inner diameter of the upper surface of the flat plate portion 15 of the rotating plate 4 when viewed from above. The groove member 17 includes an annular groove bottom plate 18, an inner diameter side plate wall 19 that rises upward from a radially inner end side of the groove bottom plate 18, and an outer portion that rises upward from a radially outer end side of the groove bottom plate 18. It is formed from the radial side wall 20.
For example, the groove member 17 has its groove bottom plate 18 fixed to the upper surface of the flat plate portion 15 from above by attachment means such as a screw (not shown).
A drive device 25 and the like for driving the cutout portion 8 and the like are disposed inside the rotary plate 4 in the radial direction. The drive device 25 includes a switching mechanism 28 that switches the posture of the cutout portion 8, the posture of the first cleaning portion 26 described in detail later, and the posture of the second cleaning portion 27 in cooperation with each other.

  That is, the packaging device 1 includes a cleaning mechanism, and the cleaning mechanism remains in the first groove 26 and the annular groove 5 for cleaning and removing dust caused by the powder 6 adhering to the cutout 8. The second cleaning unit 27 for cleaning / removing dust, the third cleaning unit 29 for cleaning / removing dust scattered on the groove member 17 by the packaging operation of the packaging device 1, and the hopper 9 A fourth cleaning unit 30 for cleaning and removing dust, a fifth cleaning unit 31 provided to clean and remove dust around the feeder 7, and the first cleaning unit 26 to the fourth cleaning unit 30 And a sixth cleaning unit 32 for cleaning and removing dust adhering to an area other than the area to be cleaned and removed.

  The first cleaning part 26 has a first dust collecting duct 33, the second cleaning part 27 has a second dust collecting duct 34, the third cleaning part 29 has a third dust collecting duct 35, and the fourth cleaning part 30. Are provided with a fourth dust collecting duct 36, a fifth dust collecting duct 37 in the fifth cleaning part 31, and a sixth dust collecting duct 38 in the sixth cleaning part 32.

  Although these dust collection ducts will be described later, as shown in FIG. 7, among the dust collection ducts, a part of the fourth dust collection duct 36 and the fifth dust collection duct 37 are connected to the fan suction path 13 respectively. Among the dust collection ducts, a first dust collection duct 33 to a part of the third dust collection duct 35 and a part of the fourth dust collection duct 36 and a sixth dust collection duct 38 are respectively connected to the cleaner suction path 14. . The sixth dust collection duct 38 can be detachably connected to the fan suction path 13, specifically, to the dust collection filter device 11, while maintaining the state of being connected to the cleaner suction path 14. It has become.

8 and 9 are detailed views of the switching valve device, FIG. 8 is an overall perspective view of the switching valve device, and FIG. 9 is an exploded perspective view of the switching valve device. The switching valve device 12 is disposed on the back side in the packaging device main body 39 and is attached to the packaging device main body 39 via the mounting table 40.
As shown in FIGS. 8 and 9, the switching valve device 12 has a cylindrical switching valve device main body 42 that is mounted and fixed on the upper surface of the mounting table 40. Four circular openings 43 are formed on the outer peripheral wall of the switching valve device main body 42 at equal intervals in the circumferential direction, and each opening 43 is formed with the same height and the same diameter.

  Four cylindrical cleaner path joints 45, 46, 47, 48 are connected to the radially outer side of each opening 43. These vacuum cleaner path joints 45, 46, 47, 48 are each formed of a horizontal portion 55 extending radially outward from the opening 43 and a vertical portion 56 extending upward from its end. The vertical portion 56 is opened upward.

The switching valve device 12 has a valve body 57. The valve body 57 is formed in a bottomed cylindrical shape with the upper part closed, and is fitted to the inner space of the switching valve device main body 42 so as to be rotatable about its axis (vertical direction).
The mounting table 40 is formed with a communication hole (not shown) that communicates with the inner space of the switching valve device main body 42. A circular suction port 58 is formed in the outer peripheral wall of the valve body 57 so as to face the opening 43 radially inward, and the suction port 58 communicates with the inner space of the valve body 57.

  A mounting flange 60 that extends outward in the radial direction is integrally formed at the upper end portion of the switching valve device main body 42, and the valve body 57 rotates around the axis center of the mounting flange 60 via a support 61. It is provided freely. A switching motor 62 for selectively switching the posture of the valve body 57, that is, the position of the suction port 58, is attached to the upper portion of the support 61.

  A joint 64 having a hollow hole 63 communicating with the communication hole is formed at the center of the lower surface of the mounting table 40, and a flange 110 of the joint 64 is fixed to the lower surface of the mounting table 40.

  As shown in FIG. 6, a vacuum cleaner 65 as a strong suction machine is provided below the side of the switching valve device 12, and includes a horizontal partition wall 66, a vertical partition wall 67, and a packaging device body 39 provided in the packaging device body 39. It is installed in the area partitioned by the bottom wall 39a and the like. The joint 64 and the vacuum cleaner 65 are connected in communication by a connection hose H 1, and the connection hose H 1 passes through the vertical partition wall 67.

  FIGS. 10 and 11 show the dust collecting filter device 11 and the surrounding structure, FIG. 10 is a perspective view of the dust collecting filter device 11 and the case, and FIG. 11 is a structural diagram of the dust collecting filter device. 11A is a plan view of the dust collecting filter device 11, FIG. 11B is a front view, FIG. 11C is a bottom view, and FIG. 11D is a side sectional view taken along the center line of FIG.

The dust collection filter device 11 is for capturing dust that has passed through the fan suction path 13 from the fourth dust collection duct 36 and the fifth dust collection duct 37.
As shown in FIGS. 10 and 11, the dust collection filter device 11 includes a bellows-shaped capture filter 80 and a mounting body 81 on which the capture filter 80 is mounted. The mounting body 81 and the capture filter 80 are detachably provided on the packaging device main body 39 integrally. In this case, the mounting body 81 is detachably provided on a case 82 fixed to the packaging device main body 39, and the case 82 is disposed in the middle of the fan suction path 13.

The front surface of the case 82 is opened and formed in a box shape from the top wall 83, the side wall 84, the rear wall 85, and the bottom wall 86. The bottom wall 86 of the case 82 is provided with a guide member 101 that guides the attachment / detachment of the mounting body 81.
The guide member 101 is plate-shaped and has a predetermined thickness, and is configured to support the mounting body 81 in a state of being slightly lifted from the bottom wall 86 of the case 82 when the mounting body 81 is mounted on the case 82. It is what. In addition, the front surface of the guide member 101 is formed on an inclined surface that is inclined upward to facilitate the insertion of the mounting body 81.

  The mounting body 81 is formed with a lid portion 102 that closes the front open portion of the case 82, and a storage portion 103 that integrally mounts the capture filter 80 from above is integrally formed on the back surface of the lid portion 102. The storage portion 103 is formed in an upwardly open shape from both side walls 87, a rear wall 88, and a bottom wall 89.

  On the upper surface of the lid portion 102, an elastic piece 104 is formed integrally with the lid portion 102 so as to elastically press the upper inner surface of the front open portion of the case 82 and hold the mounting state of the mounting body 81 to the case 82. ing. The elastic piece 104 is integrally formed with an operation piece 105 that protrudes forward from the front opening portion of the case 82 when the mounting body 81 is attached to the case 82.

  That is, when the mounting body 81 is mounted so as to be pushed rearward from the front open portion of the case 82, the elastic piece 104 is pressed by the upper inner surface of the front open portion of the case 82 and elastically deforms so that the elastic piece 104 is further bent. The attachment body 81 is securely attached to the case 82 by the elastic force, and the operation piece 105 protruding forward from the front opening portion of the case 82 is pressed downward in the attached state of the attachment body 81 to downwardly move the case 82 of the elastic piece 104. The front body open portion is released and the mounting body 81 is pulled forward, so that the mounting body 81 and the capture filter 80 can be removed from the case 82.

  A stepped surface 107 that supports the frame member 106 provided on the outer peripheral portion of the capture filter 80 is formed in the middle portion of the inner surface of the storage portion 103 in the vertical direction. In the mounting body 81, a dust collection space 108 constituting a part of the fan suction path 13 is formed below the stepped surface 107 by both side walls 87, a rear wall 88, and a bottom wall 89.

A fan path joint 109 whose upstream side is connected to a part of the fourth dust collection duct 36 at the same height below the rear wall 85 of the case 82, a part of the fourth dust collection duct 36, and a fifth dust collection duct A fan path joint 111 connected to the upstream side 37 is attached in a pair of left and right.
The lower portion of the rear wall 88 of the mounting body 81 is an opening 88a. With this, the downstream side of the fan path joints 109 and 111 is connected to the dust collection space 108 in a state where the mounting body 81 is mounted on the case 82. The

  Further, both fan path joints 109 and 111 are screwed to the rear wall 85 of the case 82 via flanges, respectively, and both fan path joints 109 and 111 have V-shaped shafts when viewed from the front. They are arranged so as to be spaced apart from each other in the vertical plane (see FIG. 6).

  A fan type suction machine 113 is installed as a weak suction machine on the top wall 83 of the case 82. The fan-type suction device 113 makes the inside of the case 82 have a negative pressure with the mounting body 81 mounted in the case 82. The fan type suction machine 113 includes a suction machine main body 100 having a hollow section, a fan 114 (a sirocco fan is used), and a fan motor 115 that rotates the fan 114.

  The suction machine main body 100 is screwed to the top wall 83, and the fan interior part 116 disposed so as to face the substantially central part of the top wall 83, and the exhaust duct part 117 extending rearward of the fan interior part 116. And is integrally formed. The fan interior portion 116 is connected in communication with the case 82 (dust collection space), and the exhaust duct portion 117 is opened rearward.

As shown in FIG. 2, the cut-out portion 8 is configured to be switchable between a cut-out posture in contact with the groove bottom surface 5a of the annular groove 5 and a separated posture separated from the groove bottom surface 5a. The cutout portion 8 includes a partition plate 118 (also referred to as a blocking plate), a cutout plate 98, and a cover body 119. The partition plate 118, the cutout plate 98, and the cover body 119 are provided separately from each other, and contact the cover body 119, the cutout plate 98, and the partition plate 118 in this order from the upstream side in the rotation direction of the rotary plate 4. Are arranged side by side.
The cover body 119 is formed in a substantially elliptical shape when viewed from the front.

  The partition plate 118 includes a partition plate main body 120 formed in an annular shape when viewed from the front, and an annular weir integrally formed in the partition plate main body 120 so as to protrude radially outward from an outer peripheral portion of the partition plate main body 120. It has a stop body 121 (formed from a synthetic resin such as silicon rubber), and its radially outer end can contact the groove bottom surface 5a.

  The cut-out plate 98 is cut out so as to scrape the powder 6 dammed up by the partition plate 118 from the groove bottom surface 5a of the annular concave groove 5, and is arranged on the side (radially outward) of the rotary table 2. The hopper 9 is used for charging from the upper opening 9B. The lower end portion of the hopper 9 is an inlet 9a opened downward, and an opening / closing valve member 9b for opening and closing the inlet 9a opens and closes the inlet 9a of the hopper 9 via the opening / closing operation mechanism 9A. It is provided as possible.

  When the powder 6 is cut out in the radial direction of the turntable 2 at the cutting portion 8, the powder 6 supplied to the annular groove 5 is restricted by the partition plate 118 and the cover body 119. In this state, it is cut out by the rotation of the cutting plate 98. At this time, the tip of the elastic blade provided on the cutting plate 98 slides on the groove bottom surface 5 a of the annular groove 5, so that the powdered powder 6 is cut out to the hopper 9.

  The first cleaning unit 26 is configured to be switchable between a cleaning posture that contacts the cutout portion 8 and a non-cleaning posture that is separated from the cutout portion 8. The first cleaning section 26 is formed on the spray nozzle 122, the box-shaped first dust collection duct 33, the brush section 123 provided in the first dust collection duct 33, and the bottom wall 90 of the first dust collection duct 33. The connecting hose H <b> 2, the switching valve device 12, and the vacuum cleaner 65 are connected.

The spray nozzle 122 is connected to a spray pump (not shown), and the tip of the spray nozzle 122 is directed so that cleaning air can be discharged toward the cutout portion 8.
The connecting hose H <b> 2 has a tip connected to the bottom wall 90, and a suction port 124 that opens into the first dust collection duct 33. The base end of the connection hose H2 is connected to one of the vacuum cleaner path joints 45, 46, 47, and 48 (for example, the vacuum cleaner path joint 45) of the switching valve device 12 (a four-way switching valve device is used). It is connected.

FIG. 12 is an enlarged plan sectional view showing the configuration of the second cleaning unit 27. The second cleaning unit 27 is for removing the powder 6 (dust) remaining on the groove bottom surface 5 a of the annular groove 5 after being cut out by the cut-out unit 8.
As shown in FIG. 12, the second cleaning unit 27 includes a brush body 125 and a rotating cloth body 126 that is separate from the brush body 125. The brush body 125 and the rotating cloth body 126 are configured to be switchable between a cleaning posture in which the outer peripheral portion can contact the groove bottom surface 5a and a non-cleaning posture separated from the groove bottom surface 5a. This posture switching mechanism also serves as the posture switching mechanism of the first cleaning unit 26, and is disposed radially inward of the rotary table 2 with respect to the annular groove 5.

The brush body 125 and the rotating cloth body 126 are provided on the rotation center shaft 127 so as to be adjacent to each other in the direction substantially along the circumferential direction of the annular groove 5 (front-rear direction), and the rotation of the brush body 125 of the rotation center shaft 127 is performed. An end cap 129 is detachably attached to a portion protruding from the center body 128, and the end cap 129 prevents the brush body 125 and the rotating cloth body 126 from being detached from the rotation center shaft 127. The brush body 125 and the rotating cloth body 126 are provided so as to be rotatable around the rotation center axis 127 around the center of curvature of the annular groove 5.
The rotation center shaft 127 is configured as a motor shaft of the rotation drive motor 130.

  The rotating cloth body 126 and the brush body 125 are covered with a covering body 131 in which a region corresponding to the groove portion 16 of the rotating plate 4 is opened. The covering body 131 includes a back plate 132 and a front cover 133. The back plate 132 is integrally formed with a disk portion 134 having a larger diameter than the brush body 125 and a protruding plate portion 135 that protrudes radially outward of the rotating plate 4 at the lower portion of the disk portion 134. Become.

A joint pipe portion (introduction path) that protrudes further rearward is formed on the back surface of the protruding plate portion 135, and this joint pipe portion is configured as a second dust collection duct 34. A distal end portion of a connection hose H3 is connected to the second dust collection duct 34 as an introduction pipe for the powder 6, and a proximal end portion of the connection hose H3 is a vacuum cleaner path joint 45, 46, 47, 48 of the switching valve device 12. Are connected to one of them (for example, the vacuum cleaner path joint 46).
A junction pipe joint 136 is connected to the middle part of the connection hose H3, and the second cleaning unit 27 includes a switching valve device 12 and a vacuum cleaner 65.

The third cleaning part 29 has a pipe part whose tip part is inserted into the groove of the groove member 17 as the third dust collecting duct 35, and the base end part of the cleaner valve joint 12 of the switching valve device 12. , 46, 47, 48 (for example, a vacuum cleaner path joint 46) and a connection hose H4.
Further, a support means (not shown) for supporting a middle portion of the connection hose H4 at a predetermined position of the packaging device main body 39, the junction pipe joint 136 connected to the middle of the connection hose H4, the switching valve device 12, And a vacuum cleaner 65.

The junction pipe joint 136 joins the dust from the second dust collection duct 34 and the third dust collection duct 35, and serves as a suction path by the common connection hoses H3 and H4 on the downstream side of the switching valve device 12. It is configured to be connectable to one of the cleaner path joints 45, 46, 47, 48 (for example, the cleaner path joint 46).
That is, the confluence pipe joint 136 has one end portion as a connection port portion 137 from the second dust collecting duct 34, and the other end portion as a discharge port portion 139 to the switching valve device 12, and the connection port portion 137 and the discharge port portion. A connection port 138 from the third dust collecting duct 35 is provided between the first dust collecting duct 35 and the third dust collecting duct 139.

  As shown in FIG. 3 and FIG. 4, the fourth cleaning unit 30 is disposed on the front side of the upper end of the hopper and the rear fourth fourth dust collection ducts 140 and 141 disposed on the rear side of the upper end of the hopper 9. The front fourth dust collection duct 142 and the front end thereof are connected to one of the rear fourth dust collection ducts 140 and 141 (for example, the rear fourth dust collection duct 140), and the base ends of the fan path joints 109 and 111 are connected. A connection hose (not shown) connected to one (for example, fan path joint 111), a dust collecting filter device 11, and a fan-type suction device 113 are provided.

The fourth cleaning unit 30 has a distal end portion connected to the other of the rear fourth dust collection ducts 140 and 141 (for example, the rear fourth dust collection duct 141), and a proximal end portion of the vacuum cleaner of the switching valve device 12. A connection hose H5 connected to the path joint 47, a switching valve device 12, and a vacuum cleaner 65 are provided.
3 and 4, reference numeral 51 denotes a spray nozzle, which is configured to be movable on an arcuate trajectory, and enters the hopper 9 to supply cleaning air from the tip portion to the inner surface of the hopper 9. It is for removing dust adhering to this by spraying.

  The fifth cleaning unit 31 is illustrated in which a fifth dust collection duct 37 disposed below the feeder 7, a distal end portion thereof communicated with the fifth dust collection duct 37, and a proximal end portion thereof connected to the other of the fan path joint 109. A connection hose, a dust collecting filter device 11, and a fan-type suction device 113.

The sixth cleaning unit 32 includes a switching valve device 12, a vacuum cleaner 65, and one of the cleaner path joints 45, 46, 47, and 48 whose base end portion is the switching valve device 12 (for example, a cleaner path). A flexible connection hose H6 connected to the joint 48) and a suction nozzle 143 capable of hand-held operation that is detachably attached to the tip of the connection hose H6 are provided (see FIG. 13). In this case, the suction nozzle 143 corresponds to the sixth dust collection duct 38.
The connection hose H6 is configured to be able to pass through the insertion hole 50 formed in the side plate 144 of the packaging device body 39 from the cleaner path joint 48. The suction nozzle 143 is configured to be detachably attached to the side plate 144 of the packaging device main body 39 via a locking means.

The suction nozzle 143 has a nozzle body 145 formed in a cylindrical shape, and an inner peripheral surface 59 a of the suction port portion 59 is inclined so as to expand toward the suction port end surface 147. The outer diameter of the nozzle body 145 is the same along the axial direction 146, and the outer diameter substantially matches the inner diameter of the fan path joints 109 and 111.
The suction port end surface 147 is an inclined surface that is inclined with respect to the axial direction 146 of the nozzle body 145. That is, the suction port end surface 147 is formed with an acute angle on one side in the radial direction and an obtuse angle on the other side in the radial direction.

A cylindrical fitting portion 148 is formed on the back side of the suction port portion 59 to internally fit the distal end portion H6a of the connection hose H6 separate from the nozzle body 145. The wall thickness of the fitting portion 148 is thinner than that of the suction port end surface side so that the inner surface thereof is flush with the inner surface 149 of the connection hose H6 when the tip end portion of the connection hose H6 is fitted inside. .
Further, the abutting surfaces 150a and 150b between the fitting portion 148 and the tip end portion H6a of the connection hose H6 are conical surfaces inclined downward in the radial direction, and the conical surfaces are in contact with each other.

Here, referring back to FIG. 7, the dust processing path will be described based on this figure. In the dust processing path, a dust processing path by the fan-type suction device 113 and a dust processing path by the vacuum cleaner 65 are provided.
The dust processing path by the fan suction device 113 is a predetermined dust collection duct, that is, the front fourth dust collection duct 142 in the fourth dust collection duct 36 and the rear fourth dust collection duct 140 in the fourth dust collection duct 36. The fan type suction machine 113 is connected to the downstream side of the fifth dust collection duct 37, and the dust collection filter device 11 is disposed on the fan suction path 13 between the dust collection duct and the fan type suction machine 113. It is a connected configuration.

  The dust processing path by the vacuum cleaner 65 is a predetermined fourth dust collection duct, that is, the fourth among the first dust collection duct 33, the second dust collection duct 34, the third dust collection duct 35, and the fourth dust collection duct 36. The vacuum cleaner 65 is connected to the downstream side of the dust collection duct 141 and the sixth dust collection duct 38. However, among these dust collection ducts, a specific dust collection duct, that is, the suction nozzle 143 that is the sixth dust collection duct 38 is one of the fan path joints 109 and 111 of the dust collection filter device 11 (for example, the fan path joint 109). ) Can be connected to.

  More specifically, since the outer diameter of the nozzle body 145 is set so as to substantially match the inner diameter of the fan path joint 109, the suction port portion 59, which is the tip of the suction nozzle 143, is connected to the fan path joint 109. The dust collecting filter device 11 can be connected to the dust processing path by the vacuum cleaner 65 by being inserted.

  In the packaging device 1 having the above-described configuration, the powder 6 supplied to the annular groove 5 of the rotating plate 4 by the feeder 7 is cut out by a predetermined amount outward in the radial direction of the rotary table 2 by driving the cutting portion 8. The hopper 9 is put into the wrapping paper B supplied from the lower end portion of the hopper 9 to the lower side thereof, and the wrapping paper B is packaged one by one by the sealing device 10.

  In the packaging device 1, during the packaging operation, the fan-type suction machine 113 is driven, and the powder 6 that rises and becomes dust is supplied to the fourth dust collection duct 36 (front fourth dust collection duct 142) and the fourth. The dust is sucked from the dust collecting duct 36 (the fourth dust collecting duct 140) and the fifth dust collecting duct 37. Most of the dust passes through the fan suction path 13 and is captured by the capturing filter 80 of the dust collecting filter device 11. Thus, the exhaust is discharged from the exhaust duct portion 117.

In particular, the dusts sucked from the fourth dust collection duct 36 (the front fourth dust collection duct 142) and the fifth dust collection duct 37 are merged and introduced into the dust collection filter device 11 from the fan path joint 109, and the fourth collection. Dust sucked from the dust duct 36 (rear fourth dust collection duct 140) is introduced into the dust collection filter device 11 from the fan path joint 111 and captured by the capture filter 80.
Note that the suction by the fan-type suction device 113 needs to be set so that only dust that rises in the air can be sucked by performing suction during the packaging operation.

  After the packaging operation is finished, the vacuum cleaner 65 is driven to clean and remove the powder 6 (dust) using the cleaner suction path 14. Specifically, the first cleaning unit 26 removes the powder 6 adhering to the cutout portion 8 by blowing cleaning air from the spray nozzle 122 to the cutout portion 8 to form dust. Suction is performed from the duct 33. In the 2nd cleaning part 27, the brush body 125 is rotated and the powder 6 adhering to the annular groove 5 is sucked as dust from the second dust collection duct 34.

  In the 3rd cleaning part 29, the powder 6 adhering to the groove member 17 is attracted | sucked from the front-end | tip part of the connection hose H4 which is the 3rd dust collection duct 35. FIG. In the fourth cleaning unit 30, the powder 6 is dropped by hitting with a hopper hitting means (not shown), and sprayed from the spray nozzle () that blows cleaning air into the hopper 9, and the powder 6 adhered in the hopper 9 is removed. The dust is sucked as dust from the fourth dust collection duct 36 (rear fourth dust collection duct 141). In the sixth cleaning section 32, the powder 6 in a region that cannot be sucked other than the above can be sucked by manually moving the suction nozzle 143 that is the sixth dust collection duct 38.

  The first dust collection duct 33, the second dust collection duct 34, the third dust collection duct 35, the fourth dust collection duct 36 (the rear fourth dust collection duct 141), and the sixth dust collection duct 38 used for sucking dust. The valve body 57 of the switching valve device 12 is rotated around the axis by driving the switching motor 62, and the valve body 57 is connected to the opening 43 communicating with the cleaner path joints 45, 46, 47, and 48, respectively. The first dust collection duct 33, the second dust collection duct 34, the third dust collection duct 35, the fourth dust collection duct 36 (the rear fourth dust collection duct 141), and the sixth collection. As an alternative, dust can be sent from either of the dust ducts 38 to the downstream side of the switching valve device 12 (the hollow hole 63 side of the joint 64) and further captured by the vacuum cleaner 65 on the downstream side.

In particular, the dust sucked from the second dust collecting duct 34 and the third dust collecting duct 35 is joined by the joining pipe joint 136 and moves to the switching valve device 12 on the downstream side thereof.
In addition, since the suction force by the vacuum cleaner 6 is not performed during the packaging operation, it is set stronger than the suction force of the fan-type suction device 113.

  By the way, after being introduced into the dust collecting filter device 11 and being captured by the capture filter 80 in the fan suction path 13, it is necessary to remove and clean the dust from the capture filter 80. In this case, for example, the connection hose that is detachably attached to the fan path joint 109 is removed, and the suction port 59 that is the tip of the suction nozzle 143 is inserted into the fan path joint 109. Then, if necessary, the switching motor 62 of the switching valve device 12 is driven to rotate the valve body 57 so that the suction port portion 58 of the valve body 57 and the opening portion 43 of the cleaner path joint 48 face each other.

  Then, since the dust collection filter device 11 is connected to the cleaner suction path 14, the inside of the dust collection filter device 11 can be sucked by the vacuum cleaner 65 by driving the vacuum cleaner 65. Thus, the strong suction force of the vacuum cleaner 65 converts the fan suction path 13 in the case 82 (dust collection filter device 11) portion into the cleaner suction path 14, and the fan suction path 13 in this portion The direction of suction flow can be reversed. Therefore, the dust adhering to the capture filter 80 of the dust collection filter device 11 can be reliably sucked and removed.

  Therefore, since dust in the case 82 can be removed without the need to remove the dust collection filter device 11 from the case 82, the dust collection filter device 11 can be easily cleaned. Since the operator can remove dust without touching the capture filter 80 of the dust collection filter device 11 with fingers, the cleaning operation can be performed hygienically.

  However, even if the inside of the case 82 is sucked by the vacuum cleaner 65, it may be impossible to remove the dust. In this case, the dust collecting filter device 11 is removed from the case 82, but as described above, the operation piece It is possible to remove the mounting body 81 and the capture filter 80 from the case 82 by releasing the pressing of the elastic piece 104 to the front open portion of the case 82 by pressing 105 downward and pulling the mounting body 81 forward. Even in this case, it is not necessary for the operator to directly grip the capture filter 80 with fingers, so that the work can be performed in a sanitary manner.

By the way, the suction nozzle 143 is an inclined surface that is inclined so that the inner peripheral surface 59 a of the suction port portion 59 of the nozzle body 145 expands toward the suction port end surface 147. Further, in the fitting portion 148 on the back side of the suction port portion 59, there is no level difference with the inner surface 149 of the front end portion of the connection hose H6. Therefore, when air is sucked from the suction port 59 of the nozzle body 145 by the strong suction force of the vacuum cleaner 65, a rapid direction in the flow of air sucked from the suction port 59 toward the nozzle body 145 Therefore, it is possible to suppress the generation of noise due to air suction.
Furthermore, since the fitting portion 148 is flush with the inner surface 149 of the distal end portion of the connection hose H6, there is no portion where the sucked air collides in the suction direction even in this portion, and the air flow direction is abrupt. Since there is no change and it changes gently, even if the vacuum cleaner 65 is used as the suction device, the generation of noise can be suppressed.

  Further, the suction port end surface 147 of the nozzle body 145 is an inclined surface inclined with respect to the axial direction 146 of the nozzle body 145, and the suction port end surface 147 is formed with an acute angle on one radial side in its radial cross section. Therefore, the tip can also be applied to the narrow corner of the mechanical device in the packaging device 1, and dust at the corner of the mechanical device can be sucked.

In the above-described embodiment, the suction path 59 which is the tip of the suction nozzle 143 is connected to the fan path joint 109 or the fan path joint 111 so that the dust collecting filter device 11 is treated with dust by the vacuum cleaner 65. It was configured to communicate with the path and to clean and remove dust adhering to the capture filter 80.
However, the embodiment of the present invention is not limited to this, and a connection port portion for connecting the suction nozzle 143 is provided separately from the fan path joints 109 and 111, and the suction nozzle 143 is provided in this connection port portion. Can also be configured to connect.

  For example, as shown by the phantom lines in FIG. 10, the connection port portion is mounted so as to be concentric with the outer connection port portion 160 provided at the substantially central portion of the bottom wall 86 of the case 82. The inner connection port 161 (see FIG. 11) provided on the bottom wall 89 of the body 81 can be used. The inner diameters of the outer connection port portion 160 and the inner connection port portion 161 are substantially matched with the outer diameter of the suction nozzle 143.

In this configuration, when dust in the dust collection filter device 11 (capture filter 80) is cleaned / removed, the tip of the suction nozzle 143 is removed while the dust filter device 11 remains installed in the case 82. If the connection port 160 is inserted so as to extend from the connection port 160 to the inner connection port 161, the suction nozzle 143 is opened in the dust collection space 108 (one part of the fan suction path 13 is part of the vacuum suction path 14). Thus, the dust in the dust collection filter device 11 (capture filter 80) can be cleaned and removed.
Note that when the tip of the suction nozzle 143 is not connected from the outer connection port portion 160 to the inner connection port portion 161, at least the outer connection port portion 160 is provided with a lid member (not shown) and the suction nozzle 143 is provided. It is preferable to be able to connect to the connection port only when connecting the front end of the.

Alternatively, as shown in FIG. 14, the capture filter 80 is removed from the case 82 together with the mounting body 81 without providing a special outer connection port in the case 82, and the tip of the suction nozzle 143 is connected to the inner connection port 161. It is also possible to connect and connect the dust collection filter device 11 directly to the vacuum cleaner suction path 14 to clean and remove dust adhering to the capture filter 80. Even if it does in this way, it becomes possible to clean and remove the capture filter 80, without an operator touching the capture filter 80 with a finger | toe, and it is hygienic.
When cleaning and removing dust adhering to the capture filter 80 as shown in FIG. 14, a lid member is attached to the opening 88a provided in the lower part of the rear wall 88 of the attachment body 81. It is preferable to close this and apply the suction force of the vacuum cleaner 65 to the capture filter 80 in a concentrated manner.

The top view which shows schematic structure of the packaging part of the packaging apparatus which shows embodiment of this invention Similarly front view of the parcel part Similarly, a perspective view from above mainly using a hopper arranged on the side of the cut-out portion Similarly, front view mainly using hopper and sealing device Similarly, front sectional view of hopper Similarly, a perspective view from the rear with the back plate of the packaging device removed Similarly, an explanatory diagram showing the dust collection path linearly Similarly, an overall perspective view of the switching valve device Similarly, an exploded perspective view of the switching valve device Similarly perspective view of dust collection filter device and case Similarly, (a) is a plan view of the dust collection filter device, (b) is a front view, (c) is a bottom view, and (d) is a side cross section cut along the center line of (b). Figure Similarly the expanded plane sectional view which shows the composition of the 2nd cleaning part Similarly broken view of suction nozzle as sixth dust collection duct It is a perspective view of the dust collection filter apparatus which shows another embodiment of this invention, and shows the state which connected the front-end | tip part of the suction nozzle to the dust collection filter apparatus.

Explanation of symbols

  DESCRIPTION OF SYMBOLS 1 ... Packaging apparatus, 2 ... Rotary table, 4 ... Rotary plate, 5 ... Annular groove, 5a ... Groove bottom surface, 6 ... Powder, 7 ... Feeder, 8 ... Cut-out part, 9 ... Hopper, 10 ... Sealing device, DESCRIPTION OF SYMBOLS 11 ... Dust collection filter apparatus, 12 ... Switching valve apparatus, 13 ... Fan suction path, 14 ... Vacuum cleaner suction path, 16 ... Groove part, 17 ... Groove member, 18 ... Groove bottom plate, 25 ... Drive apparatus, 26 ... First cleaning 27, second cleaning section, 28 ... switching mechanism, 29 ... third cleaning section, 30 ... fourth cleaning section, 31 ... fifth cleaning section, 32 ... sixth cleaning section, 33 ... first dust collecting duct, 34 ... second dust collection duct, 35 ... third dust collection duct, 36 ... fourth dust collection duct, 37 ... fifth dust collection duct, 38 ... sixth dust collection duct, 39 ... packaging device body, 42 ... switch Valve device body, 43 ... opening, 45, 46, 47, 48 ... vacuum cleaner path joint, 57 ... valve body, 58, 59 ... suction port DESCRIPTION OF SYMBOLS 60 ... Mounting flange, 61 ... Supporting tool, 62 ... Switching motor, 63 ... Hollow hole, 64 ... Joint, 65 ... Vacuum cleaner, 80 ... Capture filter, 81 ... Mounted body, 82 ... Case, 98 ... Cut-out plate, DESCRIPTION OF SYMBOLS 100 ... Main body of suction machine, 101 ... Guide member, 102 ... Cover part, 103 ... Storage part, 104 ... Elastic piece, 105 ... Operation piece, 106 ... Frame member, 107 ... Stepped surface, 108 ... Dust collection space, 109, DESCRIPTION OF SYMBOLS 111 ... Fan path | route joint, 113 ... Fan type suction machine, 114 ... Fan, 115 ... Fan motor, 116 ... Fan interior part, 117 ... Exhaust duct part, 131 ... Covering body, 135 ... Projection board part, 136 ... Merge pipe joint 137, 138 ... connection port part, 140, 141 ... rear fourth dust collection duct, 142 ... front fourth dust collection duct, 143 ... suction nozzle, 145 ... nozzle body, 147 ... suction port end face, 148 ... fitting Department, 149 ... inner surface, 150a, 150b ... butting face, H1 to H6 ... connecting hose

Claims (2)

It is a packaging device that cuts out the granular material supplied to the annular groove on the rotary table by a predetermined amount, and sequentially divides the cut granular material,
A dust collection duct that opens to a part of the granular material where dust is generated is disposed, is connected to the dust collection duct via a suction path, and captures the dust that has passed through the suction path. Provided,
The dust collection filter device has a capture filter and a mounting body on which the capture filter is mounted, and the mounting body and the capture filter are integrally provided detachably on the main body of the packaging device. The parcel device to do.   The mounting body is detachably provided on a case fixed to the main body of the packaging device. The case is disposed in the middle of the suction path, and the inside of the case and the mounting body are loaded with the mounting body in the case. 2. The packaging device according to claim 1, wherein a suction device for pressure is connected in communication with the case.

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