JP2002051743A - Conveying part structure of forming machine of fish paste - Google Patents

Conveying part structure of forming machine of fish paste

Info

Publication number
JP2002051743A
JP2002051743A JP2000243772A JP2000243772A JP2002051743A JP 2002051743 A JP2002051743 A JP 2002051743A JP 2000243772 A JP2000243772 A JP 2000243772A JP 2000243772 A JP2000243772 A JP 2000243772A JP 2002051743 A JP2002051743 A JP 2002051743A
Authority
JP
Japan
Prior art keywords
transport
molded product
conveying
molding
belt
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Granted
Application number
JP2000243772A
Other languages
Japanese (ja)
Other versions
JP3450806B2 (en
Inventor
Yoji Matsuura
要二 松浦
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
YASUI CO Ltd
Original Assignee
YASUI CO Ltd
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by YASUI CO Ltd filed Critical YASUI CO Ltd
Priority to JP2000243772A priority Critical patent/JP3450806B2/en
Publication of JP2002051743A publication Critical patent/JP2002051743A/en
Application granted granted Critical
Publication of JP3450806B2 publication Critical patent/JP3450806B2/en
Anticipated expiration legal-status Critical
Expired - Fee Related legal-status Critical Current

Links

Landscapes

  • Discharge Of Articles From Conveyors (AREA)
  • Branching, Merging, And Special Transfer Between Conveyors (AREA)
  • Processing Of Meat And Fish (AREA)
  • Fish Paste Products (AREA)
  • Formation And Processing Of Food Products (AREA)

Abstract

PROBLEM TO BE SOLVED: To provide a conveying part structure in a forming machine of a fish paste, capable of carrying out the delivery and convey to a postprocessing part well at the end terminal side of the conveyor while preventing the deformation or the like of the formed product when conveying and discharging the formed product of ground fish meat or the like by a conveying belt and capable of facilitating the maintenance operation of scraping-controlling structure, the conveying belt or the like. SOLUTION: The scraping-controlling structure 9 having a controlling member 90 for controlling the scraped posture of the formed product W is detachably installed in the end terminal part of the conveying part 4, and the controlling member 90 of the scraping-controlling structure 9 is installed along the conveying end terminal surface of the conveying belt 43 so as to be positioned and turned, and so as to be urged to press and keep contact with the conveying end surface to provide the objective conveying part structure in the forming machine of the fish paste.

Description

【発明の詳細な説明】DETAILED DESCRIPTION OF THE INVENTION

【0001】[0001]

【発明の属する技術分野】本発明は、スリ身等の材料で
成形した成形物を搬送排出する練製品の成形機における
搬送部構造に関する。
BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a conveying unit structure in a kneaded product molding machine which conveys and discharges a molded product formed of a material such as a pickpocket body.

【0002】[0002]

【従来の技術】従来、スリ身等の材料を成形装置並びに
切断成形部において、所定形状と長さの成形物に形成
し、成形された成形物を搬送ベルトで受けて機外に搬送
排出する成形機は既に知られており、この成形機の搬送
部は、成形装置と切断成形部の下方において、駆動輪及
び遊動輪並びに両者の間に設置した適数の受け輪にゴム
板状の搬送ベルトを巻き掛けると共に、搬送ベルトの搬
送終端側で搬送ベルト上の成形物を離脱させる杆状のス
クレーパを、搬送ベルトの両側のフレームから取付ネジ
で張り支持することにより横設した構成にしている。
2. Description of the Related Art Conventionally, a material such as a sand body is formed into a molded product having a predetermined shape and length in a molding device and a cutting molding section, and the molded product is received by a transport belt and transported out of the machine. A molding machine is already known, and a conveying section of the molding machine is provided with a rubber plate-like conveyance section below a molding apparatus and a cutting molding section, to drive wheels, idler wheels, and an appropriate number of receiving wheels installed between them. A rod-shaped scraper that wraps around the belt and releases the molded product on the conveyor belt at the end of conveyance of the conveyor belt is laterally installed by supporting the frames on both sides of the conveyor belt with mounting screws. .

【0003】[0003]

【発明が解決しようとする課題】然し、上記従来のよう
な構成による成形装置の搬送部は、スクレーパを搬送ベ
ルトの搬送終端面に取付ネジによって取付固定した構成
にしているので、搬送ベルト終端から後処理部としての
フライヤー等の油面に成形物を搬送排出して継送する際
に、スクレーパと油面との距離が大きいと、成形物は略
垂直状に落下して油面との落下衝撃によって屈折したり
端潰れを生じ易く、またスクレーパと油面との距離が小
さいと、成形物は略水平状で落下してその全面が油面で
衝撃を受けて、型崩れや内部気泡を生じ易い等の欠点が
ある。そこで、上記スクレーパは後処理部の高さや油面
の変動に対し、その取付け位置を取付ネジと長孔等によ
る調節手段を介して変更することも試みられるが、上記
のような調節手段による位置変更は、操作が煩雑である
と共に熟練を要すること、及びスクレーパによって成形
物に損傷を与え易い等の問題がある。
However, since the conveying section of the molding apparatus having the above-mentioned conventional configuration has a structure in which the scraper is attached and fixed to the conveying end surface of the conveying belt by a mounting screw, the conveying section is moved from the end of the conveying belt. If the distance between the scraper and the oil surface is large when transferring and discharging the molded product to the oil surface such as a fryer as a post-processing unit, the molded product falls almost vertically and falls on the oil surface. If the impact is likely to cause bending or crushing of the end, and if the distance between the scraper and the oil surface is small, the molded product will fall almost horizontally and the entire surface will be impacted by the oil surface, causing shape collapse and internal bubbles. There are drawbacks such as easy occurrence. Therefore, it is attempted to change the mounting position of the scraper with respect to fluctuations in the height and oil level of the post-processing section through adjusting means such as mounting screws and long holes. The change has problems that the operation is complicated and requires skill, and the molded product is easily damaged by the scraper.

【0004】[0004]

【課題を解決するための手段】上記従来の問題点を解消
するために本発明による練製品の成形機における搬送部
構造は、第1に、スリ身等の材料を成形装置3等で所望
の形状に成形すると共に、成形された成形物Wを搬送ベ
ルト43で受けて搬送排出する搬送部4を備えた成形機
において、前記搬送部4の終端部に成形物Wの掻落姿勢
制御を行う制御部材90を有する掻落制御機構9を着脱
可能に設けると共に、該掻落制御機構9の制御部材90
を、搬送ベルト43の搬送終端面に沿って、位置決め回
動可能に設けながら押接付勢させるように構成したこと
を特徴としている。
SUMMARY OF THE INVENTION In order to solve the above-mentioned conventional problems, the structure of the conveying part in the kneaded product molding machine according to the present invention is as follows. In a molding machine provided with a transport unit 4 that receives a molded product W by a transport belt 43 and transports and discharges the molded product W, a control for controlling the scraping posture of the molded product W at the end of the transport unit 4 A scraping control mechanism 9 having a member 90 is detachably provided, and a control member 90 of the scraping control mechanism 9 is provided.
Is configured to be pressed and urged along the transport end surface of the transport belt 43 while being rotatably positioned.

【0005】第2に、搬送ベルト43の中途部から切断
成形部5側を固定した状態において、搬送ベルト43の
終端部側を上下回動可能に構成することを特徴としてい
る。
[0005] Second, in a state where the cutting and forming section 5 side is fixed from the middle of the conveyor belt 43, the end portion side of the conveyor belt 43 is configured to be vertically rotatable.

【0006】第3に、搬送ベルト43の中途部から終端
部側を固定した状態において、搬送ベルト43の始端部
側を上下回動可能に構成することを特徴としている。
A third feature is that the start end of the conveyor belt 43 is vertically rotatable in a state where the end of the conveyor belt 43 is fixed from the middle to the end.

【0007】第4に、搬送ベルト43の中途部から始端
部側の上方に、回転切断部5aで切断した成形物Wを搬
送ベルト43上で押圧形成するプレス部5bを設けると
共に、該プレス部5bの押圧部材5dを位置調節機構6
を介して上下調節可能に設けることを特徴としている。
Fourthly, a press portion 5b for pressing and forming the molded product W cut by the rotary cutting portion 5a on the transport belt 43 is provided above the transport belt 43 from the middle to the start end side. 5b of the pressing member 5d to the position adjusting mechanism 6
It is characterized in that it is provided so as to be adjustable up and down via

【0008】[0008]

【発明の実施の形態】本発明の一実施形態を図面に基づ
いて説明する。先ず図1〜図4を参照し本発明を備えた
練製品の成形機1について説明する。この成形機1は、
蒲鉾等の練製品を製造する上で用いられるスリ身等の材
料を収容し押し出し送出する送出装置2と、該送出装置
2に着脱可能に連結され材料を所望の形状の成形物Wに
成形する成形装置3と、成形された成形物Wを受けて右
方の機外に搬送排出する搬送部4等からなり、これらは
図2に示す機体1aに以下のように設置することによ
り、成形作業を行い易くしていると共に、各部の組付け
及び分解並びに点検,修理,清掃等のメンテナンス作業
も、簡単に行うことができるように構成している。
An embodiment of the present invention will be described with reference to the drawings. First, a molding machine 1 for kneaded products provided with the present invention will be described with reference to FIGS. This molding machine 1
A delivery device 2 for accommodating, extruding, and sending out a material such as a sliced body used for manufacturing kamaboko and other kneaded products, and a detachably connected to the delivery device 2 to form the material into a molded product W having a desired shape. A molding device 3 and a transport section 4 for receiving and transporting the molded product W to the right outside the machine, and the like, are installed on the machine body 1a shown in FIG. And maintenance work such as inspection, repair, cleaning and the like of each part can be easily performed.

【0009】上記成形機1の機体1aは、キャスタを有
する箱型状機枠の左側上方に形成した、前記送出装置2
を着脱可能に載置固定する送出装置取付面10と、その
右側下方で搬送部4を横設配置する搬送部設置面11と
を、正面視で段状に一連に形成すると共に、送出装置取
付面10と搬送部設置面11の奥側(後方)に、立壁1
2を一体的に連ねて立設することにより、側面視におい
てL字状の作業機配置用凹陥部を形成している。そし
て、立壁12から作業機配置用凹陥部に向けて、送出装
置2を係脱可能に駆動させる送出駆動軸13と、搬送部
4の駆動輪40を駆動する搬送駆動軸15、及びこれら
に関連する各軸を片持ち状で略水平方向に突設してい
る。
The body 1a of the molding machine 1 is formed at the upper left side of a box-shaped machine frame having casters.
A transmission device mounting surface 10 for detachably mounting and fixing the transmission device, and a transport unit installation surface 11 for horizontally arranging the transport unit 4 on the lower right side thereof are formed in a series in a stepwise manner in a front view, and the transmission device mounting surface is formed. The standing wall 1 is located on the back side (rear side) of the surface 10 and the transfer unit installation surface 11.
2 are integrally connected and erected to form an L-shaped recessed portion for arranging the working machine in a side view. A delivery drive shaft 13 that drives the delivery device 2 so as to be able to be disengaged from the upright wall 12 toward the work implement disposing recess, a transport drive shaft 15 that drives a drive wheel 40 of the transport unit 4, and related components. Each of the shafts is cantilevered and protrudes substantially horizontally.

【0010】また立壁12側の機体1aには、後述する
切断成形部5のカッター50を有する回転切断部5a
と、掻均機構8を備えた回転プレス部5b、縦切断部5
c等の、切断駆動軸16とプレス駆動軸17並びに板状
カッター18等を片持ち状に突設している。そしてこれ
ら各駆動部は、機体1aの適所に設置した制御盤1b,
1cの操作及び制御によって、手動並びに自動操作運転
により所定或いは所望のタイミングで各作動させること
ができるようにしている。
The machine body 1a on the side of the vertical wall 12 has a rotary cutting section 5a having a cutter 50 of a cutting section 5 described later.
And a rotary press section 5b provided with a flattening mechanism 8, and a vertical cutting section 5
The cutting drive shaft 16, the press drive shaft 17, the plate cutter 18, and the like, such as c, are protruded in a cantilever manner. Each of these drive units is provided with a control panel 1b,
By the operation and control of 1c, each operation can be performed at a predetermined or desired timing by manual or automatic operation.

【0011】また上記各駆動軸13,15,16,17
は、各対応する送出装置2,搬送部4,切断部5a,プ
レス部5b等を、作業手前側の同一方向から着脱可能に
取着することができる構成にしており、これにより各部
を同方向から自由に着脱し、各部のメンテナンス作業や
部品交換等を簡単に行うことを可能にしている。即ち、
回転切断部5aは図2,図8〜図11に示すように、切
断駆動軸16に成形物Wを所望に切断するカッター50
を着脱可能に取着すると共に、該カッター50の自由端
側を着脱可能に軸支する補助軸支機構5hを備えてい
る。
Each of the drive shafts 13, 15, 16, 17
Is configured such that the corresponding sending device 2, transporting unit 4, cutting unit 5a, press unit 5b, etc. can be detachably attached from the same direction on the front side of the work, whereby each unit can be attached in the same direction. It can be freely attached to and detached from the main unit, making it possible to easily perform maintenance work and component replacement of each part. That is,
As shown in FIGS. 2 and 8 to 11, the rotary cutting section 5 a is provided with a cutter 50 for cutting the molded product W into the cutting drive shaft 16 as desired.
And an auxiliary shaft supporting mechanism 5h for detachably supporting the free end side of the cutter 50 in a detachable manner.

【0012】また回転プレス部5bは、プレス駆動軸1
7に対し図2に示すような押圧部材としての円筒状のプ
レスローラ5dや、該プレスローラ5dに対設させる掻
均機構8、或いは周面に多数の針金を突設した穴開けロ
ーラ5e等を成形物Wの形態に適応させて選択取着にし
ており、その取付構造と着脱作業は図12,図13で後
述するような構成と操作によって簡単に行うことができ
るようにしている。また搬送部4は、図2〜図4に示す
ように機体の一側(作業手前側)に向けて簡単に取り外
すことができるようにしていると共に、その終端部に図
15,図6で後述する掻落制御機構9を着脱可能に設
け、また搬送ベルト(搬送帯)43を図17,図18に
示すような形態のものに簡単に切り換えて使用すること
ができるようにしている。
The rotary press section 5b includes a press drive shaft 1
2, a pressing roller 5d as a pressing member as shown in FIG. 2, a flattening mechanism 8 opposed to the pressing roller 5d, or a perforating roller 5e having a large number of wires projecting from its peripheral surface. Is selectively attached in conformity with the form of the molded article W, and the mounting structure and the attaching / detaching operation can be easily performed by the configuration and operation described later with reference to FIGS. The transport section 4 can be easily detached toward one side of the machine body (front side of the work) as shown in FIGS. The detachable scraping control mechanism 9 is provided detachably, and the transport belt (transport belt) 43 can be easily switched to the one shown in FIGS. 17 and 18 for use.

【0013】次に、上記各部の詳細な構成について説明
する。先ず送出装置2は、押圧固定型の取付具10a
(図2,図3)によって送出装置取付面10にワンタッ
チ状に着脱可能に取付固定できるようにしていると共
に、送出装置2の上部に材料を収容するホッパー内に攪
拌体20aを有する供給部20を着脱可能に備え、収容
した材料を混練しながら送出装置2に送給するように
し、また送出装置2の右側側面に突出形成した送出口
(取付口部)21には、成形装置3を後述する構成によ
って着脱可能に取着している。尚、図示例の送出装置2
は、送出駆動軸13に係合して図3に示す矢印方向に回
転することにより、供給部20内の材料を掻き出して送
出口21から成形装置3に圧送する、在来の構成からな
る偏心羽車方式の加圧ポンプを採用しているが、これに
限ることなくシリンダ方式等のものであってもよいもの
である。
Next, a detailed configuration of each of the above-described units will be described. First, the delivery device 2 includes a press-fixing type fixture 10a.
(FIGS. 2 and 3) A supply unit 20 having a stirrer 20a in a hopper for accommodating a material at an upper portion of the delivery device 2 while being detachably attached and fixed to the delivery device mounting surface 10 in a one-touch manner. Is detachably provided so that the contained material is fed to the delivery device 2 while kneading, and a molding device 3 is attached to a delivery port (attachment port) 21 formed on the right side surface of the delivery device 2 so as to be described later. It is detachably attached by the configuration shown in FIG. The sending device 2 in the illustrated example
The eccentricity of the conventional configuration in which the material in the supply unit 20 is scraped out by being engaged with the delivery drive shaft 13 and rotated in the direction of the arrow shown in FIG. Although an impeller type pressurizing pump is employed, the present invention is not limited to this, and a cylinder type pressurizing pump may be used.

【0014】次に、成形物Wを成形する成形装置3の1
例について図5〜図7を参照し説明すると、この成形装
置3は、送出口21に取付ネジ35等によって着脱可能
に取着される送出筒体30と、該送出筒体30に対し取
付ネジ36等の適宜な固定手段によって、順次着脱可能
で一体的に連結して取着される、1次成形型31と2次
成形型32と3次成形型33等から構成している。
Next, one of the molding devices 3 for molding the molded product W
An example will be described with reference to FIGS. 5 to 7. The molding apparatus 3 includes a delivery cylinder 30 that is detachably attached to the delivery port 21 with a mounting screw 35 or the like, and an attachment screw that is attached to the delivery cylinder 30. A primary molding die 31, a secondary molding die 32, a tertiary molding die 33, and the like, which are sequentially detachable and integrally connected by a suitable fixing means such as 36, are attached.

【0015】即ち、図示例の送出筒体30は断面矩形筒
体の両端に、前記送出口21の取付板21aに接合して
位置決め係合する取付ブラケット30aと、1次成形型
31を接合固定させる取付ブラケット30bとを各設け
ていると共に、筒内部を隔壁30cで上下に仕切ること
により、送出装置2側から送給される材料(一次材料W
1)を送出する1次送出口3aと、該送出装置2とは別
の図示しない送出装置から送給される、1次材料W1と
異なる2次材料W2を送出する2次送出口3bとを形成
している。そして、2次送出口3bはその上壁に設けた
供給口30dを、前記送出装置2と略同様な構成を以
て、別途機外に設置されている送出装置と連結すること
により、2次材料W2を1次材料W1と的確に区画し
て、2次送出口3bから送出下手側に向けて圧送するよ
うにしている。
That is, in the illustrated delivery cylinder 30, a mounting bracket 30a, which is joined to the attachment plate 21a of the delivery port 21 for positioning and engagement, and a primary molding die 31 are fixedly attached to both ends of the rectangular cross-section cylinder. And a partition (30c) that divides the inside of the cylinder up and down, so that the material (primary material W) fed from the delivery device 2 side is provided.
1), and a secondary outlet 3b that sends out a secondary material W2 different from the primary material W1 and is sent from a sending device (not shown) separate from the sending device 2. Has formed. The secondary outlet 3b connects the supply port 30d provided on the upper wall thereof to a delivery device separately installed outside the machine with substantially the same configuration as that of the delivery device 2, thereby forming the secondary material W2. Is accurately partitioned from the primary material W1, and is pressure-fed from the secondary delivery port 3b toward the delivery lower side.

【0016】上記1次成形型31は、送出筒体30の取
付ブラケット30bに接合可能な板状体で、1次送出口
3aに対向する部位に海老胴体型の成形物本体の輪郭を
なす複数の成形孔31aを、該輪郭を長手方向に所定巾
で複数に区画する溝形成部31bを設けて形成し、図7
の材料成形模式図で示すように、1次材料W1を複数の
溝W3で区画した棒状の1次材料成形部W4を形成しな
がら、2次成形型32側に送出するようにしていると共
に、2次送出口3bに対向する部位には、2次材料W2
を2次成形型32側に通過させる通孔31cを穿設形成
している。
The primary molding die 31 is a plate-like body which can be joined to the mounting bracket 30b of the delivery cylinder 30, and has a plurality of prawn-body-shaped molding bodies at a portion facing the primary delivery port 3a. 7 is formed by providing a groove forming portion 31b which divides the contour into a plurality of parts with a predetermined width in the longitudinal direction.
As shown in the schematic diagram of the material molding, the primary material W1 is sent out to the secondary molding die 32 while forming a rod-shaped primary material molding portion W4 divided by a plurality of grooves W3. The secondary material W2
Is formed in the through-hole 31c for passing through the secondary mold 32.

【0017】2次成形型32は上記1次成形型31に接
合可能な板状体で、1次成形型31の成形孔31aと溝
形成部31bに対向する部位に、海老胴体型の成形孔3
2aを穿設形成していると共に、該成形孔32aの上部
で1次成形型31の通孔31cに対向する部位に通孔3
2bを穿設している。そして、上記成形孔32aの上部
と通孔32bを、2次成形型32の表面に凹溝状に刻設
した複数の充填路32cで連通しており、これにより成
形孔32a内を通過する1次材料形成部W4間の各溝W
3内に、各充填路32cを介して2次材料W2を上方か
ら下方に向けて的確に充填供給することができるように
している。
The secondary molding die 32 is a plate-like body that can be joined to the primary molding die 31, and is provided with a shrimp body molding hole at a position facing the molding hole 31a and the groove forming portion 31b of the primary molding die 31. 3
2a is formed by drilling, and a through hole 3 is formed at a position above the forming hole 32a and facing the through hole 31c of the primary mold 31.
2b is drilled. The upper portion of the molding hole 32a and the through hole 32b communicate with each other through a plurality of filling paths 32c formed in the surface of the secondary molding die 32 in the form of concave grooves. Each groove W between the next material forming portions W4
3, the secondary material W2 can be accurately filled and supplied downward from above through each filling path 32c.

【0018】またこのとき図示例に示すように、充填路
32cは溝形成部31bの直背後に対面させて刻設する
と、該溝形成部31bが1次材料W1中に溝W3を形成
した直後では、該溝W3は負圧状態にあり材料自身が有
する弾性で膨出し溝巾を狭くしていない状態にあるの
で、2次材料W2は充填路32cを介して溝W3内にあ
たかも引き込まれるように導入され、成形物Wの上下を
横断している溝W3内の全体に、むらなく的確且つ円滑
に形崩れ等を伴うことなく充填することができる等の特
徴がある。
Further, at this time, as shown in the illustrated example, when the filling path 32c is carved so as to face directly behind the groove forming part 31b, the groove forming part 31b immediately after forming the groove W3 in the primary material W1. In this case, since the groove W3 is in a negative pressure state and is in a state where the width of the bulging groove is not reduced due to the elasticity of the material itself, the secondary material W2 is drawn into the groove W3 via the filling path 32c. And that the entirety of the groove W3 that crosses the upper and lower portions of the molded product W can be uniformly and accurately filled smoothly without deformation.

【0019】3次成形型33は、2次成形型32に接合
取着される板状体33cで2次成形型32の通孔32b
を閉鎖するようにしていると共に、2次成形型32の成
形孔32aに対向する部位に、該成形孔32aと略同形
断面の海老胴体型の成形孔33aを形成する筒状の成形
ガイド33bを設けており、これにより2次成形型32
で合流する1次材料W1と2次材料W2との接合を、材
料を馴染ませながら充分に行うことができて、接合形成
の仕上げを良好に行うと共に、切断部5側へ向けて的確
に送出することができるものである。
The tertiary molding die 33 is a plate-like body 33c joined and attached to the secondary molding die 32, and has a through hole 32b of the secondary molding die 32.
And a cylindrical shaping guide 33b for forming a shrimp body-shaped shaping hole 33a having substantially the same cross-section as the shaping hole 32a at a position facing the shaping hole 32a of the secondary shaping mold 32. The secondary mold 32
The joining of the primary material W1 and the secondary material W2, which are joined together, can be sufficiently performed while accommodating the materials, and the finishing of the joining formation can be performed well, and the material can be accurately sent out toward the cutting portion 5 side. Is what you can do.

【0020】また図6に示すように成形ガイド33b
は、その筒端を下辺側が上辺側より切断部5側に向けて
長く延出するように後退角を設けており、回転切断部5
aのカッター50による回転切断を良好に行うことがで
きるようにしている。尚、成形ガイド33bは送出下手
側に至るほどテーパー状に収束する形状にすると、成形
ガイド33b内で1次材料W1と2次材料W2との締め
固め形成をより的確に行うことができると共に、カッタ
ー50による切断時の型崩れ等に伴う製品不良の発生を
防止しながら、成形材の切断を能率よく行うことができ
るものである。
As shown in FIG. 6, the forming guide 33b
Is provided with a receding angle such that the lower end of the cylinder extends from the upper side toward the cutting section 5 longer than the upper side.
The rotation cutting by the cutter 50 of FIG. In addition, when the forming guide 33b has a shape that converges in a tapered shape toward the lower side of the delivery, the compaction of the primary material W1 and the secondary material W2 can be performed more accurately in the forming guide 33b. The cutting of the molding material can be performed efficiently while preventing the occurrence of product defects due to the collapse of the mold or the like at the time of cutting by the cutter 50.

【0021】またこの実施形態では、1次材料W1は着
色しないスリ身とし、2次材料W2は該スリ身に赤色系
の着色材を混練した着色スリ身にしており、これにより
上記成形装置3で成形した成形物Wは、1次材料W1と
2次材料W2とからなる横断した模様(縞模様)を表す
ことができ、その外観を海老柄に可及的に類似させると
共に、成形物Wを長手方向に切断した際にも内部を外観
と略同様にすることができて、食味感覚の向上を図るこ
とができる等の特徴を有している。そして、上記のよう
な構成からなる成形装置3は、各別に平坦な板状体から
なる1次成形型31と2次成形型32と3次成形型33
とを分割可能に送出筒体30に取着した構成にしている
ので、各成形型の孔開けや溝成形等の加工を複雑でコス
ト高な鋳造手段等によることなく、板状体に一般的な機
械加工を施すだけで簡単且つ廉価に製作することができ
ると共に、成形型の組替え時の取替えや共用、並びに各
成形型の分解洗浄等を能率よく簡単に行うことができる
等の利点があるものである。
In this embodiment, the primary material W1 is an uncolored pickpocket, and the secondary material W2 is a colored pickpocket kneaded with a red coloring material. Can be represented by a cross-sectional pattern (striped pattern) composed of the primary material W1 and the secondary material W2, the appearance of which is as similar as possible to the shrimp pattern, and the molded product W When cut in the longitudinal direction, the inside can be made almost the same as the appearance, and the taste can be improved. The molding apparatus 3 having the above-described configuration is used to form the primary molding die 31, the secondary molding die 32, and the tertiary molding die 33, each of which is made of a flat plate.
Is formed so as to be dividable and attached to the delivery cylinder 30, so that processing such as drilling and groove forming of each mold is not performed by a complicated and costly casting means or the like. It can be manufactured easily and inexpensively simply by performing simple machining, and has advantages such as the ability to exchange and share molds at the time of changing the molds and to perform the disassembly and cleaning of each mold efficiently and easily. Things.

【0022】次に、切断成形部5について説明する。図
示例の切断成形部5は、補助軸支機構5hを備えた回転
切断部5a、及び回転プレス部5b、並びに縦切断部5
c等で構成している。このうち回転切断部5a及び回転
プレス部5bは、その切断駆動軸16並びにプレス駆動
軸17を、それぞれ同構造の位置調節機構6を介して上
下調節可能に支持し伝動するようにしており、これによ
り成形装置3で成形された成形物Wの切断及び押圧成形
を、簡単且つ自由に行うことができるようにしている。
図8を参照し回転切断部5aとその位置調節機構6につ
いて説明すると、この位置調節機構6は、コ字状の支持
枠60内にハンドル61付のネジ杆61とガイド杆62
を略平行状に立設した枠体構造にしていると共に、切断
駆動軸16を回転可能に軸支した軸支部材63の一側を
上記ガイド杆62にスライド可能に嵌挿し、且つ他側を
ネジ杆61に螺挿支持させながら、支持枠60に設けた
スライドガイド65に摺接案内させる構成にしている。
Next, the cut forming section 5 will be described. The cut forming section 5 in the illustrated example includes a rotary cutting section 5a, a rotary press section 5b, and a vertical cutting section 5 provided with an auxiliary shaft support mechanism 5h.
c etc. Among these, the rotary cutting section 5a and the rotary press section 5b support and transmit the cutting drive shaft 16 and the press drive shaft 17 via the position adjusting mechanism 6 having the same structure so as to be vertically adjustable. Thus, cutting and pressing of the molded product W molded by the molding device 3 can be easily and freely performed.
The rotary cutting section 5a and its position adjusting mechanism 6 will be described with reference to FIG. 8. The position adjusting mechanism 6 includes a screw rod 61 with a handle 61 and a guide rod 62 in a U-shaped support frame 60.
Are arranged in a substantially parallel frame structure, and one side of a shaft support member 63 that rotatably supports the cutting drive shaft 16 is slidably fitted to the guide rod 62 and the other side is inserted. The slide guide 65 provided on the support frame 60 is slidably guided while being screwed and supported by the screw rod 61.

【0023】これにより、ハンドル61を正逆回転する
と、ネジ杆61及び軸支部材63等を介して切断駆動軸
16を機外から簡単に上下動させることができ、多様な
成形装置3の成形ガイド33bに適応させた、カッター
50の切断高さ調節を自由に行うことができるものであ
る。また切断駆動軸16を上下動させると、カッター5
0と送出口21に通ずる成形ガイド33bの端部との距
離を調節することができるので、従来の回転切断部のよ
うに、カッターを支持するカッター取付腕を、敢えて長
さ調節構造にすることなく、カッター取付腕51を長さ
調節不能な簡単な構成にすることができる等の利点があ
る。
Thus, when the handle 61 is rotated in the normal or reverse direction, the cutting drive shaft 16 can be easily moved up and down from outside the machine via the screw rod 61 and the shaft support member 63 and the like. The cutting height of the cutter 50 can be freely adjusted according to the guide 33b. When the cutting drive shaft 16 is moved up and down, the cutter 5 is moved.
Since the distance between 0 and the end of the forming guide 33b communicating with the delivery port 21 can be adjusted, the cutter mounting arm for supporting the cutter is intentionally made to have a length adjusting structure like a conventional rotary cutting section. Therefore, there is an advantage that the cutter mounting arm 51 can have a simple configuration in which the length cannot be adjusted.

【0024】この際図8に示すように、カッター50は
成形ガイド33b端部の後退角を有する下辺に対し、軽
く接触する程度の位置に調節位置させるとよく、これに
より成形ガイド33bの成形孔33aから連続的に送出
される成形物Wを、上方から大きな切断抵抗を伴うこと
なく自由に切断開始をして、切断終点となる両者の接当
で成形物Wの切断を的確に行うことができ、ちぎれ切断
等の切断不良を抑制した綺麗な切断端面にする等の特徴
がある。尚、上記図示例のカッター50は、切断駆動軸
16に着脱可能に取付固定されるカッター取付腕51に
対し、ナイフバー形状のものを角度調節部材52を介し
て片持ち状に支持していると共に、切断角度及び腕長さ
を調節可能にしたものを示している。また位置調節機構
6は、支持枠60を機体1aに対し長孔66及び調節ネ
ジ67を介して前後移動調節可能に取着すると、成形ガ
イド33bとカッター50との切断位置調節をより簡単
且つ良好簡単に行うことができるものである。
At this time, as shown in FIG. 8, the cutter 50 is preferably adjusted to a position where the cutter 50 is lightly contacted with the lower side having the receding angle of the end of the forming guide 33b. It is possible to start the cutting of the molded product W continuously sent from the upper part 33a without a large cutting resistance from above, and to accurately cut the molded product W by contacting the both ends which are the cutting end points. It has features such as making a clean cut end face in which poor cutting such as torn cutting is suppressed. The cutter 50 in the illustrated example supports a knife bar-shaped one in a cantilever manner via an angle adjusting member 52 with respect to a cutter mounting arm 51 which is detachably mounted on the cutting drive shaft 16. , The cutting angle and the arm length are adjustable. When the position adjusting mechanism 6 attaches the support frame 60 to the machine body 1a so as to be able to move back and forth through the long hole 66 and the adjusting screw 67, the cutting position between the forming guide 33b and the cutter 50 can be adjusted more easily and better. It can be done easily.

【0025】次に図9〜図11を参照し、切断駆動軸1
6と補助軸支機構5hの支持軸53とで、回転可能に両
持ち支持したカッター50によって成形物Wを切断す
る、別実施形態に係わる回転切断部5aの1例について
説明する。この回転切断部5aは、切断間隔を有して切
断駆動軸16と支持軸53とに着脱可能に取付固定され
るカッター取付腕51,51aに、適数本の線状のカッ
ター50を各両端を角度調節部材52と取付ネジ52a
で取着した構成にすることにより、カッター50を安定
よく支持した状態で、成形装置3から送給される成形物
Wを回転する複数のカッター50で、順次所望の長さに
的確に切断することができるようにしている。
Next, referring to FIG. 9 to FIG.
An example of a rotary cutting portion 5a according to another embodiment, in which a molded product W is cut by a cutter 50 rotatably supported on both sides by a support shaft 53 of the auxiliary shaft supporting mechanism 5h and the support shaft 5 will be described. The rotary cutting section 5a is provided with an appropriate number of linear cutters 50 at both ends on cutter mounting arms 51 and 51a which are detachably mounted and fixed to the cutting drive shaft 16 and the support shaft 53 at a cutting interval. The angle adjusting member 52 and the mounting screw 52a
In the state where the cutter 50 is stably supported, the molded product W fed from the molding apparatus 3 is sequentially and accurately cut to a desired length by the plurality of rotating cutters 50 while the cutter 50 is stably supported. Have to be able to.

【0026】尚、この切断長さは、成形物Wの送給速度
及びカッター50の本数並びにその回転速度を調節する
ことによって簡単に設定することができる。また成形物
Wの切断端面の形状は直線に限ることなく、例えば図1
1に示すように、平面視での形状を種々に異ならせるこ
とにより任意な形状の製品を形成することができるもの
である。即ち、同図のカッター50は、成形装置3で帯
板状に成形し送出する成形ガイド33bに対設されて、
成形物Wの切断巾において凹刃50aと凸刃50bとを
交互に連ならせた一連の凹凸刃体にすることにより、該
凹刃50aと凸刃50bとで切断する際にちぎり状の切
断も伴わせて、成形物Wの形状を不定型の細断片に能率
よく形成することができるようにしている。またこのと
き、同図の点線で示すように、相隣なる次位のカッター
50を前位のものに対し平面視でずらして変位させて設
けると、成形物Wの不定型の細断を一層多様にすると共
に、能率よく成形することができる等の特徴がある。
The cutting length can be easily set by adjusting the feeding speed of the molded product W, the number of the cutters 50, and the rotation speed thereof. Further, the shape of the cut end surface of the molded product W is not limited to a straight line.
As shown in FIG. 1, a product having an arbitrary shape can be formed by making the shape in plan view variously different. That is, the cutter 50 shown in the figure is provided in opposition to the forming guide 33b which forms and sends out a band-like shape by the forming device 3,
By forming a series of concave and convex blades in which the concave blades 50a and the convex blades 50b are alternately connected in the cutting width of the molded product W, a torn cutting is performed when cutting with the concave blades 50a and the convex blades 50b. Accordingly, the shape of the molded product W can be efficiently formed into irregularly shaped small pieces. Further, at this time, as shown by the dotted line in the figure, if the adjacent next cutter 50 is displaced and displaced in plan view with respect to the preceding cutter, the irregular cutting of the molded product W is further reduced. It has a variety of characteristics and can be molded efficiently.

【0027】一方図1,図2,図9,図10に示すよう
に補助軸支機構5hは、機体1aの平坦な搬送部設置面
11上に載置した状態で、支柱55を立設し着脱可能に
取付固定される取付ベース56と、該支柱55に上下及
び位置調節可能に取着されるホルダ57と、該ホルダ5
7の先端部に設けた支持筒58と、該支持筒58内に回
転及びスライド移動可能に嵌挿した前出の支持軸53と
から構成している。そして、上記支持軸53は、内側端
に前記カッター取付腕51aの中央部に形成した雌ネジ
部51bに螺挿可能なネジ部53aを形成していると共
に、外側端に円形状の把手53bを設け、その軸芯を前
記ホルダ57,支持筒58を介して切断駆動軸16の軸
芯と一致させて、支柱55に取付固定すると共に、支持
筒58に支持された状態で自由に回転することができる
ようにしている。
On the other hand, as shown in FIG. 1, FIG. 2, FIG. 9, and FIG. 10, the auxiliary shaft support mechanism 5h stands upright on the support column 55 in a state where it is mounted on the flat transfer section installation surface 11 of the body 1a. A mounting base 56 which is removably mounted and fixed; a holder 57 which is mounted on the support 55 so as to be vertically and position-adjustable;
7 comprises a support cylinder 58 provided at the distal end thereof, and a support shaft 53 mentioned above which is rotatably and slidably fitted into the support cylinder 58. The support shaft 53 has a screw portion 53a which can be screwed into a female screw portion 51b formed at the center of the cutter mounting arm 51a at the inner end, and a circular handle 53b at the outer end. The shaft is aligned with the axis of the cutting drive shaft 16 via the holder 57 and the support cylinder 58, and is fixedly mounted on the support 55, and is freely rotated while being supported by the support cylinder 58. I can do it.

【0028】従ってこの構成によれば、線状のカッター
50を有する回転切断部5aを切断駆動軸16に取着す
るにあたり、上記のような補助軸支機構5hを介して行
うようにしたことにより、回転切断部5aはカッター取
付腕51を切断駆動軸16に取付けると共に、カッター
取付腕51aを支持軸53に取付けることで、線状のカ
ッター50を両側から安定よく張り支持することがで
き、この際支持軸53は切断駆動軸16に追随して自由
に共回りするので、回転切断部5aの回転を妨げること
なく両持ち支持回転を円滑に行うことができ、カッター
50による成形物Wの切断を正確に行うことができる。
Therefore, according to this configuration, when the rotary cutting portion 5a having the linear cutter 50 is attached to the cutting drive shaft 16, it is performed through the auxiliary shaft support mechanism 5h as described above. By attaching the cutter mounting arm 51 to the cutting drive shaft 16 and mounting the cutter mounting arm 51a to the support shaft 53, the rotary cutting section 5a can stably and linearly support the linear cutter 50 from both sides. In this case, the support shaft 53 follows the cutting drive shaft 16 and rotates freely, so that the support shaft 53 can smoothly perform the two-sided support rotation without hindering the rotation of the rotary cutting portion 5a, and the cutter 50 cuts the molded product W. Can be performed accurately.

【0029】また図示例の補助軸支機構5hのように、
支持筒58に回転可能に支持した支持軸53の先端で、
カッター取付腕51aを螺挿して取付けるように構成し
たことにより、回転切断部5aを補助取付け支持作業及
び回転切断部5aの取り外し等を能率よく簡単に行うこ
とができる等の利点がある。尚、支持軸53の先端に遊
転自在な取付部を設け、該取付部によってカッター取付
腕51aを支持するようにしてもよく、この場合には支
持軸53の回転は不能にしてもよいものである。また図
示例はカッター取付腕51と切断駆動軸16との取付手
段を螺子締めによって行っているが、後述する図13で
示すような係止手段によってもよい。さらに、上記回転
切断部5aを使用しないで縦切断部5cによって切断を
行いたい場合には、上記カッター50を取り外すか或い
はカッター50を上昇退避させた位置にするとよいもの
である。
Further, like the auxiliary shaft support mechanism 5h in the illustrated example,
At the tip of the support shaft 53 rotatably supported by the support cylinder 58,
Since the cutter mounting arm 51a is configured to be screwed in and mounted, there is an advantage that the rotary cutting section 5a can be easily and efficiently attached and supported and the rotary cutting section 5a can be efficiently and easily removed. A freely rotatable mounting portion may be provided at the tip of the support shaft 53, and the cutter mounting arm 51a may be supported by the mounting portion. In this case, the rotation of the support shaft 53 may be disabled. It is. In the illustrated example, the attachment means between the cutter attachment arm 51 and the cutting drive shaft 16 is performed by screw tightening, but may be a locking means as shown in FIG. 13 described later. Further, when it is desired to perform cutting by the vertical cutting section 5c without using the rotary cutting section 5a, it is preferable to remove the cutter 50 or set the cutter 50 at a position where the cutter 50 is raised and retracted.

【0030】次に、図12〜図14を参照し、プレスロ
ーラ5d及びこれに対設される掻均機構8について説明
する。このプレスローラ5dは、在来のものと同様なプ
ラスチック材からなるローラ表面と搬送ベルト43との
間で、成形装置3から送出される成形物Wを所定の厚さ
に押圧形成するものであり、この実施形態におけるプレ
スローラ5dのプレス駆動軸17に対する取着構造は、
プレス駆動軸17の基部側に植設した取付ピン17a
と、プレスローラ5dのボス部にカギ型に切欠形成した
取付溝17bとからなり、プレス駆動軸17の軸端から
プレスローラ5dを嵌挿した状態において、取付溝17
bを取付ピン17aに係合させることにより、プレスロ
ーラ5dのプレス駆動軸17への取付けを簡単に行うと
共に、その逆な動作でプレスローラ5dの取り外しも能
率よく容易に行うようにしている。尚、搬送ベルト43
は上記のものに限ることなく、必要によりスチール製等
の搬送帯を採用してもよいものである。
Next, with reference to FIGS. 12 to 14, the press roller 5d and the leveling mechanism 8 opposed to the press roller 5d will be described. The press roller 5d presses the molded product W sent from the molding device 3 to a predetermined thickness between the roller surface made of the same plastic material as the conventional one and the conveyor belt 43. The mounting structure of the press roller 5d to the press drive shaft 17 in this embodiment is as follows.
Mounting pin 17a planted on the base side of press drive shaft 17
And a mounting groove 17b cut into a boss portion of the press roller 5d in a key shape. When the press roller 5d is inserted from the shaft end of the press drive shaft 17, the mounting groove 17 is formed.
By engaging b with the mounting pin 17a, the press roller 5d can be easily mounted on the press drive shaft 17, and the press roller 5d can be efficiently and easily removed by the reverse operation. The transport belt 43
Is not limited to the above, and a transport band made of steel or the like may be adopted as necessary.

【0031】またこのプレスローラ5dの回転方向下手
側即ち成形物Wの押圧下手側には、掻均機構8の掻均体
80を掻均位置調節及び着脱可能に設けることにより、
成形物Wの押圧成形を滑らかに精度よく均一に行うと共
に、プレスローラ5d及び掻均機構8の清掃、点検や交
換等のメンテナンス作業を能率よく簡単に行うことがで
きるようにしている。即ち、同図に示すように掻均機構
8は、プレスローラ5dの巾方向に沿設される箆状の掻
均体80と、プレス駆動軸17に係合取着する掻均操作
レバー82を有する板状部材の取付部材83とからな
り、該取付部材83に上記掻均体80を長孔状のネジ孔
を介し取付ネジ81によって、取付け位置及び角度調節
可能に取着している。
Further, on the lower side in the rotation direction of the press roller 5d, that is, on the lower side of the pressing of the molded product W, a flattening body 80 of the flattening mechanism 8 is provided so as to be able to adjust the leveling position and to be detachable.
The press forming of the molded product W is performed smoothly and accurately and uniformly, and maintenance work such as cleaning, inspection, and replacement of the press roller 5d and the flattening mechanism 8 can be efficiently and easily performed. That is, as shown in the figure, the flattening mechanism 8 comprises a spatula-shaped flattening body 80 provided along the width direction of the press roller 5d and a flattening operation lever 82 which is engaged and attached to the press drive shaft 17. The flattening member 80 is attached to the mounting member 83 so that the mounting position and the angle can be adjusted by the mounting screw 81 through a long screw hole.

【0032】上記取付部材83は、板状部材の一側に下
向きカギ型に形成したフック部85を、前記取付ピン1
7aの内側でプレス駆動軸17に取着したガイド輪86
のガイド溝86a内に上方から係脱可能に係合させると
共に、フック部85をガイド輪86に係合した状態にお
いて、プレス駆動軸17の軸芯を中心とする半径で調節
孔87を長孔状に穿設している。そして、取付部材83
はフック部85をガイド輪86に係合した状態におい
て、プレス駆動軸17を軸支する前記位置調節機構6の
軸支部材63に一体的に設けた取付座63aに対し、上
記調節孔87を取付ネジ88によって着脱可能に取付支
持するようにしている。
The mounting member 83 has a hook portion 85 formed in a downward key shape on one side of the plate-like member.
Guide wheel 86 attached to press drive shaft 17 inside 7a
When the hook 85 is engaged with the guide wheel 86 in the guide groove 86a, the adjusting hole 87 is elongated with a radius centered on the axis of the press drive shaft 17. It is drilled in a shape. Then, the mounting member 83
When the hook portion 85 is engaged with the guide wheel 86, the adjusting hole 87 is formed in the mounting seat 63 a integrally provided on the shaft supporting member 63 of the position adjusting mechanism 6 that supports the press drive shaft 17. The mounting screws 88 are detachably mounted and supported.

【0033】従って、以上のように構成した掻均機構8
は、プレス駆動軸17にプレスローラ5d並びに掻均体
80を有する取付部材83を係合させた状態でセットす
るとき、図14で示すように、プレスローラ5dの周方
向に対する掻均体80の位置決めは、掻均操作レバー8
2を操作して取付部材83をプレス駆動軸17を中心に
右方回動すると、例えば上方の点線位置から実線高さの
掻均位置に掻均体80を簡単に調節することができ、こ
の状態で取付部材83を前記取付ネジ88によって取付
座63aに取付固定すると共に、掻均体80を取付ネジ
81の調節によって、その前端片の位置と側面視の均し
角度等を、プレスローラ5dのローラ径や外形並びに成
形物Wの厚さや性状に対応した適切な均し姿勢に、簡単
且つ自由に設定することができるものである。
Therefore, the equalizing mechanism 8 constructed as described above is used.
Is set in a state where the mounting member 83 having the press roller 5d and the leveling body 80 is engaged with the press drive shaft 17, as shown in FIG. 14, the leveling of the leveling body 80 in the circumferential direction of the press roller 5d. Positioning is performed by the leveling operation lever 8
When the mounting member 83 is rotated to the right around the press drive shaft 17 by operating 2, the leveling body 80 can be easily adjusted, for example, from the upper dotted line position to the flattening position at the solid line height. In this state, the mounting member 83 is mounted and fixed to the mounting seat 63a by the mounting screw 88, and the flattening body 80 is adjusted by the mounting screw 81 to adjust the position of the front end piece, the leveling angle in side view, and the like with the press roller 5d. The roller can be easily and freely set to an appropriate leveling posture corresponding to the roller diameter and the outer shape, and the thickness and properties of the molded product W.

【0034】これにより同図に示すように、搬送ベルト
43上で送給される成形物Wがプレスローラ5dで押圧
成形されるとき、押圧下手側直後において成形物Wの表
面が点線Aで示すように膨らみを伴うが、この膨らみを
押圧直後において、均し姿勢を適切に設定された掻均体
80が、ローラ周面に近接させた箆面で膨らみ分を速や
かに押し均すので、押圧した成形物Wの表面に不規則な
凹凸や押圧むらの発生を防止し、これにより押圧成形を
能率よく簡単に行うことができると共に、押圧時にプレ
スローラ5dの表面に付着して持ち回りされようとする
材料を、掻均体80は具合よく掻き取りながら均し成形
することができるので、材料付着に伴うトラブルも防止
することができる等の特徴がある。
As shown in FIG. 3, when the molded product W fed on the conveyor belt 43 is pressed by the press roller 5d, the surface of the molded product W is indicated by a dotted line A immediately after the lower side of the pressing. Immediately after the bulge is pressed, immediately after the bulge is pressed, the flattening body 80 with the leveling posture properly set quickly presses and bulges the bulge on the spatula surface close to the roller peripheral surface. The surface of the molded article W is prevented from having irregular irregularities and uneven pressing, whereby the pressing can be performed efficiently and easily, and at the time of pressing, it is likely to adhere to the surface of the press roller 5d and carry around. Since the material to be smoothed can be leveled while the scraping body 80 is scraped off properly, there is a feature that troubles due to material adhesion can be prevented.

【0035】またプレスローラ5d並びに掻均機構8の
清掃や交換等メンテナンス作業を行う場合には、プレス
ローラ5dは既述の係脱構造にしていると共に、掻均機
構8はプレス駆動軸17に回動可能な係合構造にしてい
るので、プレス駆動軸17からプレスローラ5dを自由
端側に向けて簡単に取り外すことができると共に、両者
の再組付け等も能率よく簡単に行うことができる等の利
点がある。
When performing maintenance work such as cleaning and replacement of the press roller 5d and the flattening mechanism 8, the press roller 5d has the above-described engaging and disengaging structure, and the flattening mechanism 8 is connected to the press drive shaft 17. Due to the rotatable engagement structure, the press roller 5d can be easily removed from the press drive shaft 17 toward the free end side, and the two can be easily and efficiently re-assembled. There are advantages such as.

【0036】次に、図3,図4,図15〜図18を参照
し、搬送部4及びこれに設置される角度調節機構7a,
7b並びに掻落制御機構9等について説明する。先ず搬
送部4は、搬送方向上手側と下手側及びその中途部に各
設けた、前記駆動輪40と遊動輪41と受け輪42との
各ベルトローラに、その自由端側から平帯状の搬送ベル
ト43を着脱可能に巻き掛けていると共に、該搬送ベル
ト43は、搬送上手側角度を調節する角度調節機構7a
と搬送下手側角度を調節する角度調節機構7bの操作に
よって、図3の鎖線で示すように受け輪42側を中心と
してそれぞれ上下調節可能に支持し、成形装置3から送
給される形状や性状の異なる成形物Wを、搬送始端側で
円滑に継送すると共に、搬送終端側で後処理部Sに対し
型崩れ等を防止した搬送排出を行い、後処理部Sにおけ
る揚げ工程や蒸し工程等の後処理作業を良好に行うこと
ができるようにしている。
Next, with reference to FIGS. 3, 4, and 15 to 18, the transport section 4 and the angle adjusting mechanisms 7a,
7b and the scraping control mechanism 9 will be described. First, the transport unit 4 transports a flat belt-like transport from its free end side to each belt roller of the drive wheel 40, the idle wheel 41, and the receiving wheel 42 provided on the upper side, the lower side, and the middle thereof in the transport direction. The belt 43 is detachably wound around the conveyor belt 43, and the conveyor belt 43 has an angle adjusting mechanism 7a for adjusting an angle on the upper side of the conveyor.
By the operation of the angle adjusting mechanism 7b for adjusting the lower side angle of the conveyance, the shape and properties of the feeder are supported so as to be adjustable up and down around the receiving wheel 42 side as indicated by the chain line in FIG. In the post-processing section S, the molded product W having a different shape is smoothly transferred at the conveyance starting end side, and is transported and discharged to the post-processing section S at the conveyance end side while preventing shape collapse and the like. Post-processing work can be performed favorably.

【0037】そして、搬送部4の搬送ベルト43は、片
持ち状に軸支されている各ベルトローラを機体1a側に
残置させた状態で、手前側に単独に簡単に取り外すこと
ができるようにしており、これにより搬送ベルト43の
清掃や交換、或いは他所の点検等のメンテナンス作業を
容易に行うことができるようにしている。尚、この際に
図2に示すように、搬送部4全体を機体1aから取り外
すことができる構成にするとよいものである。
The transport belt 43 of the transport section 4 can be easily detached to the front side independently with the belt rollers supported in a cantilever manner remaining on the body 1a side. Thus, maintenance work such as cleaning and replacement of the conveyor belt 43 or inspection of other places can be easily performed. In this case, as shown in FIG. 2, it is preferable to adopt a configuration in which the entire transport unit 4 can be removed from the machine body 1a.

【0038】次に、搬送部4の前方(左方側)の角度調
節機構7aについて説明すると、この角度調節機構7a
は、機体1aに横設した支持軸70に、搬送ベルト43
を駆動する搬送駆動軸15を軸支する支持腕71と、ハ
ンドル72を備えたネジ杆73に螺挿する調節操作杆7
4を設け、該ハンドル72の回転操作によって支持軸7
0を中心に調節操作杆74を上下回動させることによ
り、支持腕71を介して伝動機構1eから駆動される搬
送駆動軸15を上下回動させて、搬送ベルト43を受け
輪42側を支点とし角度調節を行うことができるように
構成している。尚、45aは搬送ベルト43の左方側の
搬送面の裏側を支受する搬送フレームであり、該搬送フ
レーム45aは受け輪42の受け輪軸42aに回動可能
に軸支していると共に、その他端側を前記搬送駆動軸1
5側に摺動可能に載置支持させている。
Next, the angle adjusting mechanism 7a in front (left side) of the transport section 4 will be described.
Is mounted on the support shaft 70 laid sideways on the body 1a,
Arm 71 that supports the transport drive shaft 15 that drives the shaft, and the adjusting operation rod 7 that is screwed into a screw rod 73 that has a handle 72.
4 and the support shaft 7 is rotated by rotating the handle 72.
By rotating the adjusting operation lever 74 up and down about 0, the transport drive shaft 15 driven by the transmission mechanism 1e via the support arm 71 is rotated up and down, and the transport belt 43 is supported on the receiving wheel 42 side. It is configured so that the angle can be adjusted. Reference numeral 45a denotes a transport frame that supports the rear side of the transport surface on the left side of the transport belt 43. The transport frame 45a is rotatably supported by the receiving wheel shaft 42a of the receiving wheel 42, and other components. The end side is the transport drive shaft 1
It is slidably mounted and supported on the 5th side.

【0039】一方、角度調節機構7bは、受け輪軸42
aの後方(右方側)に機体1aから片持ち状に突設した
支持軸75の自由端側に、遊動輪41を軸支する搬送フ
レーム45の筒軸46を回動可能に嵌挿すると共に、該
支持軸75の基部側にセレーション等のスライド部を形
成し、スライド部に操作レバー76によって軸方向に移
動操作可能な位置決め輪77を嵌挿している。そして、
位置決め輪77の端部外周に歯車状に形成した外歯77
aと、支持筒46の端部内に内歯リング状に形成した内
歯46bとを、操作レバー76の操作によって、両者の
全周において係脱可能に選択噛合させる構成とし、これ
により図3の点線で示すように、搬送ベルト43の右方
側即ち遊動輪41側を、支持軸75を中心とし上方及び
下方に回動させて位置決め調節をすることができるよう
にしている。
On the other hand, the angle adjusting mechanism 7b is
A cylindrical shaft 46 of a transport frame 45 that supports the idler wheel 41 is rotatably fitted to the free end side of a support shaft 75 that is provided in a cantilever manner from the body 1a behind (to the right of) a. At the same time, a slide portion such as a serration is formed on the base side of the support shaft 75, and a positioning wheel 77 that can be moved in the axial direction by an operation lever 76 is fitted into the slide portion. And
External teeth 77 formed in a gear shape on the outer periphery of the end of the positioning wheel 77
a and the internal teeth 46b formed in the shape of an internal tooth ring in the end of the support cylinder 46 are selectively engaged with each other by operating the operation lever 76 so that they can be disengaged and engaged around the entire circumference. As shown by the dotted line, the right side of the transport belt 43, that is, the idler wheel 41 side is rotated upward and downward about the support shaft 75 so that the positioning can be adjusted.

【0040】従って、高さや形状が種々に異なる後処理
部Sに対して、搬送ベルト43の終端は最適姿勢と高さ
を以て成形物Wを搬送排出し継送を良好に行うと共に、
搬送ベルト43の右方側を大きく起立回動した格納姿勢
に簡単に切り換えることもできるから、機体の梱包や運
搬を容易に行うことができる。また搬送ベルト43は、
起立姿勢に変位させ位置決め固定すると簡単に緩めるこ
とができるので、この状態で搬送ベルト43は既述の各
ベルトローラの自由端側に向けて速やかに取り外すこと
ができるから、搬送ベルト43の着脱交換等のメンテナ
ンス作業を簡単に行うことができるものである。
Accordingly, for the post-processing section S having various heights and shapes, the end of the conveyor belt 43 conveys and discharges the molded article W with an optimum posture and height, and performs good transfer.
Since the right side of the conveyor belt 43 can be easily switched to the stowed posture in which the conveyor belt 43 is greatly raised and rotated, the packing and transportation of the machine body can be easily performed. The transport belt 43 is
Since the conveyor belt 43 can be easily loosened when it is displaced to the upright position and positioned and fixed, and in this state, the transport belt 43 can be quickly removed toward the free ends of the belt rollers described above. And so on can be easily performed.

【0041】また前記支持軸75は、その基部側をハン
ドル付のネジ杆によって回動操作される回動支持機構7
8によって軸支しており、この構成により、搬送ベルト
43の終端高さが、操作レバー76によって同図の実線
で示すような作業姿勢に位置決めされた状態において、
前記外歯77aと内歯46bとの噛合のみの調節では困
難な、微小な調節を簡単且つ適切に行うことができるよ
うにしている。また以上のように構成してなる角度調節
機構7bは、回動支持機構78と前記構成とを共に支持
軸75側に、簡潔な構成を以てコンパクトに纏めて設置
することができる等の特徴を有している。
The support shaft 75 has its base side pivotally operated by a screw rod with a handle.
With this configuration, in a state where the terminal height of the conveyor belt 43 is positioned by the operation lever 76 to the working posture shown by the solid line in FIG.
It is possible to easily and appropriately perform fine adjustment, which is difficult by adjusting only the engagement between the external teeth 77a and the internal teeth 46b. The angle adjusting mechanism 7b configured as described above has a feature that the rotation support mechanism 78 and the above-described configuration can be compactly installed together with a simple configuration on the support shaft 75 side. are doing.

【0042】次に、図1,図15,図16を参照し掻落
制御機構9について説明する。この掻落制御機構9は、
搬送部4の搬送ベルト43の終端に着脱可能で、且つ成
形物Wの掻落位置を調節可能に設けており、成形加工工
程毎に形状や性状の異なる成形物Wに対して、搬送ベル
ト43終端の下降回動面(搬送終端面)に摺接状に近接
させた制御部材90によって、搬送ベルト43の搬送終
端面から成形物Wを的確に離脱させると共に、落下時の
乱れを防止しながら所定の制御姿勢を以て掻落し、成形
物Wを後処理部Sに対し適切に継送することができて、
後処理部Sにおける後処理作業を能率よく適切に行わせ
るようにしている。
Next, the scraping control mechanism 9 will be described with reference to FIGS. This scraping control mechanism 9
It is provided at the end of the conveyor belt 43 of the conveyor 4 so that it can be attached and detached and the scraping position of the molded article W can be adjusted. The molded product W is accurately separated from the conveying end surface of the conveying belt 43 by the control member 90 which is brought into sliding contact with the downward rotation surface (conveying end surface) of the conveying belt 43, and is prevented from being disturbed when falling. Can be properly transferred to the post-processing unit S,
The post-processing operation in the post-processing section S is performed efficiently and appropriately.

【0043】即ち、上記掻落制御機構9は、搬送フレー
ム45に軸支した遊動輪41の遊動輪軸41aの両側
に、着脱及び角度調節可能に設けた支持アーム91と、
該支持アーム91の中途部に係合部92及び支持スプリ
ング93によって、着脱及び揺動回動可能に支持すると
共に、前記搬送終端面に制御部材90を押接させる掻落
制御体95等から構成している。そして、上記左右の支
持アーム91は、基部側を遊動輪軸41aに枢支した状
態で、該遊動輪軸41aを中心に円弧状に穿設した長孔
91aを、取付ネジ91bを介して搬送フレーム45側
に角度調節可能に取着し、左右の支持アーム91の先端
部を連結杆96で一体的に連結することにより剛体枠に
し、中途部の外側面に係合ピン92aを突出している。
That is, the scraping control mechanism 9 includes a support arm 91 provided on both sides of the idle wheel shaft 41a of the idle wheel 41 pivotally supported by the transport frame 45 so as to be attachable / detachable and adjustable in angle.
The support arm 91 is supported by an engaging portion 92 and a support spring 93 at an intermediate portion thereof so as to be attachable / detachable and swingably rotatable, and includes a scraping control body 95 for pressing a control member 90 against the transfer end surface. ing. The left and right support arms 91 are formed such that the base side is pivotally supported by the idler wheel shaft 41a, and the elongated hole 91a formed in an arc shape around the idler wheel shaft 41a is inserted into the transport frame 45 via the mounting screw 91b. The support pins 91 are attached to the sides so as to be adjustable in angle, and the distal ends of the left and right support arms 91 are integrally connected by a connecting rod 96 to form a rigid frame, and an engaging pin 92a protrudes from the outer surface of the middle part.

【0044】また掻落制御体95は、左右の回動杆97
を前記左右の支持アーム91の外側に嵌挿する巾で、そ
の上下を連結杆98と前記制御部材90とで連結した方
形状の枠体にしていると共に、回動杆97の中途部に前
記係合ピン92aに後方から着脱可能に嵌挿して係止可
能な係止溝92bを穿設し、該係止溝92bを係合ピン
92aに係合してなる係合部92を介し、回動杆97を
支持アーム91に支持した状態において、前記支持スプ
リング93を支持アーム91の中途部から連結杆96を
迂回させて連結杆98と連結する構成にしている。
The scraping control body 95 includes left and right rotating rods 97.
Is formed into a rectangular frame body having upper and lower portions connected by a connecting rod 98 and the control member 90 with a width fitted to the outside of the left and right support arms 91. A locking groove 92b that can be detachably inserted from the rear into the engaging pin 92a and locked can be formed, and the locking groove 92b can be rotated through an engaging portion 92 that is engaged with the engaging pin 92a. When the moving rod 97 is supported by the supporting arm 91, the supporting spring 93 is connected to the connecting rod 98 by bypassing the connecting rod 96 from a middle part of the supporting arm 91.

【0045】このように構成した掻落制御機構9は、回
動杆97を支持アーム91に係合部92及び支持スプリ
ング93を介して取付支持すると、図15の実線で示す
ように、制御部材90を遊動輪41の下方側における搬
送ベルト43の搬送終端面に沿って押接付勢した摺接状
態にするので、この部において搬送ベルト43に貼着状
態で搬送されてくる成形物Wの底面を、細いワイヤー或
いは紐糸からなる制御部材90が、搬送面から成形物W
に損傷等を与えることなく剥離し的確に掻き落とすこと
ができるものである。この際図示例のように、回動杆9
7と支持アーム91との間には、調節ネジ等からなる長
さ調節可能なストッパ99を支持アーム91から突設し
ており、このストッパ99の突出長さを調節することに
より、支持スプリング93による付勢力に抗し、該スト
ッパ99の頭部で回動杆97を所望に接当位置決めし、
制御部材90が付勢力によって強く搬送ベルト43に押
接されることによる、両者の破損や変形等のトラブルを
防止した、近接或いは摺接状態にすることができるもの
である。
When the pivoting rod 97 is attached to and supported by the support arm 91 via the engaging portion 92 and the support spring 93, the scraping control mechanism 9 configured as described above, as shown by a solid line in FIG. In the sliding contact state, which is pressed and urged along the transport end surface of the transport belt 43 below the idler wheel 41, so that the bottom surface of the molded product W which is transported in this portion in an adhered state to the transport belt 43 The control member 90 made of a thin wire or string is used to
And can be accurately scraped off without damaging the surface. At this time, as shown in FIG.
Between the support arm 91 and the support arm 91, a stopper 99 having an adjustable length, such as an adjusting screw, is provided so as to protrude from the support arm 91. By adjusting the protrusion length of the stopper 99, a support spring 93 is provided. Against the urging force of the stopper 99, the rotating rod 97 is abutted and positioned by the head of the stopper 99 as desired,
The control member 90 is prevented from being damaged or deformed due to the pressing force of the control member 90 being strongly pressed against the conveyor belt 43, and can be brought into close or sliding contact with each other.

【0046】また掻落制御機構9は、支持アーム91を
長孔91aを介して調節ネジ91bで角度調節をするこ
とができるようにしているので、例えば搬送ベルト43
の終端高さが上向きに高く位置決めされるような場合に
は、支持アーム91を同図の実線位置から下向き回動調
節するとよく、この場合には掻落制御体95の制御部材
90を、搬送終端面に沿って遊動輪41のより下側にお
いて搬送ベルト43に摺接させることができるので、搬
送ベルト43が上向きになっても成形物Wの掻き落とし
位置を後処理部Sに対してそれほど高くすることなく、
成形物Wの落下姿勢を安定させながら、例えば後処理部
Sがフライヤーである場合に、その油面S1に良好に投
入継送することができる。
The scraping control mechanism 9 allows the angle of the support arm 91 to be adjusted by the adjusting screw 91b through the elongated hole 91a.
If the terminal height of the support arm 91 is set to be higher in the upward direction, the support arm 91 may be adjusted to rotate downward from the solid line position in FIG. Can be slidably contacted with the conveyor belt 43 below the idler wheel 41 along the surface, so that even when the conveyor belt 43 is directed upward, the scraping position of the molded product W is so high with respect to the post-processing section S. Without doing
For example, when the post-processing unit S is a fryer, the molded product W can be satisfactorily charged and transferred to the oil surface S1 while the falling posture of the molded product W is stabilized.

【0047】また例えば、搬送ベルト43が下向き傾斜
で成形物Wを後処理部Sに送給するような場合には、上
記とは逆に、支持アーム91を上向き角になるように上
方に回動調節すると、掻落制御体95の制御部材90も
これに追動し搬送終端面の上側に回動位置して搬送ベル
ト43に押接付勢するので、成形物Wの掻き落とし位置
を後処理部Sの油面S1に対してそれほど低くすること
なく、成形物Wの落下姿勢を安定させながら適正姿勢を
以て、後処理部Sの油面S1に向けて投入継送すること
ができるものである。
For example, when the conveyed belt 43 feeds the molded product W to the post-processing section S with a downward inclination, the support arm 91 is turned upward so as to be at an upward angle, contrary to the above. When the movement is adjusted, the control member 90 of the scraping control body 95 also follows this, and is rotated to the upper side of the transport end surface to urge against the transport belt 43 so that the scraping position of the molded product W is post-processed. It is possible to feed and transfer the molded product W toward the oil surface S1 of the post-processing unit S with an appropriate posture while keeping the falling posture of the molded product W stable, without making the oil surface S1 of the unit S so low. .

【0048】従って、搬送ベルト43の中途部から搬送
始端部側を固定した状態において、搬送ベルト43の終
端部側を上下回動可能に構成すると共に、搬送ベルト4
3の終端部に成形物Wの掻落姿勢制御を行う制御部材9
0を有する掻落制御機構9を着脱可能に設け、該掻落制
御機構9の制御部材90を、搬送ベルト43の搬送終端
面に沿って、位置決め回動可能に設けながら押接付勢さ
せるようにした搬送部構造は、成形装置3或いは回転切
断部5aに対し搬送始端部における成形物Wの継送を良
好に行いながら、後処理部Sの高さや状況に適応した搬
送ベルト43の終端位置を簡単且つ適切に設定すること
ができる。
Therefore, in a state in which the conveyance start end is fixed from the middle of the conveyance belt 43, the end of the conveyance belt 43 is configured to be rotatable up and down.
A control member 9 for controlling the scraping posture of the molded product W at the end of
0 is detachably provided, and the control member 90 of the scraping control mechanism 9 is urged to press and contact while being rotatably positioned along the transport end surface of the transport belt 43. The transport unit structure can easily transfer the molded product W at the transport start end to the molding device 3 or the rotary cutting unit 5a, and can easily set the end position of the transport belt 43 adapted to the height and the situation of the post-processing unit S. And it can be set appropriately.

【0049】また制御部材90はその押接付勢位置の位
置決め設定を搬送終端面の各位置において自由に行うこ
とができ、制御部材90を油面S1から所定の高さを以
て搬送ベルト43に摺接状態にさせることができるか
ら、該制御部材90は成形物Wを底面から確実に剥離さ
せたのち、図15で示すように剥離した成形物Wを制御
部材90で姿勢誘導しながら、油面S1に対し傾斜姿勢
であたかも滑り込むように投入させる掻落姿勢制御する
ことができ、成形物Wを投入時の油面S1との落下衝撃
によって屈折したり端潰れ等を生じさせることなく変形
を防止して、後処理部Sに良好に投入継送することがで
きる等の利点がある。
Further, the control member 90 can freely set the position of the pressing and urging position at each position of the transport end surface, and slides the control member 90 to the transport belt 43 at a predetermined height from the oil level S1. Since the control member 90 can surely separate the molded product W from the bottom surface, the control member 90 can induce the posture of the separated molded product W with the control member 90 as shown in FIG. It is possible to control the scraping posture in which the slanting posture is inserted into the slant posture with respect to S1 as if the molding material W is inserted, so that the molded product W is prevented from being deformed without being bent or crushed due to a drop impact with the oil surface S1 at the time of being molded. Therefore, there is an advantage that it is possible to satisfactorily feed and transfer to the post-processing unit S.

【0050】そして、このような作業にあって制御部材
90にスリ身等が付着し清掃を行いたい場合には、制御
部材90は支持アーム91に対し前記構成からなる係合
部92を介し係脱可能な掻落制御体95に設けているの
で、掻落制御体95を取り外すことにより、その清掃や
交換等のメンテナンス作業を簡単に行うことができるも
のである。また搬送ベルト43を取り外したり、図1
7,図18で後述するような別実施形態に係わる搬送距
離が長い搬送ベルト43を装着するような場合には、掻
落制御機構9は遊動輪軸41aと調節ネジ91bに対す
る支持アーム91の取付けを解除することによって簡単
に行うことができるものである。即ち、この際掻落制御
機構9は、掻落制御体95が支持スプリング93で付勢
した状態で姿勢変更が自由であると共に、係合部92を
介して取り外しが自由であるため、取り外し分解及び組
付けが極めて容易になり、ベルト交換やメンテナンス作
業を能率よく簡単に行うことができる等の利点もある。
If the control member 90 is to be cleaned due to the attachment of a pickpocket or the like in such a work, the control member 90 is engaged with the support arm 91 via the engaging portion 92 having the above-described configuration. Since it is provided on the detachable scraping control body 95, maintenance work such as cleaning and replacement can be easily performed by removing the scraping control body 95. In addition, the conveyor belt 43 is removed,
7, when a transport belt 43 having a long transport distance according to another embodiment as described later with reference to FIG. 18 is mounted, the scraping control mechanism 9 releases the attachment of the support arm 91 to the idle wheel shaft 41a and the adjusting screw 91b. By doing so, it can be easily performed. That is, at this time, since the scraping control mechanism 9 can freely change the posture while the scraping control body 95 is urged by the support spring 93 and can be freely removed via the engaging portion 92, the removal and disassembly and assembly are performed. There is also an advantage that attachment is extremely easy, and belt replacement and maintenance work can be performed efficiently and easily.

【0051】次に、図17,図18に示す別実施形態に
係わる搬送部4について説明すると、この搬送部4は前
記掻落制御機構9及び上記搬送ベルト43を取り外した
状態の搬送フレーム45に対し、小径な補助遊動輪41
bを軸支した左右の補助搬送フレーム47を、前記支持
アーム91と同様な構成手段を以て遊動輪41の両側
に、着脱及び取付け角度調節可能に取着するようにして
おり、この取付け状態で別の搬送距離の長い搬送ベルト
43を、既述のものと同様に作業手前側から、駆動輪4
0,受け輪42,遊動輪41,補助遊動輪41bに巻き
掛けセットすることによって、搬送ベルト43の掛け替
え作業を簡単に行うことができるようにしている。
Next, a description will be given of a transport unit 4 according to another embodiment shown in FIGS. 17 and 18. The transport unit 4 moves the transport frame 45 with the scraping control mechanism 9 and the transport belt 43 removed. , Small-diameter auxiliary idler wheel 41
The left and right auxiliary transport frames 47 supporting the b are mounted on both sides of the idler wheel 41 by the same structural means as the support arm 91 so as to be attachable / detachable and adjustable in mounting angle. The transfer belt 43 having a long transfer distance is moved from the front side of the working wheel to the drive wheel 4 in the same manner as described above.
0, the receiving belt 42, the idler wheel 41, and the auxiliary idler wheel 41b are wound around and set so that the work of changing the transport belt 43 can be easily performed.

【0052】この搬送部4によれば、成形物Wを成形機
1から長距離に搬送することができると共に、小径な補
助遊動輪41bによる搬送終端面から、例えばコンベア
方式の乾燥或いは蒸機等の後処理部Sに対し、落差が少
ない継送搬送を良好に行うことができると共に、成形機
1に設置される搬送部4の多様化を簡潔で廉価な構成を
以て行うことができる等の特徴がある。尚、48,49
は搬送ベルト43に摺接し成形物Wを剥離させるスクレ
ーパであり、上記両スクレーパ48,49は、補助搬送
フレーム47の中途部上方及び終端部上方に穿設した長
孔47aに沿って、上下の高さ位置調節及び離間した使
用退避状態に切り換え可能に取着しており、その利便性
を向上させると共に、形状や性状の異なる成形物W毎の
搬送排出を良好に行うことができるようにしているもの
である。
According to the transport section 4, the molded product W can be transported from the molding machine 1 over a long distance, and the transporting end surface of the small-diameter auxiliary idler wheel 41b can be used to transport the molded product W such as a conveyor type drying or steaming machine. For the post-processing unit S, it is possible to satisfactorily carry out the continuous conveyance with a small head and to diversify the conveyance unit 4 installed in the molding machine 1 with a simple and inexpensive configuration. is there. 48, 49
Is a scraper for slidingly contacting the conveyor belt 43 and peeling off the molded product W. The scrapers 48 and 49 are vertically arranged along a long hole 47 a formed above the middle part and the end part of the auxiliary conveyance frame 47. It is attached so that it can be switched to the height position adjustment and the separated use evacuation state, so that its convenience is improved, and it is possible to satisfactorily carry out and discharge each molded product W having different shapes and properties. Is what it is.

【0053】次に以上のように構成した成形機1によ
る、成形物Wの成形及び搬送排出等を行う装置の使用態
様等について説明する。先ず、送出装置2の吐出口21
に成形装置3を装着した状態で、成形機1を制御盤1b
を操作して作動させると、1次材料W1は送出装置2か
ら圧送されて送出筒体30の1次送出口3a内に送出さ
れると共に、2次材料W2は図示しない送出装置から圧
送されて2次送出口3b内に送出され、両者は1次成形
型31及び2次成形型32並びに3次成形型33を通過
しながら接合形成され、成形ガイド33bから順次機外
に送出されるとき、切断方向に回転しているカッター5
0によって所定の厚さに順次切断され、切断された成形
物Wは下方の搬送部4の搬送ベルト43で連続的に受け
られ、該搬送ベルト43上で搬送するとき必要によって
回転プレス部5bによるプレス加工が付与されたのち、
成形工程が完了した成形物Wは、搬送ベルト43の搬送
終端面から掻落制御機構9の制御部材90で掻き落とさ
れて、適正な継送姿勢をもって後続の後処理部Sに送給
されるものである。
Next, a description will be given of the use of the apparatus for molding, transporting and discharging the molded product W by the molding machine 1 configured as described above. First, the discharge port 21 of the delivery device 2
The molding machine 1 is mounted on the control panel 1b
Is operated, the primary material W1 is pressure-fed from the delivery device 2 and delivered into the primary delivery port 3a of the delivery cylinder 30, and the secondary material W2 is delivered by pressure from a delivery device (not shown). When they are sent out into the secondary outlet 3b, they are joined and formed while passing through the primary mold 31, the secondary mold 32, and the tertiary mold 33, and when they are sequentially sent out of the machine from the molding guide 33b, Cutter 5 rotating in cutting direction
0, is sequentially cut to a predetermined thickness, and the cut molded product W is continuously received by the conveying belt 43 of the lower conveying unit 4 and, when necessary, is conveyed on the conveying belt 43 by the rotary press unit 5b. After the press work is given,
The molded product W that has completed the molding process is scraped off from the transport end surface of the transport belt 43 by the control member 90 of the scraping control mechanism 9, and is fed to the subsequent post-processing unit S with an appropriate transfer posture. It is.

【0054】このような練製品の成形において、成形装
置3は送出筒体30から送出される1次材料W1を、図
7の材料成形模式図で示す如く、1次成形型31の海老
胴体型の輪郭をなす複数の成形孔31aと溝形成部31
bによって、複数の溝W3で区画した1次材料成形部W
4を棒状に形成しながら、2次成形型32側に送出する
と共に、送出筒体30から送出される2次材料W2を通
孔31cを介して2次成形型32の充填路32cに向け
て円滑に送出する。
In the molding of such a kneaded product, the molding device 3 converts the primary material W1 delivered from the delivery cylinder 30 into a shrimp body mold of the primary molding die 31, as shown in the schematic diagram of the material molding in FIG. Forming holes 31a and groove forming portions 31 forming the contour of
b, the primary material molding portion W partitioned by a plurality of grooves W3
While forming 4 into a rod shape, the secondary material W is sent out to the secondary mold 32 side, and the secondary material W2 delivered from the delivery cylinder 30 is passed through the hole 31c toward the filling path 32c of the secondary mold 32. Send out smoothly.

【0055】次いで、2次成形型32が複数の充填路3
2cから、2次材料W2を上記各溝W3内に上方から下
方に向けて充填供給すると共に、このとき充填路32c
は溝形成部31bの直背後に設けているので、溝Wが例
え上下に貫通して横断形成されいても、2次材料W2は
その内部に引き込まれるように的確に充填される。そし
て、2次成形型32で形成された1次材料W1と2次材
料W2は、3次成形型33の筒状の成形ガイド33bを
通過するとき、両者は成形孔32aと略同形断面の海老
胴体型の長く湾曲した成形孔33aによって、材料の接
合を充分に馴染ませながら外形を整えた接合形成を良好
に行なわれ、また成形ガイド33bはこれを回転切断部
5a側へ所定の切断位置まで送出し(図6)、カッター
50による切断を的確に行わせることができるので、図
7で示すように1次材料W1と2次材料W2が確実に接
合された海老胴体型の成形物Wを、両者の剥離や型崩れ
等を伴うことなく良好に形成することができるものであ
る。
Next, the secondary mold 32 is provided with a plurality of filling paths 3.
From 2c, the secondary material W2 is filled and supplied into each of the grooves W3 from above to below, and at this time, the filling path 32c
Is provided directly behind the groove forming portion 31b, so that the secondary material W2 is accurately filled so as to be drawn into the inside even if the groove W is formed so as to penetrate vertically. When the primary material W1 and the secondary material W2 formed by the secondary molding die 32 pass through the cylindrical molding guide 33b of the tertiary molding die 33, they are both shrimp having substantially the same cross section as the molding hole 32a. The long curved forming hole 33a of the body mold makes it possible to form a joint having a good contour while sufficiently adapting the joining of the materials, and the forming guide 33b moves this to the rotary cutting part 5a side to a predetermined cutting position. As shown in FIG. 7, the shrimp body-type molded product W in which the primary material W1 and the secondary material W2 are securely joined as shown in FIG. , And can be formed satisfactorily without the peeling and shape collapse of the two.

【0056】次いで、既述のようにしてカッター50で
所定の長さ(厚さ)に切断された成形物Wは、下方に位
置し所定の搬送速度で回転している搬送ベルト43の左
方側に落下して順次搬送され、この搬送中途において成
形物Wは必要により回転プレス部5bのプレスローラ5
dと搬送ベルト43間で既述の押圧成形加工を受けたの
ち、搬送中途部の受け輪42部分を越えて搬送ベルト4
3の右方側(終端側)に搬送され、その搬送終端面から
前述した図3,図15で示すように、掻落制御機構9の
制御部材90によって成形物Wの形状や性状に対する適
切な掻落姿勢制御を以て掻き落とされて、適正な継送姿
勢で後続の後処理部Sに送給されるので、成形物Wは後
処理部Sにおいても屈折や圧潰し等の変形や損傷を防止
した状態で高品質に仕上げることができるものである。
Next, the molded product W cut to a predetermined length (thickness) by the cutter 50 as described above is placed on the left side of the conveyor belt 43 positioned below and rotating at a predetermined conveyance speed. Side, and is sequentially conveyed. In the course of this conveyance, the molded product W is optionally pressed by a press roller 5 of a rotary press section 5b.
d and the transfer belt 43, the transfer belt 4 is moved beyond the receiving wheel 42 portion in the middle of the transfer.
3 and the scraping control section 90 of the scraping control mechanism 9 appropriately scrapes the shape and properties of the molded product W from the transporting end face as shown in FIGS. The molded article W is scraped off by the attitude control and is fed to the subsequent post-processing section S in an appropriate post-feeding attitude, so that the molded article W is also prevented from being deformed or damaged such as bending or crushing in the post-processing section S. Can be finished with high quality.

【0057】また上記のような構成からなる搬送部構造
は、成形物Wを後処理部Sに継送する際に、搬送ベルト
43の切断成形部5側を固定した状態において、搬送ベ
ルト43の中途部から終端部側を上下回動させること
で、後処理部Sに対し適切に位置決め支持することがで
きるので、切断成形部5側からの成形物Wの継送姿勢を
乱すことなく搬送を良好に行うことができると共に、搬
送ベルト43の終端部の位置に対応した制御部材90の
操作を簡単に行うことができる。
Further, when the molded article W is transferred to the post-processing section S, the conveying section structure having the above-described structure can be used in a state where the cut forming section 5 side of the conveying belt 43 is fixed. By rotating the end portion side up and down from the middle portion, it is possible to appropriately position and support the post-processing portion S, so that the conveyance of the molded product W from the cut molding portion 5 side is not disturbed. The control member 90 can be operated satisfactorily and the operation of the control member 90 corresponding to the position of the terminal end of the transport belt 43 can be easily performed.

【0058】そして、搬送部4は搬送ベルト43の終端
部側を固定した状態において、搬送ベルト43の中途部
から始端部側を上下回動可能にすることもできるので、
成形物Wの搬送終端部側での掻落姿勢制御に悪影響を生
じさせることなく、成形装置3或いは切断成形部5側か
ら送給される、形状や性状の異なる成形物W毎の継送搬
送を変形や損傷等のトラブルを伴うことなく良好に行う
ことができる等の利点がある。
In the state in which the end portion of the conveyor belt 43 is fixed, the conveyor section 4 can be vertically rotatable from the middle to the start end of the conveyor belt 43.
Without adversely affecting the control of the scraping posture of the molded product W on the side of the transport end, the continuous conveyance of each molded product W having a different shape or property from the molding device 3 or the cut molding unit 5 side is performed. There is an advantage that it can be performed well without troubles such as deformation and damage.

【0059】またこの際、搬送ベルト43の中途部から
始端部側の上方に、回転切断部5aで切断した成形物W
を搬送ベルト43上で押圧形成するプレス部5bを設け
るようにしたものにあって、該プレス部5bのプレスロ
ーラ5dは位置調節機構6を介して上下調節可能に設け
ているので、搬送ベルト43の搬送始端部側の上下調節
によって、回転切断部5aで切断した成形物Wの継送搬
送を適切に行うことができると共に、この状態において
位置調節機構6を操作することにより、プレスローラ5
dの上下調節を単独に行うことができるから、成形物W
の押圧成形加工を良好に行って、成形物Wの一連の成形
加工及びその搬送排出を能率よく良好に行うことができ
ると共に、簡潔で廉価な構成にしながら取扱性のよい成
形機1を提供することができる等の利点がある。
At this time, the molded product W cut by the rotary cutting portion 5a is moved upward from the middle of the conveyor belt 43 to the start end side.
The press roller 5d of the press section 5b is provided via the position adjusting mechanism 6 so as to be vertically adjustable. By vertically adjusting the transfer starting end side, the molded product W cut by the rotary cutting section 5a can be appropriately transferred and conveyed, and by operating the position adjusting mechanism 6 in this state, the press roller 5
Since the vertical adjustment of d can be performed independently, the molding W
The present invention provides a molding machine 1 that can perform a series of molding processes of the molded product W and transport and discharge the molded product W efficiently and favorably, and has a simple and inexpensive configuration, and has good handleability. There are advantages such as being able to.

【0060】次に、成形装置3の別実施形態について図
19〜図21を参照し説明する。尚、既述の実施形態と
同様な構成については説明を省略する。この成形装置3
は、その取付ブラケット30aを前記実施形態のものと
同様に送出口21の取付板21aに対し、互換性を有し
着脱可能に取付固定するようにしており、この取付ブラ
ケット30aに、1次材料W1を1次送出口3aから送
出する小径パイプ状の中送出筒37と、該中送出筒37
の外周と2次材料W2の通過間隙を有して外嵌し、2次
材料W2を2次送出口3bから送出する径大パイプ状の
外送出筒38との基部側を共に同芯で取着している。そ
して、中送出筒37の先端を外送出筒38より長く延設
した状態において、該外送出筒38の自由端側には、成
形ガイド筒39を後述する手段によって着脱可能に連結
し、1次材料W1を2次材料W2内に合流しながら送出
される成形物Wを良好に案内成形することができる構成
にしている。
Next, another embodiment of the molding apparatus 3 will be described with reference to FIGS. The description of the same configuration as that of the above-described embodiment will be omitted. This molding device 3
Is designed such that the mounting bracket 30a is interchangeably and detachably mounted and fixed to the mounting plate 21a of the outlet 21 in the same manner as in the above-described embodiment. A small-diameter pipe-shaped medium delivery cylinder 37 for delivering W1 from the primary delivery port 3a;
The outer periphery of the outer material and the secondary material W2 are externally fitted with a passage gap, and the base side of the large-diameter pipe-shaped outer delivery cylinder 38 for delivering the secondary material W2 from the secondary delivery port 3b is coaxial. I'm wearing In a state where the tip of the middle delivery cylinder 37 is extended longer than the outer delivery cylinder 38, a molding guide cylinder 39 is detachably connected to the free end side of the outer delivery cylinder 38 by means described later. The structure is such that the molded product W delivered while merging the material W1 into the secondary material W2 can be favorably guided and molded.

【0061】即ち、上記成形ガイド筒39は外送出筒3
8に嵌挿させた取着状態において、基部側に形成した係
合溝39aを、外送出筒38に突設したピン状の係止部
38aに係脱可能に係止するようにしている。そして成
形ガイド筒39は連結セット状態において、先端部に成
形物Wを製品断面形状に成形する成形ガイド部39b
と、基部側と該成形ガイド部39bとを収束筒状に連結
する絞りガイド部39cを形成し、該絞りガイド部39
cの中途部に中送出筒37の先端を位置させるようにし
ている。
That is, the forming guide cylinder 39 is connected to the outer delivery cylinder 3
In the attached state fitted into the connector 8, the engagement groove 39a formed on the base side is detachably engaged with a pin-shaped engagement portion 38a protruding from the outer delivery cylinder 38. Then, in the connected set state, the forming guide cylinder 39 forms a forming guide portion 39b for forming the formed product W into a product cross-sectional shape at the tip end.
And a squeezing guide portion 39c for connecting the base side and the forming guide portion 39b in a converging cylindrical shape.
The tip of the middle delivery cylinder 37 is positioned in the middle part of c.

【0062】この構成により、2次材料W2は供給口3
0dから上記絞りガイド部39cの中途部に至るとき、
中送出筒37回りで均質な整流送給状態にすることがで
き、この2次材料W2中に絞りガイド部39cの中途部
位置で1次材料W1を送出させるから、両者を絞りガイ
ド部39c内で馴染みよく円滑に合流送出させることが
できる。またこれにより、両者は絞りガイド部39c内
において徐々に無理なく締め固められながら、送出方向
下手側の小径の成形ガイド部39bで所定の形状に的確
に成形送出されるので、両者或いはその一方にチップ又
は繊維状の具材を含有させるような場合であっても、製
品成形後の剥離等のトラブルを伴うことなく、該成形ガ
イド部39bの端部で成形物Wを、既述のもの同様にカ
ッター50による切断を良好に行うことができるもので
ある。
With this configuration, the secondary material W2 is supplied to the supply port 3
From 0d to the middle of the above-mentioned aperture guide portion 39c,
A uniform rectified feeding state can be achieved around the middle feeding cylinder 37, and the primary material W1 is sent out into the secondary material W2 at an intermediate position of the squeezing guide portion 39c. And can be smoothly and smoothly merged and delivered. Further, by this, while being gradually and smoothly compacted in the squeeze guide portion 39c, the small-diameter forming guide portion 39b on the lower side in the sending direction is accurately formed and sent out into a predetermined shape, so that both or one of them is sent out. Even in the case where a chip or a fibrous material is contained, the molded product W is formed at the end of the molding guide portion 39b in the same manner as described above without causing trouble such as peeling after the product molding. The cutting by the cutter 50 can be performed well.

【0063】また図示例の成形装置3は、上記のような
構成からなる成形筒を、左右に所定の成形間隔を有して
複数設けると共に、取付ブラケット30aに開口させた
送出孔37aを、左右の中送出筒37の1次送出口3a
に連通し、各送出孔37aには1次材料W1の送出量を
調節する送出量調節弁30Sを、次のような構成によっ
て設けている。この送出量調節弁30Sは図20,図2
1に示すように、取付ブラケット30aの左右の送出孔
37a間に長孔30eを穿設し、該長孔30eに挿通し
たネジ等の調節部材30fを操作することにより、左右
にスライド移動させその位置決め固定を自由に行うこと
ができるようにしており、これにより図21に示すよう
に、送出量調節弁30Sを図21の実線位置から、例え
ば材料の送出圧力が高くて送出量が他方のものより多い
側、図示例では右側の送出孔37aを、点線で示すよう
に所定量だけ閉じる(絞る)ことにより、両送出孔37
aからの材料送出量を簡単な構成を以て略等しくするこ
とができるものである。
The forming apparatus 3 of the illustrated example is provided with a plurality of forming cylinders having the above-mentioned configuration at predetermined molding intervals on the left and right sides, and also has a delivery hole 37a opened in the mounting bracket 30a, Primary delivery outlet 3a of middle delivery cylinder 37
The delivery holes 37a are provided with delivery amount control valves 30S for adjusting the delivery amount of the primary material W1 in the following configuration. This delivery amount control valve 30S is shown in FIGS.
As shown in FIG. 1, a long hole 30e is formed between the right and left delivery holes 37a of the mounting bracket 30a, and by operating an adjusting member 30f such as a screw inserted into the long hole 30e, the slide bracket is slid left and right. The positioning and fixing can be freely performed. As shown in FIG. 21, the delivery amount control valve 30S is moved from the solid line position in FIG. 21, for example, when the delivery pressure of the material is high and the delivery amount is the other one. By closing (squeezing) the delivery holes 37a on the larger side, that is, the right side in the illustrated example by a predetermined amount as shown by the dotted line, both delivery holes 37a are closed.
The material delivery amount from a can be made substantially equal with a simple configuration.

【0064】また同図で示す送出量調節弁30Sは、取
付ブラケット30aの板厚巾内で左右の送出孔37aに
跨がって、凹入溝状に形成した取付部30g内にスライ
ド可能に嵌入させるようにしており、この構成により成
形装置3に送出量調節弁30Sをコンパクトに纏めて設
置することができると共に、送出装置2への取付けを行
うにあたり、例えば点線で示すような板厚巾の取付溝に
対し、上方から支障なく簡単に差し込みながら、精度よ
くセットすることができる等の特徴がある。
The delivery amount control valve 30S shown in the figure is slidable into the attachment portion 30g formed in a recessed groove shape so as to straddle the left and right delivery holes 37a within the thickness of the attachment bracket 30a. This configuration allows the delivery amount control valve 30S to be compactly and collectively installed in the molding device 3 and, when mounting to the delivery device 2, for example, a plate thickness and width indicated by a dotted line. It can be set with high accuracy while easily inserting it into the mounting groove from above without any trouble.

【0065】尚、送出量調節弁30Sは各送出孔37a
に対し個別調節可能に設けるようにしてもよく、この場
合には中送出筒37の径を個別に変更することなく、単
一な成形装置3によっても、1次材料W1の送出量を異
ならせた成形物Wを所望に形成することができるもので
ある。また外送出筒38並びに中送出筒37は、図示例
の円形状のものに限ることなく、種々な断面形状にする
と、多様な断面の成形物Wを簡単に成形することができ
るものである。
The delivery amount control valve 30S is provided with each delivery hole 37a.
May be provided so as to be individually adjustable. In this case, the feed amount of the primary material W1 can be made different even by a single molding device 3 without individually changing the diameter of the middle feed tube 37. The molded article W can be formed as desired. In addition, the outer delivery cylinder 38 and the middle delivery cylinder 37 are not limited to the circular ones shown in the drawings, but may be formed in various cross-sectional shapes, so that molded products W having various cross-sections can be easily formed.

【0066】[0066]

【発明の効果】本発明は以上のような練製品の成形機に
おける搬送部構造にしたことにより、次のような効果を
奏することができるものである。成形された成形物を搬
送ベルトで受けて搬送排出する際に、搬送部の終端部に
成形物の掻落姿勢制御を行う制御部材を、搬送ベルトの
搬送終端面に沿って位置決め回動可能にしながら押接付
勢させるようにしたことにより、成形装置から送給され
る形状や性状の異なる成形物を、搬送終端側で後処理部
に対し変形等を防止した搬送排出を良好に行うことがで
きる。また制御部材を有する掻落制御機構は搬送部に着
脱可能に設けているので、掻落制御機構及び搬送ベルト
等のメンテナンス作業を簡単に行うことができる。
According to the present invention, the following effects can be obtained by adopting the structure of the conveying section in the molding machine for kneaded products as described above. When receiving the formed product by the transport belt and transporting and discharging, the control member for controlling the scraping posture of the molded product at the end of the transport unit is positioned and rotatable along the transport end surface of the transport belt. Due to the pressing and biasing, it is possible to carry out the discharge of the molded product having a different shape and properties from the molding device to the post-processing section at the transport end side while preventing deformation and the like. . Further, since the scraping control mechanism having the control member is detachably provided in the transport unit, maintenance work of the scraping control mechanism and the transport belt can be easily performed.

【0067】また搬送ベルトの切断成形部側を固定した
状態において、搬送ベルトの中途部から終端部側を上下
回動可能に構成することにより、成形物を後処理部に継
送する際に、切断成形部側からの成形物の継送姿勢を乱
すことなく搬送を良好に行いながら、後処理部に対し適
切に位置決め支持し搬送ベルトの終端部の位置に対応し
た制御部材の操作を簡単に行うことができる。
In a state in which the cut-forming section of the conveyor belt is fixed, the end of the conveyor belt is configured to be rotatable up and down from the middle part, so that when the molded article is transferred to the post-processing section, Properly positioning and supporting the post-processing section while easily conveying the molded article from the cutting and forming section without disturbing the splicing attitude of the section, the operation of the control member corresponding to the position of the end of the conveyor belt is simplified. It can be carried out.

【0068】また搬送ベルトの終端部側を固定した状態
において、搬送ベルトの中途部から始端部側を上下回動
可能に構成することにより、成形物の搬送終端部側での
掻落姿勢制御に悪影響を生じさせることなく、成形装置
或いは切断成形部側から送給される、形状や性状の異な
る成形物W毎の継送搬送を変形や損傷等のトラブルを伴
うことなく良好に行うことができる。
In a state where the end portion of the conveyor belt is fixed, the starting end of the conveyor belt can be vertically rotated from a middle portion thereof, thereby adversely affecting the control of the scraping position of the molded product at the end terminal of the conveyor. , And can be satisfactorily carried out without causing troubles such as deformation and damage, for each of the molded products W having different shapes and properties, which are fed from the molding apparatus or the cut molding section side.

【0069】さらに、搬送ベルトの中途部から始端部側
の上方に、回転切断部で切断した成形物を搬送ベルト上
で押圧形成するプレス部を設け、該プレス部の押圧部材
を位置調節機構を介して上下調節可能に設けることによ
り、搬送ベルトの搬送始端部側の上下調節によって、回
転切断部で切断した成形物の継送搬送を適切に行うこと
ができると共に、この状態において位置調節機構を操作
することにより、押圧部材の上下調節を単独に行うこと
ができるから、成形物の押圧成形加工を良好に行って、
成形物の一連の成形加工及びその搬送排出を能率よく良
好に行うことができると共に、取扱性のよい成形機を簡
潔で廉価な構成を以て提供することができる等の利点が
ある。
Further, a press section for pressing and forming the molded product cut by the rotary cutting section on the conveyor belt is provided above the intermediate section of the conveyor belt from the starting end side, and a pressing member of the press section is provided with a position adjusting mechanism. By being provided so as to be vertically adjustable, the vertical and vertical adjustment of the transport start end side of the transport belt can appropriately perform the continuous transport of the molded product cut by the rotary cutting unit, and in this state, the position adjusting mechanism can be used. By operating, the up and down adjustment of the pressing member can be performed independently, so that the press forming process of the molded product is performed favorably,
There are advantages in that a series of molding processes of the molded product and its transportation and discharge can be performed efficiently and favorably, and a molding machine with good handleability can be provided with a simple and inexpensive configuration.

【図面の簡単な説明】[Brief description of the drawings]

【図1】本発明を備えた成形機の構成を示す斜視図。FIG. 1 is a perspective view showing a configuration of a molding machine provided with the present invention.

【図2】図1の分解斜視図。FIG. 2 is an exploded perspective view of FIG.

【図3】図1の要部の構成を一部破断をして示す正面
図。
FIG. 3 is a front view showing a configuration of a main part of FIG. 1 with a part broken away.

【図4】図3の要部の構成を一部破断をして示す平面
図。
FIG. 4 is a plan view showing a configuration of a main part of FIG. 3 with a part cut away.

【図5】成形装置の構成を分解して示す斜視図。FIG. 5 is an exploded perspective view showing a configuration of a molding apparatus.

【図6】成形装置とカッターの構成を示す断面図。FIG. 6 is a sectional view showing a configuration of a molding device and a cutter.

【図7】練製品の成形方法を模式的に示す斜視図。FIG. 7 is a perspective view schematically showing a method of forming a kneaded product.

【図8】カッター及び位置調節機構の構成を示す正面
図。
FIG. 8 is a front view showing the configuration of a cutter and a position adjusting mechanism.

【図9】回転切断部と補助軸支機構の構成を一部破断を
して示す平面図。
FIG. 9 is a plan view showing the configuration of the rotary cutting section and the auxiliary shaft support mechanism, partially cut away;

【図10】回転切断部と補助軸支機構の構成を示す斜視
図。
FIG. 10 is a perspective view showing a configuration of a rotary cutting unit and an auxiliary shaft support mechanism.

【図11】カッターの別実施形態を示す平面図。FIG. 11 is a plan view showing another embodiment of the cutter.

【図12】回転プレス部と掻均機構の構成を示す斜視
図。
FIG. 12 is a perspective view showing a configuration of a rotary press unit and a flattening mechanism.

【図13】図12の分解斜視図。FIG. 13 is an exploded perspective view of FIG.

【図14】回転プレス部と掻均体の作用を示す断面作用
図。
FIG. 14 is a sectional operation view showing the operation of the rotary press section and the raking body.

【図15】掻落制御機構の構成及び作用を一部破断して
示す側面図。
FIG. 15 is a side view showing the structure and operation of the scraping control mechanism, partially broken away.

【図16】図15の平面図。FIG. 16 is a plan view of FIG.

【図17】搬送部の別実施形態を示す側面図。FIG. 17 is a side view showing another embodiment of the transport unit.

【図18】図17の平面図。FIG. 18 is a plan view of FIG. 17;

【図19】成形装置の別実施形態を示す斜視図。FIG. 19 is a perspective view showing another embodiment of the molding apparatus.

【図20】図19の作用を示す側断面図。FIG. 20 is a side sectional view showing the operation of FIG. 19;

【図21】図19の背面図。FIG. 21 is a rear view of FIG. 19;

【符号の説明】[Explanation of symbols]

1 成形機 2 送出装置 3 成形装置 3a 1次送出口 3b 2次送出口 4 搬送部 5 切断成形部 5a 回転切断部 5b プレス部 5d プレスローラ(押圧部材) 6 位置調節機構 33b 成形ガイド 43 搬送ベルト(搬送帯) 50 カッター 90 制御部材 91 支持アーム 92 係合部 93 支持スプリング 95 掻落制御体 97 回動杆 W 成形物(練製品) DESCRIPTION OF SYMBOLS 1 Forming machine 2 Sending device 3 Forming device 3a Primary sending port 3b Secondary sending port 4 Conveying section 5 Cutting forming section 5a Rotating cutting section 5b Press section 5d Press roller (pressing member) 6 Position adjusting mechanism 33b Forming guide 43 Conveying belt (Conveyance band) 50 Cutter 90 Control member 91 Support arm 92 Engagement part 93 Support spring 95 Scrap control body 97 Rotating rod W Molded product (kneaded product)

Claims (4)

【特許請求の範囲】[Claims] 【請求項1】 スリ身等の材料を成形装置(3)等で所
望の形状に成形すると共に、成形された成形物(W)を
搬送ベルト(43)で受けて搬送排出する搬送部(4)
を備えた成形機において、前記搬送部(4)の終端部に
成形物(W)の掻落姿勢制御を行う制御部材(90)を
有する掻落制御機構(9)を着脱可能に設けると共に、
該掻落制御機構(9)の制御部材(90)を、搬送ベル
ト(43)の搬送終端面に沿って、位置決め回動可能に
設けながら押接付勢させるように構成した練製品の成形
機における搬送部構造。
1. A conveying section (4) for forming a material such as a pickpocket body into a desired shape by a molding device (3) or the like, and receiving the formed article (W) by a conveying belt (43) to convey and discharge. )
And a scraping control mechanism (9) having a control member (90) for controlling a scraping posture of the molded product (W) is detachably provided at an end portion of the transport section (4).
In a kneaded product molding machine, a control member (90) of the scraping control mechanism (9) is configured to be pressed and urged while being provided so as to be rotatable and positioned along the transport end surface of the transport belt (43). Transport unit structure.
【請求項2】 搬送ベルト(43)の中途部から切断成
形部(5)側を固定した状態において、搬送ベルト(4
3)の終端部側を上下回動可能に構成する請求項1の練
製品の成形機における搬送部構造。
2. In a state where the cutting and forming part (5) side is fixed from the middle part of the conveyor belt (43), the conveyor belt (4) is fixed.
3. The structure of the conveying part in the kneaded product molding machine according to claim 1, wherein the terminal end side of 3) is configured to be vertically rotatable.
【請求項3】 搬送ベルト(43)の中途部から終端部
側を固定した状態において、搬送ベルト(43)の始端
部側を上下回動可能に構成する請求項1又は2の練製品
の成形機における搬送部構造。
3. The molding of the kneaded product according to claim 1, wherein the starting end side of the conveyor belt (43) is vertically rotatable in a state where the conveying belt (43) is fixed from the middle part to the end part. Transport structure in the machine.
【請求項4】 搬送ベルト(43)の中途部から始端部
側の上方に、回転切断部(5a)で切断した成形物Wを
搬送ベルト(43)上で押圧形成するプレス部(5b)
を設けると共に、該プレス部(5b)の押圧部材(5
d)を位置調節機構(6)を介して上下調節可能に設け
る請求項1又は2又は3の練製品の成形機における搬送
部構造。
4. A press section (5b) for pressing and forming a molded product W cut by a rotary cutting section (5a) on a conveyor belt (43) from a middle part of the conveyor belt (43) to a position above a start end side.
And a pressing member (5) of the pressing portion (5b).
4. The conveying part structure in a molding machine for a kneaded product according to claim 1, wherein d) is provided so as to be vertically adjustable via a position adjusting mechanism (6).
JP2000243772A 2000-08-11 2000-08-11 Conveyor structure in kneaded product molding machine Expired - Fee Related JP3450806B2 (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
JP2000243772A JP3450806B2 (en) 2000-08-11 2000-08-11 Conveyor structure in kneaded product molding machine

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
JP2000243772A JP3450806B2 (en) 2000-08-11 2000-08-11 Conveyor structure in kneaded product molding machine

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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
KR102058324B1 (en) * 2019-08-22 2020-01-22 박종윤 Apparatus for manufacturing of a boiled fish paste

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
KR102058324B1 (en) * 2019-08-22 2020-01-22 박종윤 Apparatus for manufacturing of a boiled fish paste

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