阅读说明：本技术 一种面包制备工艺 (Bread preparation technology ) 是由 魏雨彤 于 2021-08-26 设计创作，主要内容包括：本发明涉及食品加工领域,更具体的说是一种面包制备工艺,本发明能够在面包成型后在将秋葵干送入面包中,制成秋葵干夹心面包,一种面包制备工艺,包括以下步骤：步骤一：将面粉、白砂糖、酵母、鸡蛋和食品添加剂按比例混合并搅拌均匀得到混合物；步骤二：对搅拌均匀的混合物进行调制处理,制成面团；步骤三：对调制成型的面团进行醒发发酵；步骤四：将完成发酵的面团进行烘烤,制成成品面包；步骤五：将面包和秋葵干加入夹心装置中,使得面包带有秋葵干夹心。(The invention relates to the field of food processing, in particular to a bread preparation process, which can be used for preparing okra dry sandwich bread by sending okra dry into bread after bread forming, and comprises the following steps: the method comprises the following steps: mixing flour, white granulated sugar, yeast, eggs and food additives in proportion and uniformly stirring to obtain a mixture; step two: blending the uniformly stirred mixture to prepare dough; step three: fermenting the prepared dough; step four: baking the fermented dough to obtain finished bread; step five: bread and okra dry are added into a sandwich device, so that the bread is provided with an okra dry sandwich.)

1. A bread preparation process comprises the following steps:

the method comprises the following steps: mixing flour, white granulated sugar, yeast, eggs and food additives in proportion and uniformly stirring to obtain a mixture;

step two: blending the uniformly stirred mixture to prepare dough;

step three: fermenting the prepared dough;

step four: baking the fermented dough to obtain finished bread;

step five: bread and okra dry are added into a sandwich device, so that the bread is provided with an okra dry sandwich.

2. A process for preparing bread as claimed in claim 1, wherein: the sandwich device comprises a fixing cage (101), sandwich holes (103), a connecting plate I (401), sandwich portions (402), a connecting plate II (601) and punching portions (602), wherein the sandwich portions (402) are fixedly connected to the connecting plate I (401), the punching portions (602) are fixedly connected to the connecting plate II (601), the fixing cage (101) is provided with the sandwich holes (103), and the sandwich portions (402) and the punching portions (602) are located at corresponding positions with the sandwich holes (103).

3. A process for preparing bread as claimed in claim 2, wherein: the device still includes slide bar (104), spring I (105), shelter from portion (301), transmission portion (302) and cooperation portion (501), slide bar (104) rigid coupling is on fixed cage (101), shelter from portion (301) sliding connection on slide bar (104), be provided with spring I (105) between shelter from portion (301) and slide bar (104), transmission portion (302) rigid coupling is on shelter from portion (301), cooperation portion (501) rotate to be connected on connecting plate I (401).

4. A process for preparing bread as claimed in claim 3, wherein: the device further comprises an inclined plane arc plate (102) and a contact ball (502), the inclined plane arc plate (102) is arranged on the fixing cage (101), and the contact ball (502) is arranged on the connecting plate I (401).

5. A process for preparing bread as claimed in claim 4, wherein: the device also comprises a protection strip (303) and a spring II (403), wherein the protection strip (303) is fixedly connected to the transmission part (302), and the spring II (403) is arranged between the matching part (501) and the connecting plate I (401).

6. A process for preparing bread as claimed in claim 5, wherein: the device further comprises a limiting strip (503), the limiting strip (503) is fixedly connected to the matching portion (501), and the limiting strip (503) is connected to the connecting plate I (401) in a sliding mode.

7. A process for preparing bread as claimed in claim 2, wherein: a plurality of spacing gaps are uniformly arranged on the punching part (602).

8. A process for preparing bread as claimed in claim 2, wherein: the device also comprises a plurality of sponge strips (404), and a plurality of sponge strips (404) are arranged on the plurality of sandwich parts (402).

9. A process for preparing bread as claimed in claim 2, wherein: the device further comprises a placing part (201) and an operating handle (203), wherein the placing part (201) is rotatably connected to the fixed cage (101), and the operating handle (203) is arranged on the placing part (201).

10. A process for preparing bread as claimed in claim 9, wherein: the device also comprises a fixed iron block (104) and an adsorption part (202), wherein the two adsorption parts (202) are fixedly connected to the placing part (201), and the fixed cage (101) is fixedly connected with the two fixed iron blocks (104).

Technical Field

The invention relates to the field of food processing, in particular to a bread preparation process.

Background

Bread is a food prepared by using grain crops such as rye and wheat as basic raw materials, grinding into powder, adding water, salt, yeast and the like, kneading into dough, and then heating by baking, steaming, frying and the like. In general, we refer to bread, most of which think of European and American bread or Japanese stuffed bread, sweet bread, etc. In fact, there are many specific types of bread in the world. The raw materials for making bread widely used in the world comprise buckwheat flour, brown rice flour, corn flour and the like besides rye flour and wheat flour, but in the prior art, dried fruit is added in the dough kneading process for making the dried fruit sandwich bread, and the fresh taste of the dried fruit is easily lost in the processing mode.

Disclosure of Invention

The invention provides a bread preparation process for overcoming the defects of the prior art, and has the beneficial effect that the okra dry sandwich bread can be prepared by sending the okra dry into bread after the bread is formed.

The technical scheme adopted by the invention for solving the technical problems is as follows:

a bread preparation process comprises the following steps:

the method comprises the following steps: mixing flour, white granulated sugar, yeast, eggs and food additives in proportion and uniformly stirring to obtain a mixture;

step two: blending the uniformly stirred mixture to prepare dough;

step three: fermenting the prepared dough;

step four: baking the fermented dough to obtain finished bread;

step five: bread and okra dry are added into a sandwich device, so that the bread is provided with an okra dry sandwich.

The sandwich device in step five includes fixed cage, sandwich hole, connecting plate I, sandwich portion, connecting plate II and the portion of punching, the equal fixed connection of a plurality of sandwich portions is on connecting plate I, the equal fixed connection of a plurality of portions of punching is on connecting plate II, be provided with a plurality of sandwich holes on the fixed cage, a plurality of sandwich portions and a plurality of portions of punching all correspond to the position with a plurality of sandwich holes.

The device still includes sliding strip, spring I, occlusion part, transmission portion and cooperation portion, and the sliding strip rigid coupling is on fixed cage, and occlusion part sliding connection is provided with spring I between occlusion part and the sliding strip on the sliding strip, and transmission portion rigid coupling is on the occlusion part, and cooperation portion rotates to be connected on connecting plate I.

Drawings

The present disclosure may be more clearly understood from the following detailed description, taken with reference to the accompanying drawings, in which:

FIG. 1 is a schematic flow diagram of a bread making process;

FIG. 2 is a schematic view of a fastening connection structure of the fixing cage and the placing part;

FIG. 3 is a schematic view II of the fastening connection structure of the fixing cage and the placing part;

FIG. 4 is a schematic view of an open structure of the fixing cage and the placing portion;

FIG. 5 is a schematic connection diagram of the connection plate I and the matching part;

FIG. 6 is a schematic structural view of the mating portion;

FIG. 7 is a schematic view of a connection structure of the fixing cage and the shielding portion;

FIG. 8 is a schematic structural view of the shielding portion;

FIG. 9 is a partially enlarged view of the mating portion;

FIG. 10 is a schematic structural view of a connecting plate II;

FIG. 11 is a schematic structural view of a fixing plate;

fig. 12 is a schematic view of the overall structure of the present apparatus.

Detailed Description

A bread preparation process comprises the following steps: the method comprises the following steps: mixing flour, white granulated sugar, yeast, eggs and food additives in proportion and uniformly stirring to obtain a mixture; step two: blending the uniformly stirred mixture to prepare dough; step three: fermenting the prepared dough; step four: baking the fermented dough to obtain finished bread; step five: bread and okra dry are added into a sandwich device, so that the bread is provided with an okra dry sandwich.

In addition, as shown in fig. 2, 3, 5 and 10, this example solves the problem of sandwich processing of the bread after processing and molding,

because the existing bread with dried fruit filling is generally made by adding dried fruit into the surface when kneading dough, so that the dried fruit is distributed in the bread, but the filling mode easily causes the dried fruit to lose the original fresh taste of the dried fruit in the fermentation and baking processes, thereby affecting the eating effect, the device is provided with a sandwich hole 103, a sandwich part 402, a fixed cage 101, a connecting plate I401, a punching part 602 and a connecting plate II 601, the connecting plate I401 is fixedly connected with a plurality of sandwich parts 402, the connecting plate II 601 is fixedly connected with a plurality of punching parts 602, the plurality of sandwich holes 103 are all arranged on the fixed cage 101, the plurality of sandwich holes 103, the plurality of sandwich parts 402 and the plurality of punching parts 602 are all in corresponding positions, a worker puts the processed and molded bread into the fixed cage 101, puts the dried okra on the plurality of sandwich parts 402, and then operates the connecting plate II 601 to move, therefore, the punching parts 602 are inserted into the bread in the fixing cage 101, so that the plurality of punching parts 602 punch a plurality of holes for placing the okra stems on the bread, meanwhile, as the plurality of punching parts 602 are designed in a tubular shape, when the plurality of punching parts 602 are inserted into the bread, the cut bread can enter the plurality of punching parts 602, so that the situation that the bread is deformed due to the insertion of the plurality of punching parts 602 is avoided, and then, a worker operates the plurality of punching parts 602 to move out and simultaneously operates the connecting plate I401 to move, so that the plurality of sandwich parts 402 pass through the plurality of sandwich holes 103 and place the okra stems in the plurality of holes for placing the okra stems punched by the plurality of punching parts 602, so that the bread is placed with the okra stems after being molded, the fresh taste of the okra stems is maintained, and the eating taste of the okra sandwich bread is improved.

In addition, as an example, as shown in fig. 5 to 8, this example solves the problem of allowing okra to be left in the bread when a plurality of sandwich portions 402 are removed from the inside of the bread again,

because the okra sandwich bread needs to be made in batches at the same time, the okra trunk needs to be automatically left in the bread when a worker operates a plurality of sandwich parts 402 to move out, so that the sandwich operation can be efficiently completed, the device is provided with a spring I105, a shielding part 301, a matching part 501, a sliding strip 104 and a transmission part 302, the fixed cage 101 is fixedly connected with the sliding strip 104, the sliding strip 104 is slidably connected with the shielding part 301, one end of the spring I105 is fixedly connected to the shielding part 301, the other end of the spring I105 is fixedly connected to the sliding strip 104, the shielding part 301 is fixedly connected with the transmission part 302, the matching part 501 is rotatably connected to the connecting plate I401, when the spring I105 is under the condition that the spring I is not subjected to other external forces and only is subjected to the gravity of the shielding part 301, the shielding part 301 can shield a plurality of sandwich holes 103, and only the plurality of sandwich parts 402 without the okra trunk can pass through the plurality of sandwich parts 103, when the operator operates the connecting plate i 401 to move, so that the plurality of core clamping portions 402 pass through the plurality of core clamping holes 103 and the okra stems are placed in the plurality of holes for placing the okra stems punched by the plurality of punching portions 602, before the plurality of core clamping portions 402 pass through the plurality of core clamping holes 103, the matching portion 501 contacts with the transmission portion 302, and the transmission portion 302 continuously moves leftwards, so that the transmission portion 302 gradually slides upwards on the sliding strip 104 along the track of the matching portion 501, so that the shielding portion 301 gradually moves upwards and compresses the spring i 105, so that the plurality of core clamping holes 103 are not shielded by the shielding portion 301, so that the plurality of core clamping portions 103 can pass through the plurality of core clamping portions 402 with the okra stems, when the plurality of core clamping portions 402 completely enter the bread, the matching portion 501 can rotate to prevent the matching portion 501 from further supporting the transmission portion 302, so that the compressed spring i 105 can apply a downward force to the transmission portion 302, thereby make transmission portion 302 automatic gliding and make shielding portion 301 get back to and carry out the position of sheltering from to a plurality of heart of clamp hole 103, the staff removes at operation connecting plate I401 this moment, because shielding portion 301 shelters from a plurality of heart of clamp holes 103 to thereby make the okra do not can stay in the bread through a plurality of heart of clamp holes 103, thereby the sandwich operation is accomplished to the efficient.

In addition, as an example, as shown in fig. 2, 3, 5, and 6, this example solves the problem of automatically rotating the fitting portion 501,

because the okra trunk can be automatically left in the bread only by operating the matching part 501 to rotate after the plurality of sandwich parts 402 completely enter the bread, and the processing efficiency can be further improved if the matching part 501 can automatically rotate after the plurality of sandwich parts 402 completely enter the bread, the device is provided with the contact ball 502 and the inclined arc plate 102, the inclined arc plate 102 is arranged on the fixed cage 101, the contact ball 502 is arranged on the connecting plate I401, the connecting plate I401 is operated by a worker to move, so that the matching part 501 is contacted with the transmission part 302, the plurality of sandwich holes 103 are not shielded by the shielding part 301, the contact ball 502 can be contacted with the inclined arc plate 102 after the okra trunks are completely put into the bread by the plurality of sandwich parts 402, the worker continues to operate the connecting plate I401 to move at the moment, so that the contact ball 502 gradually moves along the inclined arc plate 102, and the matching part 501 gradually and automatically rotates in the connecting plate I401, until contact ball 502 slides to inclined plane arc plate 102 the minimum, cooperation portion 501 breaks away from with transmission portion 302 completely this moment, thereby make transmission portion 302 can no longer receive the support of cooperation portion 501, thereby make transmission portion 302 receive the power of spring I105 and the gravity of self to continue to get back to the position of sheltering from a plurality of heart holes 103, thereby accomplish the staff and only take out a plurality of heart portions 402, stay the effect in the bread with the okra futilely, inclined plane arc plate 102 and contact ball 502's setting can be convenient for drive cooperation portion 501 autogiration, thereby further improve machining efficiency.

In addition, as an example, as shown in fig. 9, this example solves the problem of causing the fitting portion 501 to automatically reset,

because the matching part 501 automatically resets, a worker can finish multiple use of the device only by replacing okra and bread, the matching part 501 does not need to be operated to rotate back to the original position, and the processing efficiency is further improved, a spring II 403 and a protection bar 303 are arranged in the device, the protection bar 303 is fixedly connected to the transmission part 302, one end of the spring II 403 is fixedly connected to the matching part 501, the other end of the spring II 403 is fixedly connected to the connecting plate I401, when the contact ball 502 is in contact with the inclined arc plate 102, the matching part 501 gradually rotates along with the movement of the connecting plate I401, the spring II 403 is compressed, when the worker wants to move out of the clamping parts 402 to reversely move the connecting plate I401, the spring pushes the matching part 501, the contact ball 502 can reversely slide along the inclined arc plate 102 along with the reverse movement of the connecting plate I401, and the matching part 501 can automatically reset, meanwhile, the front end of the matching part 501 is an inclined plane, in order to avoid the situation that the front end of the matching part 501 interferes with the transmission part 302 in the automatic resetting process to cause the locking of the matching part 501, the protection strip 303 is arranged, when the matching part 501 is not completely removed from the upper side of the fixed cage 101, the matching part 501 can be pushed by the pushing force given by the spring II 403 to be always propped against the protection strip 303, so that the situation that the front end of the matching part 501 interferes with the transmission part 302 in the automatic resetting process to cause the locking of the matching part 501 is avoided, when the matching part 501 is completely separated from the protection strip 303, the spring II 403 can push the matching part 501 to realize complete resetting, so that the automatic resetting of the matching part 501 is realized, the machining efficiency is further improved, and the situation that the front end of the matching part 501 interferes with the transmission part 302 is ensured not to occur.

In addition, as an example, as shown in fig. 9, this example solves the problem of limiting the sliding of the fitting portion 501,

because spacing 503 of fixedly connected with on the cooperation portion 501, sliding connection has spacing 503 on connecting plate I401, and the setting of spacing 503 can carry on spacingly to the slip of cooperation portion 501 to make the condition that drops from connecting plate I401 can not appear in cooperation portion 501.

In addition, as an example, as shown in fig. 10, this example solves the problem of preventing the inside of the bread from being scraped by the punching part 602,

because a plurality of through-holes that are used for placing the okra trunk need be beaten to the bread in the middle of to a plurality of trompil portions 602, if a plurality of trompil portions 602 surface is smooth, the condition of scraping the bread inside the outside of a plurality of trompil portions 602 in the process of punching appears easily, the condition of the inside unevenness of bread appears, so a plurality of interval gaps evenly set up on a plurality of trompil portions 602, a plurality of interval gaps can increase the frictional force of trompil portion 602 and bread contact, thereby prevent the condition of scraping the bread inside the outside of a plurality of trompil portions 602 in the process of punching, the condition of the inside unevenness of bread appears, thereby guarantee the effect of punching.

In addition, as an example, as shown in fig. 5 and 9, this example solves the problem of allowing okra stems to stick inside bread,

because only place the okra futilely inside the bread easy from the bread is fallen off with the okra, can't realize good sandwich effect, be provided with sponge strip 404 in this device, a plurality of sponge strips 404 set up respectively on a plurality of heart-pieces 402, before the operation is put into bread inside with the okra futilely in a plurality of heart-pieces 402, the staff can scribble honey on a plurality of heart-pieces 402, thereby make a plurality of heart-pieces 402 when putting into bread with the okra futilely, can scribble honey at the position that bread and okra do contact and make the okra do can bond with the bread, when doing the okra with the bread bonding, honey improves the taste of bread, further improve the edible effect of okra sandwich.

In addition, as an example, as shown in fig. 2 to 4, this example solves the problem of facilitating the placement of bread into the stationary cage 101 by the worker,

be provided with operating handle 203 and standing part 201 in this device, rotate on the fixed cage 101 and be connected with standing part 201, standing part 201 sets up on operating handle 203, and the staff accessible holds operating handle 203 and operates standing part 201 and rotate to open a notch on will fixing the cage 101, thereby be convenient for put into fixed cage 101 with the bread.

In addition, as an example, as shown in fig. 2 to 4, this example solves the problem of enabling the placing section 201 to fix the bread,

be provided with adsorption part 202 and fixed iron plate 104 in this device, two adsorption parts 202 of fixedly connected with on the portion 201 of placing, two fixed iron plate 104 fixed connection are on fixed cage 101, two adsorption parts 202 are the magnet material, the staff is placing the bread in fixed cage 101 after, operation portion 201 lock of placing, thereby make two adsorption parts 202 adsorb two fixed iron plate 104, thereby make the portion 201 of placing fixed, thereby make the portion 201 lock of placing fix on fixed cage 101, thereby make fixed cage 101 and the portion 201 of placing cooperate and fix the bread, thereby perfect bread processing effect.

The device also comprises a discharging disc 603, and the discharging disc 603 is fixedly connected to the connecting plate II 601.

In addition, as an example, as shown in fig. 10, this example solves the problem of discharging the bread in the plural punching sections 602,

when the punching operation is completed by the plurality of punching portions 602, a water pipe may be connected to the discharging tray 603, so that the water discharges the bread inside the plurality of punching portions 602 and the washing of the plurality of punching portions 602 is completed.

The device further comprises a screw 701, fixing plates 702, limiting columns 703, first connecting strips 704, second connecting strips 705 and connecting arc plates 706, the screw 701 is rotatably connected to the two fixing plates 702, two ends of each limiting column 703 are fixedly connected to the two fixing plates 702, the first connecting strips 704 and the second connecting strips 705 are in threaded connection to the screw 701, the first connecting strips 704 and the second connecting strips 705 are in sliding connection to the two limiting columns 703, a plurality of connecting plates II 601 are fixedly connected to the first connecting strips 704, a plurality of connecting plates I401 are fixedly connected to the second connecting strips 705, a plurality of fixing cages 101 are fixedly connected to each other and fixedly connected to the two connecting arc plates 706, and the screw 701 is externally connected with a speed reducing motor.

In addition, as an example, as shown in fig. 11 to 12, this example solves the problem of sandwiching a plurality of breads,

the staff can place the bread in a plurality of fixed cages 101 to with a plurality of okra do and place on a plurality of sandwich portions 402 on a plurality of connecting plates I401, consequently start gear motor and make lead screw 701 rotate, thereby make first connecting strip 704 move to connecting arc 706 direction, thereby make a plurality of holing portion 602 beat a plurality of holes of placing on a plurality of breads, subsequently the staff operates gear motor reversal, thereby make lead screw 701 antiport, thereby make second connecting strip 705 move to connecting arc 706 direction, thereby make a plurality of sandwich portions 402 put the okra do in the bread, thereby accomplish the sandwich processing to a plurality of breads simultaneously.