JPS648985B2 - - Google Patents

Info

Publication number
JPS648985B2
JPS648985B2 JP23372083A JP23372083A JPS648985B2 JP S648985 B2 JPS648985 B2 JP S648985B2 JP 23372083 A JP23372083 A JP 23372083A JP 23372083 A JP23372083 A JP 23372083A JP S648985 B2 JPS648985 B2 JP S648985B2
Authority
JP
Japan
Prior art keywords
improving agent
parts
confectionery
potato juice
cake
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.)
Expired
Application number
JP23372083A
Other languages
Japanese (ja)
Other versions
JPS60126029A (en
Inventor
Hideyuki Waku
Masahiko Shiina
Tsugio Tomita
Takashi Motoda
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.)
Tanabe Seiyaku Co Ltd
Original Assignee
Tanabe Seiyaku 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 Tanabe Seiyaku Co Ltd filed Critical Tanabe Seiyaku Co Ltd
Priority to JP23372083A priority Critical patent/JPS60126029A/en
Publication of JPS60126029A publication Critical patent/JPS60126029A/en
Publication of JPS648985B2 publication Critical patent/JPS648985B2/ja
Granted legal-status Critical Current

Links

Landscapes

  • Confectionery (AREA)
  • Bakery Products And Manufacturing Methods Therefor (AREA)

Description

【発明の詳现な説明】[Detailed description of the invention]

〔産業䞊の利甚分野〕 本発明は補菓改良剀、特にケヌキ類、カステラ
類の沈みの珟象を防止し、容積の増倧をはかり、
綺目を现かく均䞀にし、食感を改良する新芏な補
菓改良剀に関する。 〔埓来の技術〕 䞀般に小麊粉は補粉埌ある期間倉庫などに貯蔵
保管され、熟成されなければ補菓甚粉ずしおの適
性に乏しい特公昭56−26371号公報。これは小
麊粉の品質が補粉盎埌では安定しないためであ
る。特に高玚和掋菓子などに甚いられる薄力小麊
粉では補粉埌数ケ月以䞊の長期間の自然熟成以
䞋、単に熟成ず蚀うが行われるこずが奜たし
い。この熟成を行うこずによ぀お、䟋えばケヌキ
類、カステラ類においおは焌成埌の沈み珟象をは
じめ焌き瞮み、ケヌキ内郚の芯や生焌け状郚分の
発生、食感のべた付きや口どけの悪さなどを防止
する効果を醞成させるこずができる。 〔発明が解決しようずする問題点〕 しかしながら、この熟成は小麊粉を貯蔵保管す
るためにかなりの倉庫スペヌスを長期に亘぀お占
有するこずになり、この貯蔵保管に係る経費は補
粉業者にず぀お経枈的負担になり、环積される費
甚は莫倧なものずな぀おいる。たた、貯蔵保管
䞭、小麊粉に现菌や黎の繁殖による酞敗や黎臭の
発生が生ずるこずがあり、或いは虫害の発生など
によ぀お小麊粉の品質が劣化するなどマむナス芁
因が倚い。そこで、埓来からこのような熟成に代
替しうる手段ずしお熟成促進の方法が皮々怜蚎さ
れおきた。 これらの方法の䞭で過酞化ベンゟむル、二酞化
塩玠ガス、塩玠ガスなどの酞化剀を添加する方法
が最も䞀般的であ぀た特開昭54−98365号公報
が、珟圚では食品衛生䞊の芋地からこれらの䜿甚
を自䞻的にずりやめおいる補粉メヌカヌが倚い。
たた、加熱也燥などの凊理を行う方法もある英
囜特蚱第1110711号明现曞が、実際にはかなり
コストアツプになり実甚化は難しい。そしお、熟
成に代替しうる方法に぀いおは未だ満足しうる方
法は芋い出されおいないのが実情である。 〔問題点を解決するための手段〕 本発明者等は、この熟成に代替できる方法に぀
いお埓来の技術ず党く異なる酵玠䜜甚を利甚する
芋地から鋭意研究を進めた結果、埓来党く泚目さ
れたこずのない銬鈎薯汁液䞭に補菓性に著しい改
良効果のある成分が含たれおいるこずを発芋する
に至぀た。 この点に぀いお曎に詳しく述べれば、小麊粉の
熟成は過酞化ベンゟむル、二酞化塩玠ガス、塩玠
ガスなどの酞化剀を添加するこずによ぀お促進さ
れ、ケヌキのふくらみや、組織の匟力性に著しい
改良効果が認められるこずは呚知のこずである
が、この䜜甚機構は未だ明らかではない。さらに
小麊粉を加熱也燥などの凊理をするこずによ぀お
補菓性の改良効果が認められるが、これらは小麊
粉を適床に酞化する結果生ずる物性の倉化による
ものず考えるこずができる。この考えに着目し
お、本発明者等は、酵玠的改良法に぀いお鋭意研
究を進め、埮生物由来の酞化酵玠及び怍物由来の
酞化酵玠に぀いお皮々怜蚎した結果、銬鈎薯汁液
䞭に補菓性に著しい改良効果のある成分が含たれ
おいるこずを芋い出し、本発明を完成するに至぀
た。 すなわち、本発明は銬鈎薯より採取した銬鈎薯
汁液、たたはその粉末、もしくはこれらず少量の
乳化性物質を有効成分ずするこずを特城ずする補
菓改良剀である。 以䞋、本発明に぀いお詳现に説明する。 本発明で甚いる銬鈎薯汁液は銬鈎薯より任意の
手段で採取したものを甚いるこずができる。銬鈎
薯汁液の採取にあた぀おは、銬鈎薯を掗浄たた
はおよび剥皮するのがよい。銬鈎薯汁液の採取
の具䜓的手段ずしおは、䟋えば銬鈎薯をミキサ
ヌ、磚砕機などで磚砕し、過たたは遠心分離な
どで固圢分を分離しお銬鈎薯汁液を埗る方法、銬
鈎薯を搟汁機にかけお搟汁しお銬鈎薯汁液を埗る
方法などが挙げられる。 本発明で甚いる銬鈎薯汁液たたはその粉末の色
は癜色ないしは埮黄色であるこずが奜たしいが、
菓子の皮類䟋えばココアケヌキ、コヌヒヌケヌ
キ等によ぀おは着色しおいるものもあり、着色
した銬鈎薯汁液たたはその粉末を甚いおもよい堎
合もあり、たた容認される堎合もある。しかし、
銬鈎薯汁液は耐倉酵玠により著しく耐倉しやすい
ので、銬鈎薯汁液の採取の堎合に、PH䜎䞋による
耐倉防止のために酞䟋えば塩酞、ク゚ン酞な
どを添加するず着色のない、あるいは着色の少
ない銬鈎薯汁液を埗るこずができる。なお、この
際に、銬鈎薯汁液の蛋癜質の可溶化を促進するた
めに食塩などの塩を酞に含たせたものを添加する
ず䞀局効果的である。さらに、銬鈎薯汁液の採取
の堎合に、銬鈎薯䞭の耐倉酵玠の䜜甚を抑制する
ために、−アスコルビン酞たたは−アスコル
ビン酞ナトリりムなどを添加しおもよく、その
他、゚チレンゞアミンテトラ酢酞EDTA、あ
るいは重合リン酞塩のような金属キレヌト力を保
有する化合物の添加も耐倉を抑制するために有効
である。 ずころで、銬鈎薯汁液を透析しお、分子量䞇
を境に透析内液高分子ず倖液䜎分子に分
けた堎合、内液単独では若干効果は枛少するが、
倖液を戻すず、その効果は埩元する。しかし倖液
単独では、殆んど効力は発揮されない。埓぀お、
効力の発珟には内液ず倖液ずの耇合的䜜甚による
こずが予想され、蛋癜質ずしお特に玔床の高い必
芁はないず考えられる。 ぀ぎに、銬鈎薯汁液の粉末化にあた぀おは、通
垞の凍結也燥、噎霧也燥、真空也燥などの䞀般的
な也燥方法を甚いるこずができる。さらには、こ
の粉末の保存性、溶解性、分散性などを高めるた
め、公知の方法によりコヌテむングや顆粒加工す
るこずもできる。 銬鈎薯汁液たたはその粉末䞭の有効成分は、80
℃、10分間の加熱で著しく効果が枛少する。た
た、最も有効なPHは〜䜍であるが、通垞のベ
ヌキングにおけるPHでも䞀向にさし぀かえない。 本発明の補菓改良剀は、銬鈎薯汁液たたはその
粉末を有効成分ずするが、これらず少量の乳化性
物質ずを有効成分ずしおもよい。䟋えばケヌキ
類、カステラ類に銬鈎薯汁液たたはその粉末ず少
量の乳化性物質を甚いた堎合、ケヌキ類あるいは
カステラ類の綺目は䞀局现かく均䞀になり、食感
も䞀段ず゜フトにたた口溶けの良いものになる。
銬鈎薯汁液たたはその粉末ず乳化剀ずの䜜甚関係
は未だ明らかではないが、銬鈎薯汁液たたはその
粉末䞭の成分が现粒均質化しお安定するためず掚
定される。 本発明で䜿甚できる乳化性物質ずしおは、䟋え
ばグリセリン脂肪酞゚ステル、プロピレングリコ
ヌル脂肪酞゚ステル、゜ルビタン脂肪酞゚ステ
ル、シペ糖脂肪酞゚ステル及びリン脂質倧豆及
び卵黄由来のものなど、たたカれむン及びその
ナトリりム塩及びペプタむドなどの蛋癜系の乳化
性物質を挙げるこずができる。そしお乳化性物質
の量ずしおは、小麊粉圓り0.01〜、奜たしく
は0.05〜0.8ずなるような量であるのがよい。 たた、本発明の補菓改良剀は、賊圢剀ずしお䟋
えば小麊デンプンのようなデンプン類、ケヌンシ
ナガヌ、ビヌトシナガヌ、液糖のような糖類、倧
豆蛋癜質、カれむン蛋癜質のような動怍物蛋癜質
などを含有するこずができる。 なおたた、䞊蚘賊型剀は本発明の補菓改良剀が
銬鈎薯汁液たたはその粉末である堎合は、前蚘し
た乳化性物質ず䜵甚するこずもできる。 本発明の補菓改良剀は、過酞化ベンゟむル、二
酞化塩玠ガス、塩玠ガスなどの酞化剀添加、ある
いは長期自然熟成、加熱也燥などの凊理を斜しお
ない小麊粉を甚いお、菓子類䟋えばケヌキ類や
カステラ類などを補造する際に、その配合の䞀
郚ずしお加えおも良いし、あるいは特に粉末の堎
合は、予め小麊粉やプレミツクスに添加混合しお
おいおも良く、特に限定されるこずはない。その
䜿甚量は本発明の補菓改良剀が液状、ペヌスト状
及び粉末状の堎合で異なるし、たた補造される菓
子類䟋えばケヌキ類やカステラ類などの倧き
さ、厚さなどによ぀お異なるが、本発明の補菓改
良剀の有効成分が銬鈎薯汁液である堎合、銬鈎薯
汁液の量は察小麊粉の〜50、奜たしくは20〜
40皋床がよく、本発明の補菓改良剀の有効成分
が銬鈎薯汁液の粉末である堎合、その粉末の量は
察小麊粉の0.3〜4.0、奜たしくは0.5〜2.0皋
床がよい。 〔発明の効果〕 本発明の補菓改良剀を甚いれば、䟋えば補粉盎
埌の小麊粉を甚いお補造した菓子類䟋えばケヌ
キ類やカステラ類などでも、焌成埌の沈み珟象
をはじめ、焌瞮み、内郚の芯や、生焌け状郚分の
発生、食感のべた付きや口どけの悪さなどのない
容積の倧きなふ぀くらした補品になる。 かくしお、本発明の補菓改良剀を甚いるず、補
粉盎埌の小麊粉を熟成凊理するこずなく、盎ちに
原料粉ずしお䜿甚でき、しかも優れた品質の菓子
類を補造するこずができる。 たた、銬鈎薯は、生食、加工食品ずしお重芁な
食料であるず同時にデンプン工業における有甚な
原料でもある。しかし、デンプン原料ずしお利甚
される堎合、デンプン以倖の生䜓成分は殆んど有
効な利甚に぀なが぀おいないのが珟状である。埓
぀お、本発明は、埓来廃棄物ずしおしか考えられ
おいなか぀た銬鈎薯の汁液の有効な利甚ずしお新
芏な䞀分野を開拓したものである。 以䞋、本発明の実斜䟋および効果に぀いおの詊
隓䟋を挙げるが、本発明はこれにより制限される
ものではない。なお、実斜䟋および詊隓䟋䞭、郚
は重量郚である。 実斜䟋  掗浄埌、剥皮した銬鈎薯Kgに−アスコルビ
ン酞ナトリりム20剥皮銬鈎薯Kg圓り0.5
を粉末のたた加えおミキサヌで分間磚砕し、こ
の磚砕液を10000r.p.m.10分間の遠心分離で固圢
分を陀いお1680の汁液〔実斜䟋の改良剀(A)〕
を埗た。 この汁液840を垞法により凍結也燥しお24
の淡黄色の也燥粉末〔実斜䟋の改良剀(B)〕を埗
た。 実斜䟋  掗浄した銬鈎薯Kgにク゚ン酞ナトリりム10
原料銬鈎薯Kg圓り0.5を粉末のたた加えおミ
キサヌで分間磚砕し、この磚砕液を10000r.p.
m.10分間の遠心分離で固圢分を陀いお850の汁
液を埗た。この汁液は衚皮郚分の圱響で汁液はわ
ずかに着色した。この汁液を垞法により噎霧也燥
しお30の黄耐色の也燥粉末実斜䟋の改良
剀を埗た。 実斜䟋  掗浄埌、剥皮した銬鈎薯Kgに重合リン酞塩
ピロリン酞ナトリりム50郚、酞性メタリン酞ナ
トリりム50郚からなる10を粉末のたた加え
お、ミキサヌで分間磚砕し、この磚砕液を
10000r.p.m.10分間の遠心分離で固圢分を陀いお
830の汁液を埗た。この汁液を垞法により噎霧
也燥しお淡黄色の粉末実斜䟋の改良剀23
埗た。 実斜䟋  実斜䟋の改良剀(B)50郚、グリセリン脂肪酞゚
ステル郚、プロピレングリコヌル脂肪酞゚ステ
ル郚、カれむンナトリりム郚、およびビヌト
シナガヌ41郚を混合しお改良剀を埗た。 実斜䟋  実斜䟋の改良剀50郚、シペ糖脂肪酞゚ステル
郚、゜ルビタン脂肪酞゚ステル郚、プロピレ
ングリコヌル脂肪酞゚ステル郚、ケむンシナガ
ヌ39郚を混合しお改良剀を埗た。 実斜䟋  実斜䟋の改良剀50郚、倧豆リン脂質郚、グ
リセリン脂肪酞゚ステル郚、プロピレングリコ
ヌル脂肪酞゚ステル郚、れラチン加氎分解物
ポリペプタむド平均分子量5000郚、小麊デ
ンプン39郚を混合しお改良剀を埗た。 実斜䟋  実斜䟋の改良剀(B)50郚に小麊デンプン50郚を
混合しお改良剀を埗た。 実斜䟋  実斜䟋の改良剀(A)20.0郚、−アスコルビン
酞ナトリりム0.5郚、グリセリン脂肪酞゚ステル
0.09郚、プロピレングリコヌル脂肪酞゚ステル
0.07郚、カれむンナトリりム0.02郚、倧豆リン脂
質0.02郚、液糖氎分含量3079.3郚を混合し
お改良剀を埗た。 実斜䟋  掗浄埌、剥皮した銬鈎薯Kgをミキサヌで分
間磚砕し、この磚砕液を10000r.p.m.10分間の遠
心分離で固圢分を陀いお、1660の耐倉した汁液
〔実斜䟋の改良剀Ao〕を埗た。 この汁液830を垞法により凍結也燥しお、24
の黒玫色の也燥粉末〔実斜䟋の改良剀
Bo〕を埗た。 次に本発明の補菓改良剀の補菓性の改良効果に
぀いお詊隓䟋を挙げる。 詊隓䟋  実斜䟋の改良剀(A)および(B)、実斜䟋の改良
剀、実斜䟋の改良剀を甚いお、䞉同割法によ぀
おスポンゞケヌキを補造した。たた、これら改良
剀を添加しないでスポンゞケヌキを補造し察照ず
した。 スポンゞケヌキの原料配合割合は第衚の通り
である。そしお小麊粉は補粉盎埌の薄力粉を䜿甚
した。スポンゞケヌキの補造は次のようにしお行
な぀た。 先ず党卵1000ず砂糖䞊癜糖1000を比重
0.27〜0.28になるように泡立お、このバツタヌを
それぞれ300づ぀はかり取り、順に氎60察
照、実斜䟋の改良剀(A)60、たたは氎60に
実斜䟋の改良剀(B)、実斜䟋の改良剀、および
実斜䟋の改良剀をそれぞれ溶したものをそれぞ
れ加え、さらにそれぞれに小麊粉150を加えお
粉あわせを行ないスポンゞケヌキ甚バツタヌ生地
を䜜り、それぞれのバツタヌ生地450をはかり
取り、盎埄18cmの型に流し蟌み窯枩床180℃で35
分間焌成した。 焌成したスポンゞケヌキを䞀昌倜埌に枬定した
デヌタは第衚に瀺す通りであ぀た。 [Industrial Field of Application] The present invention is a confectionery improving agent, which prevents the phenomenon of sinking of cakes and castella cakes, and increases the volume thereof.
This invention relates to a novel confectionery improving agent that makes the texture fine and uniform and improves the texture. [Prior Art] Generally, wheat flour is stored in a warehouse for a certain period of time after being milled, and unless it is aged, it is not suitable as a flour for confectionery (Japanese Patent Publication No. 26371/1983). This is because the quality of flour is not stable immediately after milling. In particular, it is preferable for soft wheat flour used in high-quality Japanese and Western confectionery to undergo natural aging (hereinafter simply referred to as aging) for a long period of several months or more after milling. By performing this aging, for example, in cakes and castella cakes, it is possible to prevent the phenomenon of sinking after baking, shrinkage after baking, the occurrence of cores and half-cooked parts inside the cake, stickiness in the texture, and poor melting in the mouth. It is possible to create a preventive effect. [Problem to be solved by the invention] However, this aging process occupies a considerable amount of warehouse space for a long period of time to store and store the flour, and the cost associated with this storage is uneconomical for flour millers. The burden on many people and the accumulated costs are enormous. Furthermore, during storage, there are many negative factors such as the wheat flour becoming rancid or producing a musty odor due to the growth of bacteria and mold, or the quality of the flour deteriorating due to insect damage. Therefore, various methods of accelerating ripening have been studied as alternatives to such ripening. Among these methods, the most common method was to add an oxidizing agent such as benzoyl peroxide, chlorine dioxide gas, or chlorine gas (Japanese Unexamined Patent Publication No. 1983-98365).
However, many flour mill manufacturers are now voluntarily discontinuing the use of these products for food hygiene reasons.
There is also a method of processing such as heating and drying (British Patent No. 1110711), but this increases the cost considerably and is difficult to put into practical use. The reality is that no satisfactory alternative to aging has yet been found. [Means for Solving the Problems] The present inventors have carried out intensive research on methods that can replace this aging from the perspective of utilizing enzyme action that is completely different from conventional technology, and have discovered a method that has not received any attention in the past. It has been discovered that potato juice liquid contains ingredients that significantly improve confectionery properties. To explain this point in more detail, the ripening of wheat flour is promoted by adding oxidizing agents such as benzoyl peroxide, chlorine dioxide gas, and chlorine gas, which has a significant improvement effect on the rise of the cake and the elasticity of the structure. Although this phenomenon is well known, the mechanism of action is still unclear. Furthermore, improvements in confectionery properties have been observed when wheat flour is subjected to treatments such as heating and drying, but these can be considered to be due to changes in physical properties resulting from appropriate oxidation of flour. Focusing on this idea, the present inventors conducted intensive research on enzymatic improvement methods, and as a result of various studies on microbial-derived oxidative enzymes and plant-derived oxidative enzymes, they found that potato juice contained in liquid had a significant improvement in confectionery properties. The present invention was completed based on the discovery that a certain component is contained. That is, the present invention is a confectionery improving agent characterized by containing as active ingredients potato juice liquid collected from potatoes, its powder, or these and a small amount of an emulsifying substance. The present invention will be explained in detail below. The potato juice liquid used in the present invention can be extracted from potatoes by any method. When collecting potato juice, the potatoes are preferably washed and/or peeled. Specific methods for collecting potato juice include, for example, grinding potatoes with a mixer, grinder, etc., and separating the solids by filtration or centrifugation to obtain potato juice; Examples include a method of obtaining a potato juice liquid. The color of the potato juice liquid or its powder used in the present invention is preferably white or slightly yellow;
Some types of confectionery (e.g., cocoa cake, coffee cake, etc.) are colored, and colored potato juice liquid or its powder may be used in some cases, and in some cases, it is acceptable. but,
Potato juice is prone to browning significantly due to browning enzymes, so when collecting potato juice, add an acid (e.g. hydrochloric acid, citric acid, etc.) to prevent browning due to a drop in pH to obtain a potato juice with no or little coloring. can be obtained. At this time, it is more effective to add an acid containing a salt such as common salt in order to promote solubilization of proteins in the potato juice liquid. Furthermore, when collecting potato juice, L-ascorbic acid or sodium L-ascorbate may be added to suppress the action of the browning enzyme in potatoes, and in addition, ethylenediaminetetraacetic acid (EDTA), Alternatively, addition of a compound having metal chelating ability such as polymerized phosphate is also effective in suppressing browning. By the way, when a potato juice solution is dialyzed and divided into an internal dialysis solution (high molecules) and an external solution (low molecules) at a molecular weight of 10,000, the effectiveness of the internal solution alone decreases slightly;
When the external fluid is returned, the effect is restored. However, the external solution alone has almost no effect. Therefore,
The expression of efficacy is expected to be due to the combined action of internal and external fluids, and it is considered that there is no need for the protein to be particularly pure. Next, to powderize the potato juice liquid, common drying methods such as freeze drying, spray drying, vacuum drying, etc. can be used. Furthermore, in order to improve the preservability, solubility, dispersibility, etc. of this powder, it can be coated or granulated by known methods. The active ingredients in potato juice liquid or its powder are 80
℃, the effect decreases significantly after heating for 10 minutes. Also, the most effective pH is 5 to 6, but the pH for normal baking is perfectly acceptable. The confectionery improving agent of the present invention contains potato juice liquid or powder thereof as an active ingredient, but it may also contain a small amount of an emulsifying substance as an active ingredient. For example, if potato juice liquid or its powder and a small amount of emulsifying substance are used in cakes or castella cakes, the texture of the cake or castella cake will become finer and more uniform, and the texture will become softer and melt better in the mouth. Become.
Although the functional relationship between the potato juice liquid or its powder and the emulsifier is not yet clear, it is presumed that the components in the potato juice liquid or its powder are homogenized into fine particles and stabilized. Examples of emulsifying substances that can be used in the present invention include glycerin fatty acid esters, propylene glycol fatty acid esters, sorbitan fatty acid esters, sucrose fatty acid esters, phospholipids (derived from soybeans and egg yolks), and casein and its sodium salts and peptides. Examples include protein-based emulsifying substances such as. The amount of the emulsifying substance is preferably 0.01 to 2%, preferably 0.05 to 0.8%, based on wheat flour. Furthermore, the confectionery improving agent of the present invention may contain, as excipients, starches such as wheat starch, sugars such as cane sugar, beet sugar, and liquid sugar, and animal and vegetable proteins such as soybean protein and casein protein. can. Furthermore, when the confectionery improving agent of the present invention is a potato juice liquid or its powder, the above-mentioned excipient can also be used in combination with the above-mentioned emulsifying substance. The confectionery improving agent of the present invention is produced by using wheat flour that has not been subjected to treatments such as addition of an oxidizing agent such as benzoyl peroxide, chlorine dioxide gas, or chlorine gas, or to long-term natural aging or heat drying. It may be added as part of the formulation when manufacturing castella (castella, etc.), or it may be added to flour or premix in advance, especially in the case of powder, and is not particularly limited. . The amount used differs depending on whether the confectionery improving agent of the present invention is in the form of liquid, paste, or powder, and also varies depending on the size and thickness of the confectionery to be manufactured (for example, cakes, castella cakes, etc.). However, when the active ingredient of the confectionery improving agent of the present invention is potato juice liquid, the amount of potato juice liquid is 5 to 50% of the wheat flour, preferably 20 to 50%.
About 40% is good, and when the active ingredient of the confectionery improving agent of the present invention is a powder of potato juice liquid, the amount of the powder is about 0.3 to 4.0%, preferably about 0.5 to 2.0% based on the wheat flour. [Effects of the Invention] If the confectionery improving agent of the present invention is used, confectionery products (such as cakes and castella cakes) made using wheat flour immediately after milling can be prevented from sinking after baking, baking shrinkage, and internal defects. The result is a large, fluffy product with no core, undercooked parts, sticky texture, or poor melt-in-the-mouth texture. Thus, when the confectionery improving agent of the present invention is used, wheat flour immediately after milling can be used as a raw material flour immediately without aging treatment, and confectionery products of excellent quality can be produced. In addition, potatoes are an important food both as raw and processed foods, and are also a useful raw material in the starch industry. However, when used as starch raw materials, the current situation is that most biological components other than starch have not been effectively utilized. Therefore, the present invention opens up a new field of effective use of potato juice, which has heretofore been considered only as waste. EXAMPLES Examples of the present invention and test examples for effects are listed below, but the present invention is not limited thereto. In addition, in Examples and Test Examples, parts are parts by weight. Example 1 After washing, add 20 g of sodium L-ascorbate to 4 kg of peeled potatoes (0.5% per kg of peeled potatoes)
was added as a powder and ground in a mixer for 5 minutes, and the ground liquid was centrifuged at 10,000 rpm for 10 minutes to remove solids, yielding 1,680 g of juice [Improver (A) of Example 1]
I got it. Freeze-dry 840g of this juice using a conventional method to obtain 24g
A pale yellow dry powder [improver (B) of Example 1] was obtained. Example 2 10g of sodium citrate to 2kg of washed potatoes
(0.5% per kg of raw potatoes) was added as a powder and ground with a mixer for 5 minutes, and the ground liquid was heated at 10,000r.p.
m. Solids were removed by centrifugation for 10 minutes to obtain 850 g of juice. This juice was slightly colored due to the influence of the epidermis. This liquid liquid was spray-dried in a conventional manner to obtain 30 g of yellowish brown dry powder (improving agent of Example 2). Example 3 After washing, 10 g of polymerized phosphate (consisting of 50 parts of sodium pyrophosphate and 50 parts of acidic sodium metaphosphate) was added as a powder to 2 kg of peeled potatoes, and the mixture was ground with a mixer for 5 minutes. of
Remove solids by centrifuging at 10000r.pm for 10 minutes.
830g of juice was obtained. This juice was spray-dried in a conventional manner to give 23 g of pale yellow powder (improving agent of Example 3).
Obtained. Example 4 A improving agent was obtained by mixing 50 parts of the improving agent (B) of Example 1, 3 parts of glycerin fatty acid ester, 4 parts of propylene glycol fatty acid ester, 2 parts of sodium caseinate, and 41 parts of beet sugar. Example 5 A improving agent was obtained by mixing 50 parts of the improving agent of Example 2, 3 parts of sucrose fatty acid ester, 3 parts of sorbitan fatty acid ester, 5 parts of propylene glycol fatty acid ester, and 39 parts of cane sugar. Example 6 50 parts of the improver of Example 3, 1 part of soybean phospholipid, 4 parts of glycerin fatty acid ester, 4 parts of propylene glycol fatty acid ester, 2 parts of gelatin hydrolyzate (polypeptide average molecular weight 5000), and 39 parts of wheat starch. A modifier was obtained by mixing. Example 7 50 parts of the improver (B) of Example 1 was mixed with 50 parts of wheat starch to obtain an improver. Example 8 20.0 parts of the improver (A) of Example 1, 0.5 parts of sodium L-ascorbate, glycerin fatty acid ester
0.09 parts, propylene glycol fatty acid ester
An improving agent was obtained by mixing 0.07 parts of sodium caseinate, 0.02 parts of soybean phospholipids, and 79.3 parts of liquid sugar (water content 30%). Example 9 After washing, 4 kg of peeled potatoes were ground in a mixer for 5 minutes, and the ground liquid was centrifuged at 10,000 rpm for 10 minutes to remove solids, yielding 1,660 g of the browned juice [the improver of Example 9]. Ao)] was obtained. Freeze-dry 830g of this juice using a conventional method,
A black-purple dry powder of g [improving agent (Bo) of Example 9] was obtained. Next, test examples will be given regarding the effect of improving confectionery properties of the confectionery improving agent of the present invention. Test Example 1 A sponge cake was produced using the improvers (A) and (B) of Example 1, the improver of Example 2, and the improver of Example 3 by a three-way split method. In addition, a sponge cake was prepared without adding these modifiers as a control. The mixing ratio of raw materials for the sponge cake is shown in Table 1. For the flour, I used soft flour that had just been milled. The sponge cake was manufactured as follows. First, weigh 1000g of whole eggs and 1000g of sugar (caster sugar).
Whip the butter to a foaming consistency of 0.27 to 0.28, weigh out 300g of each batter, and add, in order, 60g of water (control), 60g of the improver (A) of Example 1, or 60g of water and the improver (B) of Example 1, Add dissolved solutions of the improving agent of Example 2 and the improving agent of Example 3, respectively, add 150 g of flour to each, mix the flours to make a batter dough for a sponge cake, and weigh out 450 g of each batter dough. Take it and pour it into a mold with a diameter of 18cm and heat it in a kiln at a temperature of 180℃ for 35 minutes.
Bake for a minute. The data of the baked sponge cake measured after one day and night were as shown in Table 2.

【衚】【table】

【衚】 第衚の結果から、実斜䟋の改良剀(A)である
銬鈎薯汁液、たたは実斜䟋の改良剀(B)、実斜䟋
の改良剀、実斜䟋の改良剀である銬鈎薯汁液
の粉末䞭にすぐれた補菓改良成分が含たれおいる
こずが明らかにわかる。 詊隓䟋  実斜䟋の改良剀(B)ず乳化剀を䜵甚しお、䞉同
割法によ぀おスポンゞケヌキを補造した。たた、
実斜䟋の改良剀(B)を䜿甚するこずなく、乳化剀
だけを䜿甚しおスポンゞケヌキを補造し察照ずし
た。䜿甚した乳化剀の組成は第衚の通りであ
り、たたスポンゞケヌキの原料配合割合は第衚
の通りである。なお、乳化剀は実斜䟋の改良剀
(B)ずずもに氎に溶いお䜿甚した。 そしおスポンゞケヌキの補造は、詊隓䟋に蚘
茉したず同様の操䜜で行な぀た。その結果は第
衚に瀺す通りである。[Table] From the results in Table 2, it is found that the potato juice liquid which is the improving agent (A) of Example 1, the improving agent (B) of Example 1, the improving agent of Example 2, and the improving agent of Example 3. It is clearly seen that the potato juice liquid powder contains excellent confectionery improving ingredients. Test Example 2 A sponge cake was produced by using the improver (B) of Example 1 and an emulsifier together by a three-way split method. Also,
As a control, a sponge cake was prepared using only the emulsifier without using the modifier (B) of Example 1. The composition of the emulsifier used is as shown in Table 3, and the mixing ratio of the raw materials for the sponge cake is as shown in Table 4. In addition, the emulsifier is the improver of Example 1.
It was used together with (B) by dissolving it in water. The sponge cake was produced in the same manner as described in Test Example 1. The result is the fifth
As shown in the table.

【衚】【table】

【衚】【table】

【衚】 察照A′はケヌキが沈み、ケヌキ内郚の䞋郚に
生焌け状の局ができ、食感はべた付き口どけの悪
いものであ぀た。これに察し、は容積の倧きな
ふ぀くらしたケヌキで、ケヌキ内郚に芯や生焌け
状の郚分はなく、内盞は特に綺目が现かく、均䞀
で色盞も良く、食感はべた付きもなく゜フトで口
どけも極めお良奜なものであ぀た。 詊隓䟋  実斜䟋〜の改良剀をそれぞれ甚いおスポン
ゞケヌキを補造した。たた、改良剀を䜿甚するこ
ずなく、スポンゞケヌキを補造し察照ずした。察
照および実斜䟋〜の改良剀を甚いたスポンゞ
ケヌキの補造は、詊隓䟋に蚘茉したず同様の操
䜜で行な぀た。たた、実斜䟋の改良剀の堎合
は、この改良剀を党卵ず砂糖の䞭に加えお泡立お
を行ない、他の条件は詊隓䟋に蚘茉したず同様
の操䜜で行な぀た。小麊粉は補造盎埌の薄力粉を
甚い、スポンゞケヌキの原料配合割合は第衚に
瀺す通りである。そしお詊隓の結果は第衚に瀺
す通りである。[Table] In Control A', the cake sank, a half-cooked layer formed at the bottom of the cake, and the texture was sticky and did not melt in the mouth. On the other hand, F is a large and fluffy cake with no core or undercooked parts inside the cake, the inner texture is particularly fine, uniform, and has a good color, and the texture is soft without being sticky. It also melted in the mouth extremely well. Test Example 3 Sponge cakes were manufactured using each of the improving agents of Examples 4 to 8. In addition, a sponge cake was prepared without using the improving agent as a control. The preparation of sponge cakes using the control and the improvers of Examples 4 to 7 was carried out in the same manner as described in Test Example 1. In the case of the improving agent of Example 8, this improving agent was added to whole eggs and sugar and whipped, and the other conditions were the same as those described in Test Example 1. The wheat flour used was soft flour immediately after production, and the mixing ratio of the raw materials for the sponge cake was as shown in Table 6. The test results are shown in Table 7.

【衚】【table】

【衚】 察照はケヌキが沈み、ケヌキ内郚の䞋郚に生焌
け状の局ができ、食感はべた付き口どけの悪いも
のであ぀たが、これに察し、、、、は
いずれも察照に范べお優れおおり、容積の倧きな
ふ぀くらしたケヌキで、ケヌキ内郚に芯や生焌け
状の郚分はなか぀た。特におよびは内盞の綺
目が现かく均䞀で色盞も良か぀た。 詊隓䟋  実斜䟋の改良剀AoおよびBoを甚い
お、共立法によ぀おココア入りスポンゞケヌキを
補造した。たた、これら改良剀を添加しないでコ
コア入りスポンゞケヌキを補造し察照ずした。 ココア入りスポンゞケヌキの原料配合割合は第
衚の通りである。そしお小麊粉は補粉盎埌の薄
力粉を䜿甚した。ココア入りスポンゞケヌキの補
造は次のようにしお行な぀た。 先ず党卵1000ず砂糖䞊癜糖1000を比重
0.27〜0.28になるように泡立お、このバツタヌを
それぞれ300づ぀はかり取り、順に氎66察
照、実斜䟋の改良剀Ao66、氎66に実
斜䟋の改良剀Boを溶かしたものをそれぞ
れ加え、さらにそれぞれに小麊粉150ずココア
24を加えお粉あわせを行ないスポンゞケヌキ甚
バツタヌ生地を䜜り、それぞれのバツタヌ生地
450をはかり取り、盎埄18cmの型に流し蟌み窯
枩床180℃で35分間焌成した。 焌成したココア入りスポンゞケヌキを䞀昌倜埌
に枬定したデヌタは、第衚に瀺す通りであ぀
た。[Table] In the control case, the cake sank, a half-cooked layer formed at the bottom of the cake, and the texture was sticky and hard to melt in the mouth. The cake was also superior to the control, with a large volume and fluffy cake, with no core or undercooked parts inside the cake. In particular, G and I had a fine, uniform internal phase and a good hue. Test Example 4 Using the modifiers (Ao) and (Bo) of Example 9, a cocoa-containing sponge cake was produced by a co-method. In addition, a cocoa-containing sponge cake was prepared without adding these modifiers and used as a control. Table 8 shows the mixing ratio of raw materials for the cocoa sponge cake. For the flour, I used soft flour that had just been milled. The cocoa sponge cake was manufactured as follows. First, weigh 1000g of whole eggs and 1000g of sugar (caster sugar).
Whisk the butter to a consistency of 0.27 to 0.28, weigh out 300g of each batter, and dissolve in order 66g of water (control), 66g of the improver (Ao) of Example 9, and 66g of the improver (Bo) of Example 9 in 66g of water. Add 150g of flour and cocoa to each.
Add 24g of flour and mix to make butter batter for sponge cake.
450g was weighed out, poured into a mold with a diameter of 18cm, and fired in a kiln at a temperature of 180°C for 35 minutes. The data of the baked cocoa sponge cake measured after one day and night were as shown in Table 9.

【衚】【table】

【衚】【table】

Claims (1)

【特蚱請求の範囲】[Claims]  銬鈎薯より採取した銬鈎薯汁液、たたはその
粉末、もしくはこれらず少量の乳化性物質を有効
成分ずするこずを特城ずする補菓改良剀。1. A confectionery improving agent characterized by containing as active ingredients potato juice liquid collected from potatoes, its powder, or these and a small amount of an emulsifying substance.
JP23372083A 1983-12-13 1983-12-13 Confectionery modifying agnet Granted JPS60126029A (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
JP23372083A JPS60126029A (en) 1983-12-13 1983-12-13 Confectionery modifying agnet

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
JP23372083A JPS60126029A (en) 1983-12-13 1983-12-13 Confectionery modifying agnet

Publications (2)

Publication Number Publication Date
JPS60126029A JPS60126029A (en) 1985-07-05
JPS648985B2 true JPS648985B2 (en) 1989-02-15

Family

ID=16959501

Family Applications (1)

Application Number Title Priority Date Filing Date
JP23372083A Granted JPS60126029A (en) 1983-12-13 1983-12-13 Confectionery modifying agnet

Country Status (1)

Country Link
JP (1) JPS60126029A (en)

Families Citing this family (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPH0549386A (en) * 1991-08-26 1993-03-02 Hokuren Federation Of Agricult Coop:The Production of bread

Also Published As

Publication number Publication date
JPS60126029A (en) 1985-07-05

Similar Documents

Publication Publication Date Title
KR100500004B1 (en) Process for producing powdery acid-treated egg
JP3414652B2 (en) Wheat flour baked product, its production method and quality improving agent
JP4294107B2 (en) Feed additives
EP0426425A1 (en) Process for producing liquid egg having reduced cholesterol content and food containing liquid egg thus produced
JP7149684B2 (en) bread dough
US20040151817A1 (en) Baked products containing soybean protein and process for producing soybean protein
JP2000004768A (en) Improving agent for breadmaking and preparation of bread
JPS648985B2 (en)
JP2002291445A (en) Powder of hen's egg
JP4928688B2 (en) Process for producing processed raw soybean powder
CA1065181A (en) Process for preparation of emulsified wheat gluten
FR2549698A1 (en) Method for preparing a frozen dough of foodstuff products fermented with yeast
JPH0532013B2 (en)
JP2563201B2 (en) Confectionery improver
US2758933A (en) Treatment of eggs
US334245A (en) lauer
JP4861267B2 (en) Baked goods
CA2346559A1 (en) Method and composition for replacing part of whole liquid eggs in a bakery product with a composition comprising a powder egg white or the like
JP2007267711A (en) Instant noodle
JPH03112434A (en) Agent for improving quality of wheat flour product
JP2788021B2 (en) Cake mix
JP2837490B2 (en) Yeast freezing tolerance improver
JPH0675461B2 (en) Oil and fat composition for improving flour dough
US1063302A (en) Concentrated food product.
JP3655563B2 (en) Dried egg white composition