JP2004216769A - Bookbinding device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a small-sized bookbinding device, which can suppress the diffusion of a bad odor and realize a highly accurate finished bookbinding and is suitable for use in offices and homes. <P>SOLUTION: This bookbinding device is equipped with a heating means 20, 23 for heating an adhesive well in a standby position, the adhesive well to store adhesive therein and a roller 24 for rotatingly coating the molten adhesive to one side edge of a paper bundle, the adhesive well and the roller are arranged at the standby position in the outside of the end edge of the paper bundle 100 at standby which are integrally moved beneath the paper bundle from their standby position over the whole back and lower range of the paper bundle under operation. Further, a duct 64 containing a deodorizing filter 61 therein and a deodorizing unit 3 equipped with an air flow generating means 62, which generates the air flow sucked through the suction port 60 of the duct 64 and exhausted through the exhaust port 63 of the duct 64 are provided under the condition that the suction port 60 of the duct is arranged so as to locate above the standby position of the adhesive well 23. <P>COPYRIGHT: (C)2004,JPO&NCIPI

Description

【００６７】
上記ステップにおいて接着剤溜が待機位置に戻り、接着剤溜位置センサＡ３１ａによる信号を受信すると、ＣＰＵ７６は、圧着クランプ上センサ７３による検出がなされるまで圧着クランプ上下動モータ８０を駆動させて、圧着ユニット４を上昇させ、その後可動板駆動モーター８３を駆動させて可動板４６を押さえ部材４４の方向へ移動させ、表紙１１０及び用紙束１００を圧縮する（＃２０）。
【００６８】
圧着ユニットは、図１９に示すように、固定板４３上に固定された押さえ部材４４と可動板４６の２つの部材により用紙束１００を圧着する。このとき可動板４６は、可動板駆動モーター８３により駆動されるが、このモーターの駆動力を直接可動板４６に伝達するようにすると、用紙束１００の厚みによって圧着力が異なるという問題が生じる。よって、本実施形態では、可動板４６の駆動機構を以下のように構成している。
【００６９】
可動板駆動モーター８３の駆動力は、可動板４６に対してスプリング８５を挟んで対向する２つのブロック８７，８８を介して伝達される。すなわち、可動板側に第１ブロック８７が設けられ、可動板駆動モーター８３側には、第２ブロック８８が設けられており、両者を貫通する支持軸８４によって、両者間の距離が変更可能となっている。支持軸８４は、スプリング８５に挿入されて両者間を連結しているため、両ブロック８７，８８は、互いに離れる方向に付勢されている。支持軸の両端は大径部８４ａとなっており、両ブロック８７，８８の最大距離を規制する。第２ブロック８３側にはフォトインタラプタで構成される圧着クランプ停止センサ７５が設けられており、第１ブロック側には、当該圧着クランプ停止センサ７５の対応位置に切片８６が設けられている。
【００７０】
したがって、可動板駆動モーター８３が駆動して、第２ブロック８８を固定板４３側へ移動させると、スプリング８５の付勢力によって、第１ブロック８７は、第２ブロック８８と共に移動する。したがって、可動板駆動モーター８３が駆動すると可動板４６が移動することとなる。一方、可動板４６の先端が用紙束や押さえ部材４４などと接触すると、可動板４６はこれ以上移動することができないため、第２ブロックの移動は、第２ブロック８８に押されてスプリング８５が縮むことにより、両ブロック８７、８８の間隔が短くなることで吸収される。
【００７１】
図１９（ａ）で示すように、圧着ユニット４が上昇して表紙と用紙束が接触すると、用紙束１００の背に塗布された接着剤１０６が押圧されて、押さえ部材４４が存在しない側へはみ出す（１０６ｂ）。この状態で、可動板４６が押さえ部材側へ移動すると、可動板４６は固定板４３よりも上方に位置しているため、表紙４６は上側へ折れ曲り、当該はみ出した接着剤１０６ｂは、用紙束１００の奥手側面の最下部に付着する。
【００７２】
この状態において、可動板４６の先端が用紙束１００に突き当たった状態であっても、可動板駆動モーター８３は、矢印２０７で示す方向に駆動しつづける。この場合、上述のように両ブロック８２、８３の間隔は短くなっていき、最終的には、切片８６がフォトインタラプタ（圧着クランプ停止センサ７５）を遮断する。この信号を受けたＣＰＵ７６は可動板駆動モーター８３の駆動を停止させる。このように構成することにより、用紙束１００の厚みによらず、常に均一の圧力で用紙束１００を圧着することができる。
【００７３】
圧着ユニット４によって、接着剤が固化するまでの所定時間が経過すると、ＣＰＵ７６は、図２０に示すように、圧着ユニット４を開放（ａ）し、圧着クランプ下センサ７４による検出がなされるまで圧着クランプ上下動モータ８０を駆動させて、矢印２３０に示すように圧着ユニット４を下降（ｂ）させ、その後圧着クランプ前後動モータ７９を駆動させて、矢印２３１に示すように圧着ユニット４を後退（ｃ）させる（＃２１）。圧着ユニット４が後退すると、用紙束の直下には、シューター４５が位置する。製本装置内部には、後退したシューター４５の近傍位置に滑り台９０が設けられており、図２０（ａ）の矢印２０９で示すように前カバー下とびら１３を開放することにより、シューター４５から製本装置外部にまでの排出通路が形成される。
【００７４】
この状態において、操作ノブ１４を操作することにより、矢印２３２で示すようにクランプを開放すると、図２０（ｄ）製本１２０は、圧着ユニット４の固定板４３手前側に設けられた隙間４５ａを通過して、シューター４５上に落下し、滑り台９０上を滑り落ち、製本装置１の外へ排出される。
【００７５】
以上説明したように、本実施形態にかかる製本装置は、接着剤溜に蓄積された接着剤が加熱される位置である待機位置の上部域に吸引口と排出口とを有する筒状の部材であるダクトと当該ダクト内に気流を発生させるためのファンを備える消臭ユニットを設けることにより、接着剤溜から上方に向かって揮発する接着剤成分や煙などを吸い込みやすい。よって、気流発生手段を強力なものとしなくても十分にダクト内に気流を吸引することができる。また、接着剤溜が移動する構成であるため、その容量が小さく、排気ファンの吸引力として強力なものを必要としない。この結果、消臭ユニットを小型化することができ、製本装置を小型に構成することができる。
【００７６】
また、消臭ユニットは、待機位置にある接着剤溜の上方に設けられているため、製本作業中が、消臭ユニットにより発生する気流の影響を受けることがない。また、接着剤溜が移動するため、待機位置における接着剤溜の上方に消臭ユニットを配置したとしても、用紙束のセットの邪魔となることがない。
【００７７】
さらに、ダクトの排出口は、筐体内に設けられており、消臭フィルタ通過後の空気は、フレーム４１ａ、前板１０及び後板１１から構成される空間に排出される。また、接着剤溜が待機位置にある場合において加熱手段により接着剤溜が加熱され、製本時における接着剤溜の移動は短時間であり、移動時にはローラーの上に存在する用紙束によって遮蔽されるため、当該待機位置の上方にしか消臭ユニットが配置されていなくても、臭気が装置外部まで発散することを少なく抑えられる。
【００７８】
なお、本発明は上記実施形態に限定されるものではなく、その他種々の態様で実施可能である。
【図面の簡単な説明】
【図１】本発明の一実施形態に係る製本装置の外観斜視図である。
【図２】図１の製本装置の要部内部構造を示す正面図である。
【図３】図１の製本装置の要部内部構造を示す左側面図である。
【図４】塗布ユニットが待機位置に存在する場合の位置関係を示す正面図である。
【図５】塗布ユニットが待機位置に存在する場合の位置関係を示す左側面図である。
【図６】圧着ユニットの要部構成を示す斜視図である。
【図７】クランプの駆動機構についての説明図である。
【図８】接着剤溜の移動の状態図である。
【図９】接着剤供給ユニットの構成を示す図であり、（ａ）は平面図、（ｂ）は右側面図である。
【図１０】接着剤供給における接着剤供給ユニットの駆動状態推移図である。
【図１１】消臭ユニットの位置関係を示す図であり、（ａ）は要部左側面図、（ｂ）は要部正面図である。
【図１２】接着剤溜及びローラーの構成を示す図であり、（ａ）は平面図、（ｂ）は（ａ）のＡ−Ａ断面図である。
【図１３】ローラーと用紙束との接触位置を説明するための図である。
【図１４】本実施形態に係る製本装置の制御系を示すブロック図である。
【図１５】本実施形態に係る製本装置の製本動作の流れを示すフロー図である。
【図１６】（ａ）は圧着ユニットの下降位置を示す図であり、（ｂ）は圧着ユニットの上昇後用紙束をセットする状態を示す図である。
【図１７】表紙のセットにおける基準位置を説明する図である。
【図１８】接着剤溜の移動におけるローラーの回転方向を示す図である。
【図１９】圧着ユニットにおける圧着力制御機構を説明するための図である。
【図２０】製本の取り出し工程を示す状態推移図である。
【符号の説明】
１ 製本装置
２ 塗布ユニット
３ 消臭ユニット
４ 圧着ユニット
５ 接着剤供給ユニット
１０ 前板
１１ 後板
１２ 後カバー
１３ 前面下部とびら
１４ 操作ノブ
１５ 表紙台
１６ 操作パネル
１８ クランプ
１８ａ 固定クランプ
１８ｂ 可動クランプ
１９ａ、１９ｂ 用紙束保持部材
２０ 加熱コイル
２３ 接着剤溜
２４ 塗布ローラー
４３ 固定板
４４ 押さえ部材
４５ａ 隙間
４５ シューター
４５ａ 隙間
４６ 可動板
６０ 吸引口
６１ フィルタ
６２ 排気ファン
６３ 排出口
６４ ダクト[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a small and simple bookbinding apparatus used in offices and homes for dissolving and applying a heat-dissolvable solid adhesive to one side edge of a sheet bundle serving as a spine of a book. The present invention relates to a technique for reducing the emission of an odor of an adhesive diverging from a reservoir.
[0002]
[Prior art]
BACKGROUND ART Conventionally, as disclosed in Japanese Patent Application Laid-Open No. 9-156249 (Patent Document 1), an apparatus for applying an adhesive using a roller rotating on the back of a sheet bundle sandwiched by clamps has been widely used. It is. In this bookbinding apparatus, a sheet bundle reciprocates on a roller rotating in an arbitrary direction to apply an adhesive.
[0003]
This bookbinding apparatus is provided with an adhesive reservoir for accumulating an adhesive at a lower portion of a roller, and heats a large amount of solidified adhesive in the adhesive reservoir at a time, so that bookbinding can be performed after heating is started. The rise time is very long. Further, since a large amount of adhesive is heated in the adhesive reservoir and kept at a high temperature, there is a problem that the odor and smoke of the adhesive are diffused and the odor is intense.
[0004]
In order to solve the problem of the odor, Japanese Patent Application Laid-Open No. 2002-137564 (Patent Document 2) discloses a bookbinding apparatus in which a clamper holding a bundle of sheets passes over an adhesive reservoir. A bookbinding device comprising an air outlet that blows out air traversing the upper layer facing the opening surface of the airbag and a suction port that sucks air that traverses the upper layer, and removes odor and smoke sucked from the suction port with a deodorizing filter is disclosed. .
[0005]
However, this bookbinding device is configured to suck the odor and smoke that evaporate and rise from the adhesive reservoir by an airflow that crosses the upper layer facing the opening surface of the adhesive reservoir. The required force is relatively large. Therefore, a rapid air flow flows on the upper surface of the roller, so that the hot-melted adhesive is cooled, which greatly affects the adhesive properties of the sheet bundle during bookbinding.
[0006]
Further, when the sheet bundle passes over the rollers during bookbinding, the air flow collides with the sheet bundle, and a portion below the sheet bundle clamped by the clamper is bent by the air flow. In addition, there is a problem that it is difficult to finish a book with good appearance, such as a shift between the sheets.
[0007]
Further, by providing such a suction port and a discharge port on both sides of the adhesive reservoir, there is a problem that the size of the bookbinding apparatus itself is increased. In addition, since a strong suction force is required, a circulator for circulating air is also large, and there is a problem that noise is large and it is not preferable for use in offices and homes.
[0008]
[Patent Document 1]
JP-A-9-156249 [Patent Document 2]
JP, 2002-137564, A
[Problems to be solved by the invention]
Therefore, the technical problem to be solved by the present invention is to suppress the emission of odor, realize a high-precision bookbinding finish, and provide a small bookbinding apparatus suitable for use in offices and homes. To provide.
[0010]
[Means for Solving the Problems]
The present invention, in order to solve the above technical problems, to provide a bookbinding apparatus having the following configuration.
[0011]
The bookbinding apparatus includes: an adhesive reservoir for accumulating a hot-melt adhesive; a roller disposed above the adhesive reservoir so that a lower portion is immersed in the adhesive; and a clamping unit for clamping a sheet bundle; Heating means for heating the adhesive, the adhesive reservoir and the roller are configured to be integrally movable from a standby position over the entire lower rear surface of the sheet bundle, by the heating means in the standby position, The adhesive is heated. The air conditioner further includes a deodorizing unit including a duct including the deodorizing filter, and an airflow generating unit configured to generate an airflow that is sucked from a suction port of the duct and discharged from an outlet of the duct.
[0012]
In the above configuration, the bookbinding device is a type of bookbinding device that applies a hot-melt adhesive to a sheet bundle to perform bookbinding. A roller is provided above the adhesive reservoir, which is a container for storing the adhesive, and the adhesive is applied to the sheet bundle via the roller. The adhesive is heated by the heating means. The adhesive reservoir is arranged at a standby position outside the edge of the sheet bundle during standby. At the standby position, the heating means heats the adhesive reservoir. During operation, the adhesive reservoir and the roller move as one. Therefore, it is desirable to reduce the capacity of the adhesive reservoir, and the amount of the adhesive component volatilized from the adhesive reservoir is also reduced.
[0013]
The deodorizing unit includes a duct, which is a tubular member having a suction port and a discharge port, and airflow generating means such as a fan for generating an airflow in the duct. A deodorizing filter is provided in the duct to remove adhesive components, smoke, and the like volatilized from the adhesive reservoir. The capacity of the adhesive reservoir is small because the adhesive reservoir and the roller move integrally, and the air can be sufficiently sucked into the duct without using a strong airflow generating means. Therefore, according to the above configuration, the deodorizing unit can be configured in a small size, the range of selection of the location of the device can be widened, the device can be configured in a small size, and the noise generated from the deodorizing unit Can also be reduced.
[0014]
Preferably, the deodorizing unit is provided in the vicinity of a standby position of the adhesive reservoir, and its suction port is arranged to be open to an upper region of the adhesive reservoir. With this configuration, the adhesive component, smoke, and the like that volatilize upward from the adhesive reservoir are easily sucked. Also, during bookbinding, there is no influence of the airflow generated by the deodorizing unit. Further, since the standby position is outside the edge of the sheet bundle, even if the deodorizing unit is arranged above the adhesive reservoir, it does not hinder the setting of the sheet bundle. Further, when the adhesive reservoir is at the standby position, the adhesive reservoir is heated by the heating means, and the movement of the adhesive reservoir during bookbinding is short, and at the time of movement, the adhesive reservoir is shielded by the sheet bundle existing on the rollers. Therefore, the emission of the odor can be suppressed only by sucking from the upper area of the standby position. In addition, by arranging the outlet of the duct in the outer casing of the bookbinding apparatus, the air that has passed through the deodorizing filter is discharged into the apparatus, so that the emission of odor to the outside of the apparatus can be suppressed.
[0015]
BEST MODE FOR CARRYING OUT THE INVENTION
DESCRIPTION bookbinding apparatus according to an embodiment of the present invention will be described with reference to the drawings.
[0016]
Figure 1 is an external perspective view of a bookbinding apparatus according to an embodiment of the present invention. The bookbinding apparatus 1 is a substantially box-shaped apparatus, and has a housing composed of a front plate 10 extending from the front to the upper surface of the main body and a rear plate 11 extending from the rear to the upper surface of the main body. The front plate 10 and the rear plate 11 are fixed to frames 28, 29, 41a, 41b (see FIG. 7) provided inside the main body as described later. At the rear of the rear plate 11, a rear cover 12 is provided, which covers a book cover (110x in FIG. 20A) and the movable plate 46 protruding from the rear plate 11, and moves the cover 110x downward. bent is constituted by inclined walls so as to retract (see Fig. 20 (a) and (c)).
[0017]
The external configuration of the bookbinding apparatus 1 includes a front plate lower door 13 provided at the lower part of the front plate 11 so as to be openable and closable, an operation knob 14 for opening and closing a clamp 18 for holding a bundle of sheets in use, and a bookbinding device. cover block 15 and the operation panel 16, for placing a cover to be used is provided.
[0018]
A clamp 18 is provided on the upper surface of the main body. The clamp 18 is composed of two substantially rectangular plates parallel to each other and arranged in a vertical direction from the gap 17 provided on the upper surface of the main body to the outside of the main body, and has a fixed clamp 18a and a movable clamp 18b. By operating the operation knob 14 as described above, the movable clamp 18b is driven to change the distance between the two, and the bundle of sheets can be fixed and released. At the upper ends of the clamps 18a and 18b, sheet bundle holding members 19a and 19b are provided so as to be detachable. For example, when a vertically long sheet bundle is bound, a portion above the position sandwiched by the clamps 18 is provided. sag bent, so as not to or shift the sheet bundle holds the sheet bundle.
[0019]
Various units such as a coating unit 2, a deodorizing unit 3, a pressure bonding unit 4, and an adhesive supply unit 5 are provided inside the main body, as shown in FIGS. As shown in FIG. 2, the coating unit 2 is normally provided outside the side edge of the clamp 18, and a part thereof can slide below the clamp 18 as described later. ing.
[0020]
The deodorizing unit 3 is a member that extends downward from the upper portion of the coating unit 2 as shown in FIGS. 2 and 3, and absorbs the adhesive volatilized from the adhesive reservoir 23 and the roller 24 of the coating unit 2 and is built therein. Adsorb to the filter.
[0021]
As shown in FIG. 3, the crimping unit 4 is a member provided below the clamp 18, and is configured to be able to move up and down and back and forth as described later. Crimping unit, when the coating unit 2 to move descends so that the bottom of the clamp 18 are coating units 2 can pass.
[0022]
FIG. 4 and FIG. 5 are views showing the positional relationship when the application unit is at the standby position. Coating unit 2 and the clamp 18 are provided together in each of the two frames 28 and 29. The front frame 28 is a frame having a U-shaped cross section. The front frame 28 fixes and holds the fixing clamp 18a and functions as a rail when the adhesive reservoir 23 of the application unit moves. The rear frame 29 is a frame having a U-shaped cross section, has a mechanism for moving the movable clamp 18b, and holds a rail shaft 33 which is a guide when the adhesive reservoir 23 moves. ing.
[0023]
In the standby position, the coating unit 2 is located outside the side end of the clamp 18 and does not extend below the clamp 18. The coating unit includes an electromagnetic induction coil 20 attached to the holding plate 20a as a heating unit, and when the adhesive reservoir 23 is at the standby position, the ferromagnetic material is not in contact with the adhesive reservoir 23. The adhesive is heated by induction heating of the material.
[0024]
A roller 24 is provided above the adhesive reservoir 23 so as to be partially immersed in the adhesive. The roller 24 is rotatably supported by a holding member 25 provided in the adhesive reservoir 23, and is rotationally driven by a coating roller rotation motor 21 connected to a shaft 22.
[0025]
A connecting member 26 extending upward is provided at an end of the adhesive reservoir 23, and a roller 27 provided at the end thereof is engaged with a rail 28a of the front frame. A guide 34 is provided at the opposite end of the adhesive reservoir, and engages with a rail shaft 33 provided on the rear shaft 29. By these two engagements, the adhesive reservoir 23 is slidably mounted along the frames 28 and 29, and is configured to be able to pass below the clamp 18 provided on the frames 28 and 29. That is, since the adhesive reservoir 23 and the roller 24 move integrally, the capacity of the adhesive reservoir can be reduced.
[0026]
When the adhesive reservoir 23 is slid along the frame, the sensor is provided for detecting the position. As shown in FIG. 5, the sensor 31 is disposed on a sensor holding frame 30 different from the frame holding the adhesive reservoir 23. The sensor 31 is formed of a photo interrupter, and outputs a signal at a timing when the sections 32 provided on the guide section 34 pass through predetermined positions.
[0027]
FIG. 6 is a perspective view showing a main configuration of the crimping unit. As described above, the crimping unit 4 is configured to be able to move as a whole in the vertical direction indicated by the arrow 211 and in the front-rear direction indicated by the arrow 212. The crimping unit includes a fixed plate 43 provided on the base 48, the cover 15 provided on the near side of the fixed plate 43, and a movable plate 46 provided on the far side of the fixed plate 43.
[0028]
The fixing plate 43 is a member for abutting and fixing the lower surface of the sheet bundle at the time of operation, and has its upper surface subjected to a smoothing process such as a fluororesin coating so that an adhesive does not adhere at the time of bookbinding. ing. A holding member 44 is provided at the front end of the upper surface of the fixed plate 43, and cooperates with the movable plate 46 to bend and form the cover at the time of bookbinding, as described later.
[0029]
A shooter 45 is provided on the front side of the fixing plate 43, and discharges a finished bookbinding to the outside of the apparatus as described later. Further, at both ends of the shooter 45 has connecting member 47 is provided, and holds the cover base 15. That is, a gap 45a is provided between the fixing plate 43 and the cover board 15, and the finished bookbinding is discharged to the outside of the apparatus through the gap 45a (see FIG. 20).
[0030]
The movable plate 46 is provided so as to be slidable as shown by an arrow 210, and can change the interval between the movable plate 46 and the pressing member 44 provided on the fixed plate. That is, in order to ensure the adhesion between the cover and the sheet bundle, the sheet bundle is sandwiched between the front end 46a of the movable plate 46 and the pressing member 44 and pressed.
[0031]
The cover board 15 is provided with a scale 15a inserted into the cover board body 15 so as to be able to move forward and backward as shown by an arrow 260, and is uniformly provided according to the size of a bundle of sheets to be bound as described later. The determined cover layout is displayed.
[0032]
The driving mechanism of the clamp will be described with reference to FIG. As described above, the clamp has the fixed clamp 18a fixed to the front frame 28 and the rear frame 29 provided with a drive mechanism for the movable clamp 18b. The movable clamp 18b moves so as to change the distance between the movable clamp 18b and the fixed clamp 18a by operating the operation knob 14, and clamps and fixes the sheet bundle existing between them.
[0033]
By driving the operation knob 14 to rotate, the screw shaft 36 connected to the shaft of the operation knob 14 by the belt 35 rotates. The driving force of the screw shaft 36 is transmitted to another screw shaft 37 by the belt 40, and both are driven in cooperation. The screw shafts 36 and 37 are screwed with a holding plate to which the movable clamp 18b is fixed, and when the screw shafts 36 and 37 rotate, the movable clamp 18b is driven together with the holding plate.
[0034]
Guide shafts 39a and 39b are provided between the movable clamp 18b and the fixed clamp 18a. When the movable clamp 18b is driven along the guide shafts 39a and 39b, the movable clamp 18b becomes a fixed clamp 18a. and it is always kept parallel. The guide shaft 39a on the left side when viewed from the front of the bookbinding apparatus 1 serves as a reference position in the left and right direction of the sheet bundle as described later, and together with a fixed clamp that determines the reference position in the front and rear direction, determines the holding position of the sheet bundle. to.
[0035]
A section 38 is provided at an end of the holding plate. The section 38 cooperates with a sheet bundle thickness sensor 34 composed of a photo interrupter to detect whether the sheet bundle held by the clamp 18 is thinner than a predetermined thickness. That is, when the sheet bundle held by the clamp 18 is thicker than the predetermined thickness, the section 38 does not reach the sheet bundle thickness sensor 34 and the sheet bundle thickness sensor 34 is not shut off, but is thinner than the predetermined thickness. case, the movable clamp 18b spacing between the fixed clamp 18a is shortened, to cut off the sheet bundle thickness sensor 34. The thickness of the sheet bundle, as will be described later, it is used in determining the direction of rotation of the roller 24 at the time of adhesive application.
[0036]
FIG. 8 shows a state diagram of the movement of the adhesive reservoir. As described above, the adhesive reservoir 23 is configured to be slidable in a state where the adhesive adhered to the surface of the roller 24 is in contact with the lower edge of the sheet bundle 100 held by the clamp 18 and detects the position thereof. sensors for is provided. In the bookbinding apparatus 1 according to the present embodiment, as shown in FIG. 8, the sensors are disposed on the sensor holding frame 30 fixed between the right frame 41a and the left frame 41b for fixing the front frame and the rear frame. that. The sensors include an adhesive reservoir position sensor A (31a) for detecting the presence of the adhesive reservoir at a standby position, an adhesive reservoir position sensor C (31c) for detecting the presence of the adhesive reservoir 23 at the maximum movement position, And an adhesive position sensor B (31b) provided at an intermediate portion thereof. These sensors detect the position by cutting off the sensors 32 provided in the adhesive reservoir with the movement of the adhesive reservoir 23.
[0037]
As shown by a broken line 2x in FIG. 8, an adhesive supply unit 5 for replenishing the adhesive reservoir 23 with the adhesive is provided at the maximum movement position of the adhesive reservoir 23. Adhesive supply unit 5, the particulate adhesive accommodated in the hopper 51 are charged to the adhesive reservoir 23 a predetermined amount at an appropriate timing.
[0038]
FIG. 9 shows the configuration of the adhesive supply unit. Adhesive supply unit 5 includes a hopper 51 for storing the particulate adhesive, the inlet 56 to inject adhesive into the duct 52 and the adhesive reservoir 23 connected to the bottom of the hopper 51. In the duct 52, partition grooves 57a and 57b are provided at two positions, and partition plates 55 are provided in the partition grooves 57a and 57b, respectively. The partition plate 55 includes a first partition plate 55a and a second partition plate 55b from the side closer to the hopper. The first partition plate 55a and the second partition plate 55b each have a shape in which a part of a disk is cut out, and are arranged in parallel so that these notches do not overlap. It is fixed by a shaft 54 at the center. The shaft 54 is connected to a partition plate driving motor 53. When the motor 53 is driven, the first partition plate 55a and the second partition plate 55b rotate integrally.
[0039]
The adhesive supply unit 5 supplies a predetermined amount of the granular adhesive stored in the hopper 51 to the adhesive reservoir 23 by controlling the rotation position of the first partition plate 55a and the second partition plate 55b. .
[0040]
FIG. 10 is a drive explanatory diagram of the adhesive supply unit in the adhesive supply. In the initial state, as shown in FIG. 10A, the two first partition plates 55a and the second partition plate 55b are arranged so as to close the opening of the duct 52, respectively. Therefore, the granular adhesive 105 from the hopper 51 remains upstream of the first partition plate 55a.
[0041]
Next, when the first partition plate 55a and the second partition plate 55b rotate 90 degrees in the direction of the arrow 200 about the rotation center 54c, the state shown in FIG. 10B is obtained. In this state, as for the first partition plate 55a, the notch portion is located at the opening portion, so that the opening portion is opened, and the granular adhesive 105 moves to the intermediate duct 57 as shown by the arrow 201. However, in this state, since the second partition plate 55b closes the opening, the second partition plate 55b cannot move downstream.
[0042]
When the first partition plate 55a and the second partition plate 55b rotate 90 degrees about the rotation center 54c in the direction of the arrow 200 from this state, the state shown in FIG. 10C is obtained. In this state, since the opening portions of both the first partition plate 55a and the second partition plate 55b are closed, the particulate adhesive exists upstream of the intermediate duct 57 and the first partition plate 55a of the duct. However, the adhesive 105a present in the intermediate duct 57 is separated from the adhesive 105 present upstream from the adhesive 105a by the first partition plate 55a.
[0043]
In this state, when the first partition plate 55a and the second partition plate 55b rotate 90 degrees about the rotation center 54c in the direction of the arrow 200, the state shown in FIG. In this state, as for the second partition plate 55b, the notch portion is located at the opening portion, so that the opening portion is opened, and the adhesive 105a present in the intermediate duct 57 is inserted into the input port 56 as shown by the arrow 202. headed move. In addition, since the first partition plate 55a closes the opening, the adhesive 105 existing in the duct does not move toward the inlet 56. That is, only the adhesive 105a existing in the intermediate duct 57 moves to the inlet. Thus, by setting the capacity of the intermediate duct 57 to one replenishment amount, an appropriate amount is automatically supplied to the adhesive reservoir 23.
[0044]
Next, the deodorizing unit 3 will be described. As described above, the deodorizing unit 3 sucks the adhesive volatilized from the adhesive reservoir 23 and the roller 24 of the application unit 2 and adsorbs the adhesive on the filter. Specifically, the filter 61 is provided in a duct 64 which is a tubular member provided with a suction port 60 and a discharge port 63, which is an intermediate portion thereof. As the filter 61, a known filter that adsorbs components of the adhesive can be used. The filter 61 is provided in the duct so as to include a gap 64b communicating with the suction port 60 and extending in the longitudinal direction of the duct 64 and a gap 64c provided on the opposite side of the gap 64b.
[0045]
The exhaust port of the exhaust fan 62 provided on the exhaust side of the duct 64 constitutes an exhaust port 63 of the deodorizing unit, and discharges air from the exhaust port 63 toward the outside of the duct 64. As a result, the air flow is sucked from the suction port 60, passes through the filter 61, and is discharged to the discharge port 63. The suction port 60 is located in an upper area of the standby position of the adhesive reservoir 23 and the roller 24, and sucks air containing the adhesive component volatilized therefrom. As described above, in the bookbinding apparatus according to the present embodiment, since the adhesive reservoir has a small capacity, a small exhaust fan corresponding to the capacity of the adhesive reservoir can be used. The air sucked from the suction port 60 opened to the side of the adhesive reservoir in the substantially horizontal direction passes from the front surface to the rear surface of the filter 61 through a gap 64a provided in a duct 64 extending in the vertical direction. The adhesive component is adsorbed and removed. By arranging the filter in this way, the contact surface area between the filter and the airflow can be increased, and the deodorizing unit can function more efficiently. The air that reaches the gap 64b on the opposite side of the gap 64a through the filter 61 reaches the outlet 63 by suction of the fan 62, and is discharged from the outlet 63. Thus, the discharged air has a reduced amount of the adhesive component. The air that has passed through the deodorizing filter is discharged into a space formed by the frame 41a, the front plate 10, and the rear plate 11, and is not discharged outside the device housing. Therefore, it is possible to suppress the emission of the odor to the outside of the apparatus due to the heating of the adhesive.
[0046]
Next, the configuration of the adhesive reservoir 23 and the rollers 24 will be described. Since the adhesive reservoir 23 heats the adhesive through the electromagnetic induction coil 20, it is necessary that at least a part of the adhesive reservoir 23 is provided with a ferromagnetic material. In the adhesive reservoir 23 according to the present embodiment, the container main body 23a is made of aluminum which is a non-ferromagnetic substance having good thermal conductivity, and a ferromagnetic heating plate 72 is provided on the bottom surface of the container main body 23a. Further, a plurality of fins 70 are provided on the inner surface of the container main body 23a, so that the contact area between the container main body 23a and the adhesive is increased. With this configuration, when the adhesive is heated, the heat of the heating plate 72 is transmitted to the container main body 23a made of aluminum having good heat conductivity, and the adhesive is efficiently heated over a wide area. With this configuration, since the adhesive is uniformly heated and the container body 23a is not directly heated, the contact portion between the adhesive and the container body 23a is prevented from being overheated and scorched. It is.
[0047]
Further, the container body 23a is configured such that the bottom inner surface 23b has a shallow periphery and a central portion where the rollers 24 are arranged is deepest. With this configuration, when the adhesive in the adhesive reservoir 23 is consumed, the adhesive gathers in the vicinity of the roller 24, and the roller 24 is easily immersed in the adhesive. there.
[0048]
Further, two thermocouples 71a and 71b are provided in the container body 23a of the adhesive reservoir 23, so that the temperature of the adhesive is measured. One of the two thermocouples 71a and 71b is a temperature detection thermocouple 71a, and measures the temperature of the adhesive in a deep portion of the container body 23a. By the output from the thermocouple 71a, the supply and stop of the current to the heating coil 20 are switched so as to maintain the proper use temperature of the adhesive used.
[0049]
On the other hand, another thermocouple is a liquid detection thermocouple 71b, which measures the temperature of the adhesive in a shallow portion of the container body 23a. The thermocouple 72b controls the CPU 76 (see FIG. 14) which outputs a signal indicating that the detected temperature has become equal to or lower than a predetermined value because the adhesive has been consumed and the liquid level has dropped below the thermocouple. to send to. Upon receiving this signal, the CPU operates the adhesive supply unit 5 to replenish the adhesive.
[0050]
As shown in FIG. 12, the roller supported by the adhesive reservoir 23 has a main body 24c and a jaw 24b provided concentrically with the main body 24c and having a larger diameter than the main body 24c. On both sides of the roller 24, squeegees 69 for scraping off excess adhesive adhered to the surface of the roller 24 are arranged.
[0051]
In this way, by the interaction with the roller 24 having the jaw and the clamp 18 to which one of them is fixed, the reference position with respect to the sheet bundle 100 can be determined uniformly, and the adhesive can be efficiently attached. The reference position of the sheet bundle in the bookbinding apparatus according to the present embodiment will be described with reference to FIG. As described above, the clamp 18 has the fixed clamp 18a disposed on the near side. Therefore, when fixing the sheet bundle, late crop side terminal position of the fixed clamp 18a is always a reference position R which coincides with the front end of the sheet bundle. Therefore, the roller 24 for applying the adhesive to the spine of the sheet bundle is arranged such that the jaw 24b is located on the near side by the distance A from the reference position R. As described above, by using the roller 24 having the jaw 24b, the adhesive 106a adhered to the surface of the jaw 24b adheres not only to the bottom surface 106 of the sheet bundle 100 but also to the lowermost part of the front surface of the sheet bundle 100. to. Thus, the width of the adhesive applied to the lowermost portion of the front surface of the sheet bundle can be easily adjusted by the height of the jaw 24b. By applying the adhesive to the lowermost portion of the front surface of the sheet bundle in this manner, the adhesion between the sheet bundle and the cover can be further strengthened, and a finish having strength can be obtained.
[0052]
Next, the operation of the bookbinding apparatus according to the present embodiment will be described. The whole operation of the bookbinding apparatus 1 is controlled by the CPU 76, and various sensors for detecting the control state and a motor for driving each member are provided. FIG. 14 is a block diagram illustrating a control system of the bookbinding apparatus according to the present embodiment.
[0053]
The bookbinding apparatus according to the present embodiment will be described later in addition to the sheet bundle thickness sensor 34, the adhesive reservoir position sensors A to C (31a to 31c), the liquid temperature detection thermocouple 71a, and the liquid amount detection thermocouple 71b. A crimp clamp stop sensor 75 (see FIG. 19), a crimp clamp upper sensor 73, and a crimp clamp lower sensor 74 (not shown) are provided. The crimp clamp upper sensor 73 and the crimp clamp lower sensor 74 are sensors for detecting upper and lower end positions when the crimp unit 4 moves up and down.
[0054]
The bookbinding apparatus according to the present embodiment includes, as drive sources, the adhesive roller moving motor 78, the crimping clamp front-rear movement motor 79, the crimping clamp vertical movement motor, in addition to the above-described coating roller rotation motor 21 and partition plate driving motor 53. 80, various motors of a movable plate drive motor 83 are provided. The adhesive reservoir moving motor 78 is a motor for moving the adhesive reservoir 23 of the application unit 2. The crimping clamp longitudinal motor 79 and the crimping clamp vertical motor 80 are motors used as driving sources when the crimping unit 4 moves up and down and back and forth. The movable plate drive motor 83 is a motor for driving the movable plate 46 of the crimping unit 4.
[0055]
Further, the bookbinding apparatus according to the present embodiment includes an operation panel 16 as an operation unit, a ROM 81 and a RAM 82 functioning as a storage area and a calculation area of a program related to drive control, and a high frequency supply source 77 for supplying a high frequency current to the heating coil 20. It is provided.
[0056]
FIG. 15 is a flowchart illustrating a flow of a bookbinding operation of the bookbinding apparatus according to the present embodiment. The bookbinding apparatus first turns on the main power supply and then heats the adhesive reservoir with a heating coil. When the liquid temperature detecting thermocouple 71a detects that the adhesive has melted and reached a predetermined temperature, the coating roller rotating motor 21 To rotate the roller 24 (standby state). The bookbinding apparatus 1 according to the present embodiment has a small capacity of the adhesive reservoir as described above, and uses electromagnetic induction heating with good thermal efficiency. And the amount of volatile adhesive is small. Furthermore, since the volatile components of the adhesive can be adsorbed by the deodorizing unit 3, the odor can be prevented from being emitted. In the standby state, the following bookbinding operation is performed.
[0057]
First, the CPU 76 waits in the standby state until the switch on the operation panel 16 is turned on. When the switch is turned on (# 11), the CPU 76 drives the crimping clamp vertical movement motor 80 until the detection by the crimping clamp upper sensor 73 is performed, and raises the crimping unit 4 (# 12). This state is shown in FIG. As shown in FIG. 16A, in the standby state, since the pressure bonding unit 4 is lowered, the lower surface reference of the sheet when setting the sheet bundle 100 on the clamp 18 is not clear. The crimping unit 100 is raised, and the lower surface reference is set so that the distance between the lower end of the clamp 18 and the fixing plate 43 is a predetermined distance (8 mm). Then, as shown in FIG. 16, the lower end of the sheet bundle 100 is abutted against the fixing plate 43, and the sheet bundle is fixed to the clamp 18 by the operation knob 14 (# 13).
[0058]
When the sheet bundle 100 is set on the clamp 18, the switch on the operation panel 16 is pressed again to turn on the switch (# 14). When the switch is turned on, the CPU 76 drives the crimp clamp vertical movement motor 80 until the detection by the crimp clamp lower sensor 73 is performed, and lowers the crimp unit 4 (# 14). The lowering of the crimping unit 4 secures an interval for moving the adhesive reservoir between the clamp 18 and the crimping unit, and sets the cover for case binding with a cover (# 17). It is. Therefore, in the case of glue binding without a cover, the switch on the operation panel 16 may be turned on immediately without setting the cover (# 18).
[0059]
The cover is set by placing the cover on the cover stand 15 and the movable plate 46 of the pressure bonding unit 4 as described above. As described above, in the bookbinding apparatus according to the present embodiment, since the front side of the clamp 18 is the fixed clamp 18a, the edge 110a of the cover is adjusted to the display uniformly determined on the scale 15a (see FIG. 6). Can be easily performed. That is, as shown in FIG. 17, when the bound paper has a predetermined size, the height dimension M is determined uniformly. As described above, the rear end position of the fixed clamp 18a, which is the reference position R, always coincides with the front end of the sheet bundle 100. Therefore, the distance N from the reference position R to the front end 110a of the cover 110 always coincides with the height M of the sheet bundle regardless of the thickness of the sheet bundle to be bound. In other words, regardless of the thickness of the bundle of sheets to be bound, the position on the front cover 15 where the front end 110a of the cover 110 should be uniformly determined. Therefore, the display when the standard paper is used on the paper table 15 can be definitely displayed, and the alignment when setting the cover can be facilitated.
[0060]
When the switch on the operation panel 16 is turned on after setting the cover 110 as necessary, the CPU 76 drives the adhesive reservoir moving motor 78 to move the adhesive reservoir 23. As the adhesive reservoir 23 moves, the adhesive is applied to the spine of the sheet bundle 100 via the rollers 24. At this time, the amount of adhesive applied differs depending on the thickness of the sheet bundle in the rotation direction of the roller. When the thickness of the sheet bundle is thin, the amount of adhesive applied to the back of the sheet bundle decreases, and the adhesive force is reduced. become weak. Thus, in this embodiment, it controls the rotation direction of the roller 24 as follows. That is, the thickness of the sheet bundle is discriminated and determined by the sheet bundle thickness sensor 34 (see FIG. 7) depending on whether or not the thickness is smaller than the predetermined thickness.
[0061]
As shown in FIG. 18A, when the thickness of the sheet bundle is thicker than a predetermined thickness (0.7 mm), the rotation direction is changed depending on the forward path and the backward path. It is forward with respect to the bundle. That is, on the outward path in which the roller 24 moves in the direction indicated by the arrow 205, the roller rotates in the direction indicated by the arrow 220, and on the return path in which the roller 24 moves in the direction indicated by the arrows 206 and 207, the roller moves in the direction indicated by the arrow 221. Rotates. Each of these rotation directions is a direction that is forward with respect to the moving direction of the roller 24, and is a direction that sequentially supplies the adhesive adhered to the surface of the roller 24 to the back portion of the sheet bundle. is there. The switching of the rotation direction of the roller 24 is performed by a signal from the adhesive reservoir position sensor C31c (see FIG. 8).
[0062]
As shown in FIG. 18A, when the signal from the adhesive reservoir position sensor B31b is input during the return path, the CPU 76 stops the rotation of the roller 24. By stopping the roller in the vicinity of the end of the sheet bundle 100 in this manner, excessive adhesion of the adhesive to the side end of the sheet bundle 100 due to scraping of the adhesive at the side end can be prevented. .
[0063]
As shown in FIG. 18B, when the thickness of the sheet bundle is smaller than a predetermined thickness (0.7 mm), the sheet bundle is rotated in the same direction without changing the rotation direction depending on the forward path and the backward path. That is, in the forward path in which the roller 24 moves in the direction indicated by the arrow 205, the roller rotates in the direction indicated by the arrow 220 as in the case of (a), and the return path in which the roller 24 moves in the direction indicated by the arrows 206 and 207 is as follows. The roller rotates in the direction indicated by the arrow 223. By setting the rotation direction of the roller in this way, the direction is such that the forward direction is in the forward direction with respect to the moving direction of the roller 24, and the backward direction is in the direction opposite to the moving direction of the roller 24. Orientation. That is, in the forward path, the adhesive is rotated in such a direction as to sequentially supply the adhesive adhered to the surface of the roller 24 to the spine of the sheet bundle, and in the reverse path, the adhesive adhering to the surface of the roller 24 is scraped out to the spine of the sheet bundle. Rotate to go. As a result, the amount of the adhesive applied on the outward path is increased, and the adhesive strength is increased.
[0064]
Also in this case, the rotation of the roller 24 is stopped in the middle of the return path in order to prevent a large amount of adhesive from adhering to the side end of the sheet bundle 100.
[0065]
In the present embodiment, the reason why the predetermined thickness is set to 0.7 mm is that a suitable range is derived by the following test. As a test method, a sheet and a cover having a thickness of 0.1 mm were used, the thickness of the sheet bundle was changed by changing the number of sheets to be bundled, and the bookbinding state when an adhesive was applied was inspected. The determination as to whether or not the adhesive was insufficient was based on whether or not the sheet and cover were separated when pulled, and if the cover was torn without peeling, it was determined that the bonding was sufficient. The determination as to whether the adhesive was excessive was made by visual observation, and the adhesive protruding was determined in two stages of excessive and slight excessive. Table 1 shows the results. According to the above test, when the thickness of the sheet bundle is 0.7 to 1.0 mm, it is determined to be the boundary area, and the predetermined thickness is set to 0.7 mm, at which the adhesive is slightly insufficient. We decided not to protrude.
[0066]
[Table 1]

[0067]
In the above step, when the adhesive reservoir returns to the standby position and receives a signal from the adhesive reservoir position sensor A31a, the CPU 76 drives the crimp clamp vertical movement motor 80 until the detection by the crimp clamp upper sensor 73 is performed. The unit 4 is raised, and then the movable plate driving motor 83 is driven to move the movable plate 46 in the direction of the pressing member 44 to compress the cover 110 and the sheet bundle 100 (# 20).
[0068]
As shown in FIG. 19, the pressing unit presses the sheet bundle 100 using two members, a pressing member 44 and a movable plate 46 fixed on the fixing plate 43. At this time, the movable plate 46 is driven by the movable plate driving motor 83. However, if the driving force of this motor is directly transmitted to the movable plate 46, there arises a problem that the pressure force varies depending on the thickness of the sheet bundle 100. Therefore, in the present embodiment is configured as follows driving mechanism of the movable plate 46.
[0069]
The driving force of the movable plate drive motor 83 is transmitted to the movable plate 46 via two blocks 87 and 88 opposed to each other with a spring 85 interposed therebetween. That is, the first block 87 is provided on the movable plate side, and the second block 88 is provided on the movable plate drive motor 83 side. The distance between the two can be changed by the support shaft 84 penetrating both. Has become. Since the support shaft 84 is inserted into the spring 85 and connects the both, the two blocks 87 and 88 are urged in directions away from each other. Both ends of the support shaft are large diameter portions 84a, which regulate the maximum distance between the blocks 87 and 88. The crimp clamp stop sensor 75 composed of a photo interrupter is provided on the second block 83 side, and the cutout 86 is provided on the first block side at a position corresponding to the crimp clamp stop sensor 75.
[0070]
Therefore, when the movable plate drive motor 83 is driven to move the second block 88 toward the fixed plate 43, the first block 87 moves together with the second block 88 by the urging force of the spring 85. Therefore, the movable plate 46 when the movable plate driving motor 83 is driven to move. On the other hand, when the leading end of the movable plate 46 contacts the sheet bundle or the holding member 44, the movable plate 46 cannot move any more, so that the second block is pushed by the second block 88 and the spring 85 is pushed. by contract, the distance between both blocks 87 and 88 is absorbed by shorter.
[0071]
As shown in FIG. 19A, when the pressure bonding unit 4 moves up and the cover and the sheet bundle come into contact with each other, the adhesive 106 applied to the spine of the sheet bundle 100 is pressed to the side where the pressing member 44 does not exist. It protrudes (106b). In this state, when the movable plate 46 moves to the pressing member side, the movable plate 46 is located above the fixed plate 43, so that the cover 46 is bent upward, and the protruding adhesive 106b is removed from the sheet bundle. It adheres to the lowermost part of the back side of 100.
[0072]
In this state, the movable plate driving motor 83 continues to be driven in the direction indicated by the arrow 207 even when the leading end of the movable plate 46 abuts on the sheet bundle 100. In this case, as described above, the interval between the two blocks 82 and 83 becomes shorter, and finally, the section 86 cuts off the photo interrupter (the crimp stop sensor 75). CPU76, which has received this signal stops the driving of the movable plate driving motor 83. With such a configuration, the sheet bundle 100 can always be pressed with a uniform pressure regardless of the thickness of the sheet bundle 100.
[0073]
When a predetermined time elapses until the adhesive is solidified by the crimping unit 4, the CPU 76 opens the crimping unit 4 (a) as shown in FIG. The crimping unit 4 is lowered (b) by driving the clamp up-down movement motor 80 as shown by the arrow 230, and then the crimping clamp back-and-forth movement motor 79 is driven to retract the crimping unit 4 as shown by the arrow 231 ( c) (# 21). When the pressure bonding unit 4 retreats, the shooter 45 is located immediately below the sheet bundle. Inside the bookbinding apparatus, a slide 90 is provided at a position near the retracted shooter 45, and the booklet from the shooter 45 is opened by opening the front cover lower cover 13 as shown by an arrow 209 in FIG. A discharge passage to the outside of the device is formed.
[0074]
In this state, when the operation knob 14 is operated to release the clamp as shown by the arrow 232, the bookbinding 120 shown in FIG. 20D passes through the gap 45a provided on the front side of the fixing plate 43 of the crimping unit 4. Then, it falls on the shooter 45, slides down on the slide 90, and is discharged out of the bookbinding apparatus 1.
[0075]
As described above, the bookbinding apparatus according to the present embodiment is a cylindrical member having a suction port and a discharge port in an upper area of a standby position where the adhesive accumulated in the adhesive reservoir is heated. By providing a certain duct and a deodorizing unit including a fan for generating an air flow in the duct, it is easy to suck in an adhesive component, smoke, and the like that volatilize upward from the adhesive reservoir. Therefore, the airflow can be sufficiently sucked into the duct without making the airflow generating means strong. Further, since the adhesive reservoir is moved, the capacity is small, and a strong suction force of the exhaust fan is not required. As a result, the size of the deodorizing unit can be reduced, and the size of the bookbinding apparatus can be reduced.
[0076]
In addition, since the deodorizing unit is provided above the adhesive reservoir at the standby position, it is not affected by the airflow generated by the deodorizing unit during bookbinding. Further, since the adhesive reservoir is moved, even if the deodorizing unit is arranged above the adhesive reservoir at the standby position, it does not hinder the setting of the sheet bundle.
[0077]
Furthermore, the outlet of the duct is provided in the housing, and the air after passing through the deodorizing filter is discharged into a space formed by the frame 41a, the front plate 10, and the rear plate 11. Further, when the adhesive reservoir is at the standby position, the adhesive reservoir is heated by the heating means, and the movement of the adhesive reservoir at the time of bookbinding is short, and at the time of the movement, the adhesive reservoir is shielded by the sheet bundle existing on the rollers. Therefore, even if the deodorizing unit is arranged only above the standby position, the emission of odor to the outside of the apparatus can be reduced.
[0078]
The present invention is not limited to the above embodiment, but can be implemented in various other modes.
[Brief description of the drawings]
1 is an external perspective view of the bookbinding apparatus according to an embodiment of the present invention.
It is a front view showing a main portion internal structure of the binding apparatus of FIG. 1; FIG.
3 is a left side view showing a main portion internal structure of the binding apparatus of Figure 1.
[4] the coating unit is a front view showing a positional relationship when present in a standby position.
[5] the coating unit is a left side view showing a positional relationship when present in a standby position.
FIG. 6 is a perspective view showing a configuration of a main part of the crimping unit.
FIG. 7 is an explanatory diagram of a clamp driving mechanism.
FIG. 8 is a state diagram of the movement of the adhesive reservoir.
9A and 9B are diagrams illustrating a configuration of an adhesive supply unit, wherein FIG. 9A is a plan view and FIG. 9B is a right side view.
10 is a driving state transition diagram of the adhesive supply unit in the adhesive supply.
11A and 11B are diagrams showing a positional relationship of the deodorizing unit, wherein FIG. 11A is a left side view of a main part, and FIG. 11B is a front view of a main part.
12A and 12B are diagrams illustrating the configuration of an adhesive reservoir and a roller, wherein FIG. 12A is a plan view and FIG. 12B is a cross-sectional view taken along line AA of FIG.
13 is a diagram for explaining a contact position between the roller and the paper stack.
14 is a block diagram showing a control system of the bookbinding apparatus according to this embodiment.
It is a flow diagram showing the flow of the bookbinding operation of FIG. 15 bookbinding apparatus according to this embodiment.
16A is a diagram illustrating a lowered position of the pressure bonding unit, and FIG. 16B is a diagram illustrating a state where a sheet bundle is set after the pressure bonding unit is raised.
FIG. 17 is a diagram illustrating a reference position in a cover set.
18 is a diagram showing the direction of rotation of the rollers in the transfer of the adhesive reservoir.
19 is a diagram for explaining a crimping force control mechanism in the crimping unit.
FIG. 20 is a state transition diagram showing a bookbinding removal process.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 Bookbinding apparatus 2 Coating unit 3 Deodorizing unit 4 Crimping unit 5 Adhesive supply unit 10 Front plate 11 Rear plate 12 Rear cover 13 Front lower door 14 Operation knob 15 Cover stand 16 Operation panel 18 Clamp 18a Fixed clamp 18b Movable clamp 19a , 19b Paper bundle holding member 20 Heating coil 23 Adhesive reservoir 24 Application roller 43 Fixed plate 44 Pressing member 45a Gap 45 Shooter 45a Gap 46 Movable plate 60 Suction port 61 Filter 62 Exhaust fan 63 Discharge port 64 Duct

Claims (3)

An adhesive reservoir (23) for accumulating a hot-melt adhesive; a roller (24) disposed above the adhesive reservoir so as to immerse a lower portion in the adhesive; and a clamping means for clamping a sheet bundle. (18) and a heating means (20) for heating the adhesive, wherein the adhesive reservoir and the roller are arranged in a whole area on the lower rear surface of the sheet bundle (100) from a standby position outside the edge of the sheet bundle. A bookbinding apparatus, wherein the adhesive reservoir is heated by the heating means (20) at the standby position.
A duct (64) containing a deodorizing filter (61), and an airflow generating means (62) for generating an airflow sucked from a suction port (60) of the duct and discharged from an outlet (63) of the duct. A bookbinding device comprising a deodorizing unit (3). The bookbinding apparatus according to claim 1, wherein the suction port (60) of the deodorizing unit (3) is openly arranged in an upper region of a standby position of the adhesive reservoir (23). 3. The bookbinding device according to claim 1, wherein the outlet (63) of the duct (64) is arranged in an outer casing of the bookbinding device. 4.

Images