CN115245179A - Dough fermenting box for food science research engineering - Google Patents

Abstract

The invention discloses a dough proofing box just facing to the food science research engineering, and particularly relates to the technical field of food manufacturing equipment, wherein the dough proofing box comprises a bearing base, a servo motor is arranged in the bearing base, a driving rotating rod is arranged at the output end of the servo motor, and a linkage mechanism is arranged outside the driving rotating rod; link gear is including setting up six waking face string bags in the outside of drive bull stick, six waking face string bag externally mounted has the case of waking face, waking face case top is connected with the apron. The dough fermenting device adopts the linkage mechanism, dough fermenting can be carried out in batches without waiting for a long time, dough can be added midway, dough fermenting is not easy to be caused to be out of date and insufficient in fermenting time, openings are multiple corresponding to opening parts each time, the openings are small, other dough undergoing fermenting is not easy to be influenced, convenience in fermenting operation is improved, fermenting waiting time is greatly reduced, and fermenting effect is guaranteed.

Description

Dough fermenting box for food science research engineering

Technical Field

The invention relates to the technical field of food manufacturing equipment, in particular to a dough proofing box in the food science research engineering.

Background

Dough leavening refers to standing the kneaded dough for a period of time before further processing or cooking, and the process is called leavening, so that the kneaded dough is easier to process, the prepared pastries are more chewy (chewy and better in shearing resistance), soft and smooth in taste. Leavening dough, also called as leavening dough in the process of leavening dough, and in the process of scientific research on food, dough is required to be leavened by a dough leavening box.

When the dough leavening machine is actually used, the dough needs to be added with the yeast powder according to a proportion, then the dough is kneaded into a dough shape, then the dough is placed into a proofing box for proofing, and the dough can be taken out for research after the proofing is finished, so that the following defects exist;

when proofreading the case and proofreading a dough at proofreading in-process, need wait for the longer time, could put into next proofreading dough and wherein proofread the waiting again, like this when needs handle proofreading the dough in batches, and can't master the proofreading to the dough that puts into in different time quantums, waiting time is longer and put into the in-process and also can lead to the opening great, thereby influence other proofreading the dough and carry out the operation of proofreading, be unfavorable for improving the convenience of proofreading the operation, increase substantially the proofreading time, influence the effect of proofreading.

Disclosure of Invention

In order to overcome the above defects in the prior art, embodiments of the present invention provide a dough proofing box for food science research engineering, which adopts a linkage mechanism, so that dough can be proofed in batches without waiting for a long time, dough can be added midway, which is not easy to cause dough proofing and insufficient proofing time, each opening is a multi-corresponding opening part, the opening is small, which is not easy to affect other dough being proofed, which is beneficial to improving the convenience of proofing operation, greatly reducing proofing waiting time, ensuring proofing effect, and solving the problems in the background art.

In order to achieve the purpose, the invention provides the following technical scheme: a dough fermenting box in the food science research engineering is provided, which comprises a bearing base, wherein a servo motor is arranged in the bearing base, a driving rotating rod is arranged at the output end of the servo motor, and a linkage mechanism is arranged outside the driving rotating rod;

the link gear is including setting up six net bags of waking up in the outside of drive bull stick, six the net bag externally mounted of waking up has the case of waking up, it is connected with the apron to wake up the case top, sealed apron is installed in the embedding of apron top, sealed apron bottom is connected with sealed binding plate, the supporting shaft pole is installed to sealed apron top, a supporting shaft pole pot head is equipped with telescopic cylinder, telescopic cylinder top both sides all are provided with articulated support.

In a preferred embodiment, the apron top just is located sealed apron one side and installs the mounting panel, six alarm lamps are installed on the mounting panel top, alarm lamp one side is provided with the display, the timing button is installed to display one side, bee calling organ is installed to mounting panel one side, the outside swing joint between bracing axostylus axostyle position department and the apron inner wall of just keeping away from of sealed apron, telescopic cylinder about both ends respectively with articulated support and bracing axostylus axostyle swing joint between two liang, wake face bottom of the case portion and be located drive bull stick externally mounted seal bearing, seal bearing and the outside swing joint of drive bull stick.

In a preferred embodiment, wake face string bag internally mounted has a plurality of support space bars, adjacent two the top all is provided with down presses the space bar between the support space bar, it is connected with embedding mechanism to press the space bar top down, embedding mechanism is including setting up the branch that pushes down on space bar top, it installs the linkage radian pole that is used for moving down to press down the branch top, linkage radian pole top is provided with two turning blocks, the turning block top is connected with linkage branch, linkage branch one end is installed and is rotated the motor, linkage branch externally mounted has the socket linkage board, it is connected with the socket screw ring piece to cup joint linkage board bottom one side, the inside drive screw that is provided with of socket screw ring piece, the servo drive motor who is used for the drive is installed on the drive screw top, linkage branch one end runs through and cup joints linkage board one side and extends to cup jointing the board opposite side, linkage branch outside with cup joint the inside swing joint of linkage board, both ends respectively with linkage branch and linkage radian pole welded fastening between two liang about the turning block, the inside cup joints outside threaded connection with the drive screw, servo drive motor output and drive screw coaxial coupling.

In a preferred embodiment, a protective frame is installed at the top end of the bearing base and at the bottom end of the hinged support, and the socket screw ring block and the bearing base are fixed in a welding manner.

In a preferred embodiment, awakeing a incasement wall bottom and installing the heating resistor silk, awakeing a incasement portion and being provided with circulation mechanism, circulation mechanism is including setting up at the outside first connecting pipe of awakeing a case, first connecting pipe one end is connected with the arc pipe, the arc pipe inner wall is provided with a plurality of suction pipes, first suction fan is installed to the first connecting pipe other end, first suction fan output intercommunication has the second connecting pipe, second connecting pipe one end is connected with the direction arc pipe, direction arc pipe inner wall is provided with a plurality of injector heads, awakeing a bottom and being located the outside embedding of drive bull stick and installing two lower straws, the lower suction pipe bottom is connected with and inserts the pipe, insert the outside and be located two lower position departments between the straw and install the injection pipe, the second suction fan is installed on the injection pipe top, the second suction fan output intercommunication has radian dispersion pipe, dispersion pipe one end intercommunication has first radian top straw and the other end and installs second radian top straw, dispersion pipe both ends are linked together with second radian top pipe and first radian outer wall respectively, and the second radian outer wall is inhaled with the first radian and is set up the first radian and is inhaled the straw about the second radian outer wall.

The invention has the technical effects and advantages that:

1. according to the dough proofing device, the top end of the telescopic cylinder is rotated between the two hinged supports by adopting the linkage mechanism, the supporting shaft rod drives the sealing cover plate to upwards turn, dough is placed in the dough proofing net bag corresponding to the opening position, the timing button is pressed, timing data are displayed on the display, the servo motor drives the driving rotating rod to rotate sixty degrees and then is replaced to another dough proofing net bag, and the other timing button is pressed for timing, so that cyclic proofing operation can be formed, timing control can be performed on the proofing time of each dough, linkage control is formed, the dough proofing can be performed in batches without waiting for a long time, the dough can be added midway and is not easy to cause dough proofing time and insufficient proofing time, each opening is provided with multiple corresponding opening parts, the opening is small, other dough which is being proofed is not easy to influence, the convenience in proofing operation is improved, the proofing waiting time is greatly reduced, and the proofing effect is ensured;

2. the embedded mechanism is adopted to start the servo drive motor to drive the drive screw to rotate forwards, the linkage supporting rods drive the rotating blocks to enable the linkage radian rods to drive the plurality of downward pressing supporting rods to move downwards, the downward pressing supporting rods drive the downward pressing spacing strips to start to enter gaps between the two supporting spacing strips, cross elongation of dough is achieved, concave-convex elongation faces of the dough are increased, the rotation motor drives the linkage supporting rods to rotate forwards for forty-five degrees, one ends of the downward pressing spacing strips obliquely press the embedded dough, the rotation motor is started to drive the linkage supporting rods to rotate in a ninety degree reverse direction, the other ends of the downward pressing spacing strips press the embedded dough, and therefore the elongation area of the dough can be greatly increased, the proofing contact area is increased, the cross concave-convex faces are formed, proofing efficiency can be effectively improved, proofing time is shortened, and efficient proofing is achieved;

3. according to the invention, the embedding mechanism is adopted, the first suction fan enables the suction pipes to generate suction, hot air in the awake face box is sucked into the first connecting pipe, the second connecting pipe is input into the guide arc pipe and enters the spray heads to be recycled into the awake face box, so that the transverse fluidity of the air in the awake face box is increased, the lower suction pipe generates suction to enable the heated air in the awake face box to be sucked into the access pipe, the heated air is dispersed into the first arc top suction pipe and the second arc top suction pipe along the arc dispersion pipes and then recycled into the awake face box, and the vertical air fluidity is increased, so that the vertical air fluidity and the transverse air fluidity in the awake process can be effectively improved, the effect of heating the awake dough in a multi-surface flowing manner is achieved, the operation of heating the awake dough in a multi-surface uniform manner is improved, the heated dough is ensured to be uniformly received from the outside, the awake heated effect is better, the uniformity is higher, and the awake quality is favorably ensured;

to sum up, through the mutual influence of above-mentioned a plurality of effects, be difficult for causing dough to proof out time and proof the time inadequately, the opening is many corresponding opening positions at every turn, the opening is less difficult for influencing other dough that are proofed, be favorable to improving the convenience of the operation of proofing, reduce by a wide margin and proofed latency, guarantee the effect of proofing, increase the area of contact of proofing, and form the concave convex surface of crossing, can effectively improve the efficiency of proofing, reduce the time of proofing, high-efficient proofs, guarantee to be heated and evenly receive inside by the outside, it is better to proofed the effect of being heated, the homogeneity is higher, be favorable to guaranteeing the quality of proofing, can effectively improve the efficiency of proofing to sum up, and guarantee the quality of proofing, reach high-efficient high-quality effect, reduce the wait time of proofing.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention.

Fig. 2 is a schematic diagram of the internal structure of the awake face box of the invention.

Fig. 3 is a schematic structural view of the alarm lamp of the present invention.

Fig. 4 is a schematic cross-sectional structure of the dough standing box of the present invention.

Fig. 5 is a schematic structural view of the joint of the drive screw and the socket screw block of the present invention.

Fig. 6 is an enlarged schematic view of a portion a in fig. 5 according to the present invention.

Fig. 7 is a top view of the arced tube of the present invention.

FIG. 8 is a schematic view of the structure of the connection between the downdraft tube and the access tube of the present invention.

The reference signs are: 1. a bearing base; 2. a servo motor; 3. driving the rotating rod; 4. a dough standing net bag; 5. a dough standing box; 6. a cover plate; 7. sealing the cover plate; 8. a support shaft; 9. sealing the attaching plate; 10. a telescopic cylinder; 11. a hinged bracket; 12. mounting a plate; 13. an alarm lamp; 14. a display; 15. a timing button; 16. a buzzer; 17. supporting the spacing bars; 18. pressing the spacing bars downwards; 19. pressing the support rod downwards; 20. linking the arc rods; 21. rotating the block; 22. a linkage strut; 23. a linkage plate is sleeved; 24. sleeving a screw ring block; 25. a drive screw; 26. a servo drive motor; 27. a protective frame; 28. heating resistance wires; 29. an arc tube; 30. a suction tube; 31. a first connecting pipe; 32. a first suction fan; 33. a second connecting pipe; 34. guiding the arc tube; 35. an injector head; 36. a lower suction pipe; 37. an access pipe; 38. an injection pipe; 39. a second suction fan; 40. a radian dispersion pipe; 41. a first arc top straw; 42. a second arc top straw; 43. sealing the bearing; 44. the motor is rotated.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The dough fermenting box which is just opposite to the food science research engineering and is shown in the attached figures 1-8 comprises a bearing base 1, wherein a servo motor 2 is arranged in the bearing base 1, a driving rotating rod 3 is arranged at the output end of the servo motor 2, and a linkage mechanism is arranged outside the driving rotating rod 3;

link gear is including setting up at 3 outside six mesh bags 4 of waking up the face of drive bull stick, and six 4 externally mounted of mesh bag of waking up the face have a box 5 of waking up the face, and 5 top of waking up the face are connected with apron 6, and 6 top embeddings of apron are installed and are sealed apron 7, and 7 bottom connections of sealed apron have sealed veneer board 9, and supporting shaft pole 8 is installed to 7 tops of sealed apron, and 8 pot covers of supporting shaft pole have telescopic cylinder 10, and 10 top both sides of telescopic cylinder all are provided with articulated bracket 11.

In some embodiments, as shown in fig. 1-3, a mounting plate 12 is installed above the cover plate 6 and on one side of the sealing cover plate 7, six alarm lamps 13 are installed on the top end of the mounting plate 12, a display 14 is arranged on one side of the alarm lamps 13, a timing button 15 is installed on one side of the display 14, a buzzer 16 is installed on one side of the mounting plate 12, the position, far away from the supporting shaft 8, outside the sealing cover plate 7 is movably connected with the inner wall of the cover plate 6, the upper end and the lower end of the telescopic cylinder 10 are movably connected with the hinged support 11 and the supporting shaft 8 in pairs respectively, a sealing bearing 43 is installed on the bottom end of the dough waking box 5 and outside the driving rotating rod 3, the sealing bearing 43 is movably connected with the outside of the driving rotating rod 3, so that the sealing bearing 43 can play a role in stabilizing transmission for the driving rotating rod 3 and improve the edge sealing performance, dough is placed into a pocket of the dough waking up in the dough mesh 4 corresponding to the opening position, the timing button 15 is pressed, timing data is displayed on the display 14, the alarm lamps 13 are green, and the alarm lamps 13 turn red after the waking up.

In some embodiments, as shown in fig. 2-6, a plurality of supporting spacers 17 are installed inside the waking tuck 4, a downward pressing spacer 18 is installed above between two adjacent supporting spacers 17, an embedding mechanism is connected to the top end of the downward pressing spacer 18, the embedding mechanism includes a downward pressing support rod 19 installed on the top end of the downward pressing spacer 18, a linkage arc rod 20 for downward movement is installed on the top end of the downward pressing support rod 19, two rotating blocks 21 are installed on the top end of the linkage arc rod 20, a linkage support rod 22 is connected to the top end of the rotating blocks 21, a rotating motor 44 is installed at one end of the linkage support rod 22, a sleeved linkage plate 23 is installed outside the linkage support rod 22, a sleeved screw block 24 is connected to one side of the bottom end of the sleeved linkage plate 23, a driving screw 25 is installed inside the sleeved screw block 24, a driving screw 26 for driving is installed on the top end of the driving screw rod 25, one end of the linkage support rod 22 penetrates through one side of the sleeved linkage support plate 23 and extends to the other side of the sleeved linkage support plate 23, the exterior of the linkage support rod 22 is movably connected to the inside the sleeved linkage support rod 23, the linkage support rod 22, the upper and lower pressing screw rod 22, the linkage support rod drives the linkage support rod 22 to move downwards, the linkage support rod 22, the dough driving screw rod 22, the dough pressing rod 22, the linkage support rod 22, the dough pressing screw rod drives the dough pressing rod to move downwards, the dough pressing rod to drive the dough to move downwards, the dough pressing spacer 25, the dough pressing rod to drive the dough pressing rod to move downwards, the dough pressing rod 25, the dough pressing rod to drive the dough pressing rod to move downwards, the embedded dough is pressed obliquely at one end of the pressing spacing bar 18, the motor 44 is rotated to drive the linkage supporting rod 22 to rotate ninety degrees, and the embedded dough is pressed at the other end of the pressing spacing bar 18, so that the contact area of the dough is increased.

In some embodiments, as shown in fig. 1, a protective frame 27 is installed at the top end of the bearing base 1 and at the bottom end of the hinge support 11, the socket screw ring block 24 is fixed to the bearing base 1 by welding, and the protective frame 27 supports the hinge support 11 and protects the driving screw 25.

In some embodiments, as shown in fig. 7-8, the bottom end of the inner wall of the awake face box 5 is installed with a heating resistance wire 28, the exterior of the awake face box 5 is provided with a circulation mechanism, the circulation mechanism comprises a first connecting pipe 31 arranged at the exterior of the awake face box 5, one end of the first connecting pipe 31 is connected with an arc-shaped pipe 29, the inner wall of the arc-shaped pipe 29 is provided with a plurality of suction pipes 30, the other end of the first connecting pipe 31 is installed with a first suction fan 32, the output end of the first suction fan 32 is communicated with a second connecting pipe 33, one end of the second connecting pipe 33 is connected with a guide arc-shaped pipe 34, the inner wall of the guide arc-shaped pipe 34 is provided with a plurality of spray heads 35, the bottom end of the awake face box 5 and the exterior of the driving rotating rod 3 are embedded with two lower suction pipes 36, the bottom end of the lower suction pipe 36 is connected with an access pipe 37, the exterior of the access pipe 37 and the location between the two lower suction pipes 36 is installed with an injection pipe 38, the top end of the injection pipe 38 is installed with a second suction fan 39, the output end of the second suction fan 39 is communicated with a radian dispersion pipe 40, one end of the radian dispersion pipe 40 is communicated with a first radian top suction pipe 41, the other end of the radian dispersion pipe is provided with a second radian top suction pipe 42, the two ends of the radian dispersion pipe 40 are respectively communicated with the second radian top suction pipe 42 and the first radian top suction pipe 41 in pairs, the second radian top suction pipe 42 and the first radian top suction pipe 41 are symmetrically arranged around the middle part of the outer wall of the first radian top suction pipe 41, so that the first suction fan 32 enables the plurality of suction pipes 30 to generate suction, hot air in the dough fermenting box 5 is sucked into the first connecting pipe 31, the second connecting pipe 33 is input into the guide arc pipe 34, enters the plurality of injection heads 35 through the guide arc pipe 34 and then circulates into the dough fermenting box 5, the second suction fan 39 is started to enable the two lower suction pipes 36 to generate suction, and then the heated air in the dough fermenting box 5 is introduced into the access pipe 37, the water is dispersed into the first cambered top suction pipe 41 and the second cambered top suction pipe 42 along the cambered dispersion pipe 40 and then is recycled into the dough fermenting box 5, so that vertical flow circulation and transverse marginal flow heating are formed.

The working principle of the invention is as follows: when dough is placed, flour and yeast powder can be mixed, so that after dough is formed through kneading, the heating resistance wire 28 is electrified to heat the interior of the dough standing box 5, the telescopic cylinder 10 can be started to drive the supporting shaft lever 8 to tilt upwards, the top end of the telescopic cylinder 10 rotates between the two hinged supports 11, the supporting shaft lever 8 drives the sealing cover plate 7 to turn upwards, the sealing cover plate 7 drives the sealing attachment plate 9 to turn upwards, the other side of the sealing cover plate 7 starts to rotate on the inner wall of the cover plate 6, the sealing cover plate 7 can be turned over and opened, then the dough is placed into the dough standing net bag 4 corresponding to the opening position, then the timing button 15 on the mounting plate 12 is pressed, timing is started, and timing data are displayed on the display 14, the alarm lamp 13 is green, then the servo motor 2 is started to drive the driving rotary rod 3 to rotate, the driving rotary rod 3 drives the six dough waking net bags 4 to rotate, sixty degrees can be rotated and then the dough waking net bag 4 is replaced on another dough waking net bag 4, the dough is placed in the dough waking net bag 4, and then another timing button 15 is pressed for timing, according to the steps, when the bearing base 1 drives the driving rotary rod 3 to rotate sixty degrees each time, a circle of rotation can be formed, namely the six dough waking net bags 4 can be filled with the dough, and each dough can perform dough waking time timing operation, then the telescopic cylinder 10 is started to drive the supporting shaft rod 8 to be pushed downwards, and the sealing cover plate 7 can drive the sealing and pasting plate 9 to cover the dough waking box 5;

when dough is stretched, when a dough standing net pocket 4 containing dough is positioned below a pressing spacer bar 18, the driving of a servo motor 2 can be stopped, then a servo driving motor 26 is started to drive a driving screw 25 to rotate forwards, the driving screw 25 drives a sleeving screw ring block 24 to move downwards under the action of threads, the sleeving screw ring block 24 drives a sleeving linkage plate 23 to move downwards, the sleeving linkage plate 23 drives a linkage supporting bar 22 to move downwards, the linkage supporting bar 22 drives a rotating block 21 to enable a linkage radian rod 20 to move downwards, the linkage radian rod 20 drives a plurality of pressing supporting bars 19 to move downwards, the pressing supporting bar 19 drives the pressing spacer bar 18 to start to enter a gap between two supporting spacer bars 17, the dough supported on the supporting spacer bars 17 can be extruded in a cross mode, the dough is stretched in a radian cross mode, concave-convex stretching faces of the dough are increased, the linkage supporting bar 22 is driven to move forwards by starting the linkage rotating motor 44 to drive the linkage supporting bar 22 to move forwards and backwards, the linkage supporting bar 22 drives the linkage rotating block 21 to rotate the linkage supporting bar 20 to rotate obliquely, the dough standing net pocket 20 to increase the dough standing area, the dough standing face pressing area, the dough pressing motor 18 is started to drive the pressing motor 18 to rotate backwards, and the dough standing net pocket 4 to increase, and the dough standing area, the dough standing face pressing motor 18 is increased, the dough pressing motor 18 is started to drive the dough pressing bar 18 to rotate backwards;

during circulation heating, the first suction fan 32 is started to enable the suction pipes 30 to generate suction, namely hot air in the awake face box 5 can be sucked into the first connecting pipe 31, enters the second connecting pipe 33 along the first connecting pipe 31, is input into the guide arc pipe 34 through the second connecting pipe 33, enters the spray heads 35 through the guide arc pipe 34 and is recycled into the awake face box 5, the transverse fluidity of the air in the awake face box 5 is increased, then the second suction fan 39 is started to enable the two lower suction pipes 36 to generate suction to enable the heated air in the awake face box 5 to enter the access pipe 37, is filled into the injection pipe 38 through the access pipe 37, is injected into the radian dispersion pipe 40 along the injection pipe 38, and is dispersed into the first radian top suction pipe 41 and the second radian top suction pipe 42 along the radian dispersion pipe 40 and is recycled into the awake face box 5, so that the vertical air fluidity is formed;

during the timing warning, after the time of timing reached appointed time, alarm lamp 13 became red, and bee calling organ 16 sends the warning simultaneously, reminds operating personnel to take out the dough according to the mark position that corresponds with dough that the completion will proofed like this.

The points to be finally explained are: first, in the description of the present application, it should be noted that, unless otherwise specified and limited, the terms "mounted," "connected," and "connected" should be understood broadly, and may be a mechanical connection or an electrical connection, or a communication between two elements, and may be a direct connection, and "upper," "lower," "left," and "right" are only used to indicate a relative positional relationship, and when the absolute position of the object to be described is changed, the relative positional relationship may be changed;

secondly, the method comprises the following steps: in the drawings of the disclosed embodiment of the invention, only the structures related to the disclosed embodiment are related, other structures can refer to common design, and the same embodiment and different embodiments of the invention can be combined mutually under the condition of no conflict;

and finally: the present invention is not limited to the above preferred embodiments, but rather, any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. The utility model provides a to dough proof case in food science research engineering, includes and holds dress base (1), its characterized in that: a servo motor (2) is installed inside the bearing base (1), a driving rotating rod (3) is installed at the output end of the servo motor (2), and a linkage mechanism is arranged outside the driving rotating rod (3);

link gear is including setting up six net bag (4) of waking up in drive bull stick (3) outside, six wake up a net bag (4) externally mounted and wake up face case (5), it is connected with apron (6) to wake up face case (5) top, sealed apron (7) are installed in the embedding of apron (6) top, sealed apron (7) bottom is connected with sealed plywood (9), sealed apron (7) top is installed and is supported axostylus axostyle (8), a pot head of supporting axostylus axostyle (8) is equipped with telescopic cylinder (10), telescopic cylinder (10) top both sides all are provided with articulated bracket (11).

2. The proving cabinet as claimed in claim 1, wherein the proving cabinet is adapted to be used for proving dough for food science research engineering, and comprises: apron (6) top just is located sealed apron (7) one side and installs mounting panel (12), six alarm lamps (13) are installed on mounting panel (12) top, alarm lamp (13) one side is provided with display (14), timing button (15) are installed to display (14) one side, buzzer (16) are installed to mounting panel (12) one side.

3. The box of claim 1 for proofing dough in research projects on food science, wherein: the outer part of the sealing cover plate (7) is far away from the position of the supporting shaft lever (8) and is movably connected with the inner wall of the cover plate (6), and the upper end and the lower end of the telescopic cylinder (10) are respectively movably connected with the hinged support (11) and the supporting shaft lever (8) in pairs.

4. The box of claim 1 for proofing dough in research projects on food science, wherein: the dough standing box (5) bottom just is located drive bull stick (3) externally mounted sealing bearing (43), sealing bearing (43) and drive bull stick (3) outside swing joint.

5. The box of claim 1 for proofing dough in research projects on food science, wherein: waking up a string bag (4) internally mounted and having a plurality of support space bar (17), adjacent two support between space bar (17) the top all is provided with down and presses space bar (18), it is connected with embedding mechanism to press space bar (18) top down, embedding mechanism is including setting up pushing down branch (19) on space bar (18) top down, push down link radian pole (20) that are used for moving down are installed on branch (19) top, link radian pole (20) top is provided with two turning blocks (21), turning block (21) top is connected with linkage branch (22), rotation motor (44) are installed to linkage branch (22) one end, linkage branch (22) externally mounted has and cup joints linkage board (23), cup joint linkage board (23) bottom one side and be connected with and cup joint spiral ring piece (24), cup joint spiral ring piece (24) inside and be provided with drive screw (25), drive screw (25) top is installed and is used for driven servo drive motor (26).

6. The box of claim 5 for proofing dough in food science research projects, wherein: one end of the linkage supporting rod (22) penetrates through one side of the sleeved linkage plate (23) and extends to the other side of the sleeved linkage plate (23), the outside of the linkage supporting rod (22) is movably connected with the inside of the sleeved linkage plate (23), and the upper end and the lower end of the rotating block (21) are respectively welded and fixed with the linkage supporting rod (22) and the linkage radian rods (20).

7. The proving cabinet as claimed in claim 5, wherein the proving cabinet is adapted to be used for proving dough for food science research engineering, and comprises: the interior of the socket screw ring block (24) is in threaded connection with the exterior of the drive screw rod (25), and the output end of the servo drive motor (26) is in coaxial transmission connection with the drive screw rod (25).

8. The proving cabinet as claimed in claim 1, wherein the proving cabinet is adapted to be used for proving dough for food science research engineering, and comprises: the top end of the bearing base (1) is positioned at the bottom end of the hinged support (11) and is provided with a protective frame (27), and the socket screw ring block (24) and the bearing base (1) are fixed in a welding mode.

9. The box of claim 1 for proofing dough in research projects on food science, wherein: a heating resistance wire (28) is arranged at the bottom end of the inner wall of the awake face box (5), a circulating mechanism is arranged outside the awake face box (5), the circulating mechanism comprises a first connecting pipe (31) arranged outside the awake face box (5), one end of the first connecting pipe (31) is connected with an arc-shaped pipe (29), the inner wall of the arc-shaped pipe (29) is provided with a plurality of suction pipes (30), the other end of the first connecting pipe (31) is provided with a first suction fan (32), the output end of the first suction fan (32) is communicated with a second connecting pipe (33), one end of the second connecting pipe (33) is connected with a guide arc pipe (34), a plurality of injection heads (35) are arranged on the inner wall of the guide arc pipe (34), two lower suction pipes (36) are embedded and installed at the bottom end of the dough standing box (5) and outside the driving rotating rod (3), the bottom end of the lower suction pipe (36) is connected with an access pipe (37), an injection pipe (38) is arranged outside the access pipe (37) and between the two lower suction pipes (36), the top end of the injection pipe (38) is provided with a second suction fan (39), the output end of the second suction fan (39) is communicated with a radian dispersion pipe (40), one end of the radian dispersion pipe (40) is communicated with a first radian top suction pipe (41) and the other end is provided with a second radian top suction pipe (42).

10. The box of claim 9 for proofing dough in research projects on food science, wherein: the two ends of the radian dispersion pipe (40) are respectively communicated with the second radian top suction pipe (42) and the first radian top suction pipe (41) in pairs, and the second radian top suction pipe (42) and the first radian top suction pipe (41) are symmetrically arranged relative to the middle part of the outer wall of the first radian top suction pipe (41).

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