CN108902225B - Food fermentation is with quantitative formula fermenting installation that kneads dough - Google Patents

Abstract

The invention discloses a quantitative dough kneading fermentation device for food fermentation, which structurally comprises a high-precision quantitative fermentation device, fixed supporting blocks, a linking base, a fermentation liquid injection port, a feeding cover plate, a water injection port and a water storage tank, wherein the fixed supporting blocks are arranged at the lower end of the linking base and are connected in a welding mode, the high-precision quantitative fermentation device is arranged at the upper end of the linking base and is connected in a welding mode, the lower end of the feeding cover plate is embedded and arranged at the upper end of the high-precision quantitative fermentation device and is in transition fit, and the feeding cover plate is positioned above the linking base. The flour fermentation device is internally provided with equipment for directly measuring the weight of flour, can mix water relatively according to the weight of the flour, effectively improves the quality of fermented flour, and is provided with a structure for automatically timing fermentation time, thereby being beneficial to preventing the flour from deteriorating due to untimely taking out of the flour.

Description

Food fermentation is with quantitative formula fermenting installation that kneads dough

Technical Field

The invention relates to the field of food fermentation, in particular to a quantitative dough kneading fermentation device for food fermentation.

Background

At present, flour is generally required to be manually put into a fermentation device for fermentation of flour, then water is added, fermentation liquor is added, and finally fermentation is waited. However, the present noodle fermentation apparatus has the following disadvantages:

1. when measuring the flour volume that needs the fermentation, adopt the manual work to measure, measure the back, shift flour to inside the fermenting installation, the easy adhesion of flour is on measuring equipment to make the volume inaccuracy of flour.

2. Meanwhile, in the fermentation process, the fermentation time is manually timed, so that the fermentation finished product is easy to deteriorate due to the fact that the fermentation finished product is not taken out in time.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide a quantitative dough kneading fermentation device for food fermentation, which aims to solve the problems that in the prior art, when the amount of flour to be fermented is measured, manual measurement is adopted, the flour is transferred into the fermentation device after the measurement is finished, the flour is easy to adhere to measurement equipment, so that the amount of the flour is not accurate, and meanwhile, in the fermentation process, the fermentation time is manually timed, so that the fermented finished product is easy to deteriorate due to the fact that the fermented finished product is not taken out in time.

In order to achieve the purpose, the invention is realized by the following technical scheme:

a quantitative dough kneading fermentation device for food fermentation structurally comprises a high-precision quantitative fermentation device, a fixed supporting block, a connecting base, a fermentation liquid injection port, a feeding cover plate, a water injection port and a water storage tank, wherein the fixed supporting block is arranged at the lower end of the connecting base and connected with the connecting base in a welding mode, the high-precision quantitative fermentation device is arranged at the upper end of the connecting base and connected with the connecting base in a welding mode, the lower end of the feeding cover plate is embedded and installed at the upper end of the high-precision quantitative fermentation device in a transition fit mode, the feeding cover plate is positioned above the connecting base, the water injection port is arranged at the upper end of the water storage tank and is of an integrated structure, the water storage tank is positioned at the upper end of the high-precision quantitative fermentation device and connected with the high-precision quantitative fermentation device in a welding mode, the water storage, high accuracy ration fermenting installation includes material measuring mechanism, adds water mechanism, auxiliary drive mechanism, mechanical drive mechanism, ends and flows trigger mechanism, rivers stop mechanism, fermentation timing mechanism, material measuring mechanism is located the auxiliary drive mechanism top, material measuring mechanism passes through the electricity with adding water mechanism and is connected, auxiliary drive mechanism adopts hinge swing joint with mechanical drive mechanism, mechanical drive mechanism locates and ends and flows the trigger mechanism below and be connected through driven mode, it locates rivers stop mechanism lower extreme and is connected through the mode of meshing to end and flow trigger mechanism, fermentation timing mechanism is connected through the complex mode with ending and flowing trigger mechanism.

As a further scheme of the invention, the material measuring mechanism comprises a material fermentation cavity, a material supporting plate, a compression spring, a supporting compression bar, a one-way block, a fermentation liquor channel, a high-precision electronic scale, a data processing controller and a powerful electromagnet, the material supporting plate is embedded in the material fermentation cavity and is in transition fit, the supporting pressure rod is arranged at the lower end of the material supporting plate and is connected with the material supporting plate in a welding way, the compression spring is arranged at the lower end of the material supporting plate and is connected in a transmission way, the one-way block is arranged in the fermentation liquid channel and is connected in a matching way, the high-precision electronic scale is positioned below the supporting pressure rod and is in electric signal connection with the data processing controller, the data processing controller is in electrical signal connection with the powerful electromagnet, and the data processing controller is in electrical signal connection with the water adding mechanism.

As a further scheme of the invention, the water adding mechanism comprises a mechanical turntable, a transmission pull rod, a sealing brake block, a driving motor, an output rotating shaft, a connecting cable and a positioning block, wherein the mechanical turntable and the output rotating shaft are positioned on the same axis and connected in a welding mode, one end of the transmission pull rod is movably connected with a hinge of the mechanical turntable, the other end of the transmission pull rod is movably connected with a movable hinge of the sealing brake block, the driving motor is connected with an electric signal of the connecting cable, the driving motor is positioned above the positioning block, and the mechanical turntable is connected with the driving motor in a transmission mode through the output rotating shaft.

As a further scheme of the invention, the auxiliary transmission mechanism comprises a metal moving plate, a connecting gear, a positioning rotating shaft, a moving toothed belt, a toothed belt positioning block, a transmission rotating column, a mechanical swinging rod, a track and a fixed wire coil, the metal moving plate is arranged above the moving toothed belt and connected in a welding mode, the connecting gear and the positioning rotating shaft are positioned on the same axis and connected in a transmission mode, the movable toothed belt is connected with the connecting gear in a meshing manner, the toothed belt positioning block is arranged at the lower end of the movable toothed belt and is in transition fit, the transmission rotary column and the track are of an integrated structure, the transmission rotary column and the positioning rotary shaft are positioned on the same axis and are connected in a welding way, the fixed wire coil is movably connected with the mechanical transmission mechanism, and the mechanical swinging rod is arranged at the lower end of the track and is connected in a sliding mode.

As a further scheme of the present invention, the mechanical transmission mechanism includes a traction wire, a mechanical connection plate, a shifting iron rod, a movable pull rod, a sliding block, a sliding slot, an extension spring, a positioning installation block, and a positioning connection rod, the traction wire is connected with the shifting iron rod in a mechanical transmission manner, the mechanical connection plate is disposed at the lower end of the shifting iron rod and is movably connected through a hinge, one end of the movable pull rod is connected with the shifting iron rod in a transmission manner, the other end of the movable pull rod is movably connected with the sliding block through a hinge, the sliding slot is disposed at the lower end of the sliding block and is connected through a sliding manner, the extension spring is disposed at the left end of the sliding block and is connected through a welding manner, and the positioning installation block is disposed at the lower end of the positioning connection rod and is connected.

As a further scheme of the present invention, the flow stopping triggering mechanism includes a linking shifting block, a fixed shaft, a transmission push rod, a hinge transmission rod, a liquid extrusion rod and a transmission gear, the linking shifting block is disposed at the lower end of the fixed shaft and is connected in a transmission manner, one end of the transmission push rod is connected with the fixed shaft in a welding manner, the other end of the transmission push rod is connected with the hinge transmission rod in a hinge moving manner, the liquid extrusion rod is disposed at the upper end of the hinge transmission rod and is connected in a hinge moving manner, the hinge transmission rod is located at the upper right side of the fixed shaft, and the transmission gear is connected with the water flow stopping mechanism in a meshing.

As a further scheme of the invention, the water flow stopping mechanism comprises a movable rocker, a linkage metal plate, a linkage sliding rod, a water inlet, a sealing ball body, a water flow channel and a transmission toothed bar, wherein the movable rocker is arranged at the upper end of the transmission toothed bar and is movably connected through a hinge, the linkage metal plate is arranged at the lower end of the linkage sliding bar and is connected through a welding mode, the water inlet and the water flow channel are of an integrated structure, and the sealing ball body is arranged below the water inlet and is in transition fit.

As a further aspect of the present invention, the fermentation timing mechanism includes a liquid flowing chamber, a floating plate, a timer, and a buzzer, the floating plate is disposed inside the liquid flowing chamber and is in transition fit, the timer is electrically connected to the buzzer, and the buzzer is located below the floating plate.

Advantageous effects of the invention

The invention relates to a quantitative dough kneading fermentation device for food fermentation, which is characterized in that a feeding cover plate is opened, random amount of flour is placed in a material fermentation cavity, a material supporting plate moves downwards under the action of the flour, a supporting pressure rod at the lower end of the material supporting plate is linked, the supporting pressure rod is contacted with a high-precision electronic scale in the downward moving process, the high-precision electronic scale weighs the weight of the flour, the weighed data is transmitted to a data processing controller, the data processing controller controls a driving motor to drive an output rotating shaft to rotate for a specific number of turns, the output rotating shaft transmits the rotating mechanical energy to a mechanical rotating disc, the mechanical rotating disc generates action force on a transmission pull rod, the transmission pull rod drives a sealing brake block to release the restriction on a water flow channel, quantitative water flow flows into the material fermentation cavity to be mixed, and when the proportion of water and the flour reaches a, the data processing controller leads the powerful electromagnet to be conductive, the powerful electromagnet generates adsorption force on the metal moving plate to enable the metal moving plate to move upwards, the metal moving plate drives the moving toothed belt in the process of moving upwards, the moving toothed belt drives the meshed connecting gear to rotate and is linked with the positioning rotating shaft of the connecting gear, the positioning rotating shaft transmits rotating mechanical energy to the transmission rotating column, the mechanical swinging rod swings along a track on the transmission rotating column, the mechanical swinging rod generates pulling force on a pulling line in the swinging process, the pulling line transmits the pulling force to the poking iron rod, the poking iron rod rotates in a small amplitude manner, the poking iron rod is contacted with the connecting poking block in the rotating process, the transmission gear rotates anticlockwise, the transmission gear drives the meshed transmission toothed rod, the transmission toothed rod transmits acting force to the right end of the movable seesaw, and the left end of the movable seesaw is lifted upwards, and produce thrust to the linkage metal sheet, the linkage metal sheet will drive the linkage slide bar and shift up, make the linkage slide bar drive the sealed spheroid and block up the water inlet, the rotation that links up the shifting block simultaneously drives the transmission push rod of integrated configuration, the transmission push rod passes through the hinge transfer line and produces ascending thrust to the liquid extrusion pole, the liquid extrusion pole extrudees the liquid in the liquid flow intracavity, liquid extrudees the floating plate, make the connecting rod of floating plate lower extreme and time-recorder take place the contact, the time-recorder begins to carry out the timing to the fermentation time, after the timing finishes, bee calling organ sends out the police dispatch newspaper, the suggestion takes out the face of fermenting.

The quantitative dough kneading fermentation device for food fermentation is internally provided with equipment for directly measuring the weight of flour, can mix water relatively according to the weight of the flour, effectively improves the quality of fermented dough, has a structure for automatically timing fermentation time, and is beneficial to preventing the dough from deteriorating due to the fact that the dough is not taken out in time.

Drawings

Other features, objects and advantages of the invention will become more apparent from a reading of the detailed description of non-limiting embodiments with reference to the attached drawings.

In the drawings:

FIG. 1 is a schematic view showing the construction of a quantitative dough-kneading fermentation apparatus for food fermentation according to the present invention.

FIG. 2 is a plan view showing the structure of a high-precision quantitative fermentation apparatus according to the present invention.

FIG. 3 is a detailed structural diagram of a high-precision quantitative fermentation device according to the present invention.

FIG. 4 is a diagram showing the operation of a high-precision quantitative fermentation apparatus according to the present invention.

In the figure: high-precision quantitative fermentation device-1, fixed supporting blocks-2, a connecting base-3, a fermentation liquor injection port-4, a feeding cover plate-5, a water injection port-6, a water storage tank-7, a material measuring mechanism-11, a water adding mechanism-12, an auxiliary transmission mechanism-13, a mechanical transmission mechanism-14, a flow stopping trigger mechanism-15, a water flow stopping mechanism-16, a fermentation timing mechanism-17, a material fermentation cavity-111, a material supporting plate-112, a compression spring-113, a supporting pressure rod-114, a one-way block-115, a fermentation liquor channel-116, a high-precision electronic scale-117, a data processing controller-118, a powerful electromagnet-119, a mechanical turntable-121, a transmission pull rod-122, a sealing brake block-123, a water outlet-6, a, A driving motor-124, an output rotating shaft-125, a connecting cable-126, a positioning block-127, a metal moving plate-131, a connecting gear-132, a positioning rotating shaft-133, a moving toothed belt-134, a toothed belt positioning block-135, a transmission rotating column-136, a mechanical swinging rod-137, a track-138, a fixed wire coil-139, a mechanical transmission mechanism-14 comprising a pull wire-141, a mechanical connecting plate-142, a toggle iron rod-143, a movable pull rod-144, a sliding block-145, a sliding groove-146, a tension spring-147, a positioning installation block-148, a positioning connecting rod-149, a connecting toggle block-151, a fixed shaft-152, a transmission push rod-153, a hinge transmission rod-154, a liquid extrusion rod-155, a transmission gear-156, a connecting rod, The device comprises a movable rocker-161, a linkage metal plate-162, a linkage slide bar-163, a water inlet-164, a sealing ball-165, a water flow channel-166, a transmission toothed bar-167, a liquid flow cavity-171, a floating plate-172, a timer-173 and a buzzer-174.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further described with the specific embodiments.

As shown in FIGS. 1 to 4, the present invention provides a quantitative dough-kneading fermentation device for food fermentation, which comprises:

a quantitative dough kneading fermentation device for food fermentation structurally comprises a high-precision quantitative fermentation device 1, a fixed supporting block 2, a connecting base 3, a fermentation liquid injection port 4, a feeding cover plate 5, a water injection port 6 and a water storage tank 7, wherein the fixed supporting block 2 is arranged at the lower end of the connecting base 3 and connected in a welding mode, the high-precision quantitative fermentation device 1 is arranged at the upper end of the connecting base 3 and connected in a welding mode, the lower end of the feeding cover plate 5 is embedded in the upper end of the high-precision quantitative fermentation device 1 and is in transition fit, the feeding cover plate 5 is arranged above the connecting base 3, the water injection port 6 is arranged at the upper end of the water storage tank 7 and is of an integrated structure, the water storage tank 7 is arranged at the upper end of the high-precision quantitative fermentation device 1 and is connected in a welding mode, and the water storage tank 7 is arranged, the left end of the fermentation liquor injection port 4 is embedded in the right end of the high-precision quantitative fermentation device 1 and is in transition fit, the high-precision quantitative fermentation device 1 comprises a material measuring mechanism 11, a water adding mechanism 12, an auxiliary transmission mechanism 13, a mechanical transmission mechanism 14, a flow stopping trigger mechanism 15, a water flow stopping mechanism 16 and a fermentation timing mechanism 17, the material measuring mechanism 11 is positioned above the auxiliary transmission mechanism 13, the material measuring mechanism 11 is electrically connected with the water adding mechanism 12, the auxiliary transmission mechanism 13 is movably connected with the mechanical transmission mechanism 14 through a hinge, the mechanical transmission mechanism 14 is arranged below the flow stopping trigger mechanism 15 and is connected in a transmission mode, the flow stopping trigger mechanism 15 is arranged at the lower end of the water flow stopping mechanism 16 and is connected in a meshing mode, and the fermentation timing mechanism 17 is connected with the flow stopping trigger mechanism 15 in a matching mode, the material measuring mechanism 11 comprises a material fermentation cavity 111, a material supporting plate 112, a compression spring 113, a supporting pressure lever 114, a one-way block 115, a fermentation liquor channel 116, a high-precision electronic scale 117, a data processing controller 118 and a powerful electromagnet 119, wherein the material supporting plate 112 is embedded and installed inside the material fermentation cavity 111 and is in transition fit, the supporting pressure lever 114 is arranged at the lower end of the material supporting plate 112 and is connected with the material supporting plate 112 in a welding manner, the compression spring 113 is arranged at the lower end of the material supporting plate 112 and is connected with the material supporting plate 112 in a transmission manner, the one-way block 115 is arranged inside the fermentation liquor channel 116 and is in fit connection, the high-precision electronic scale 117 is positioned below the supporting pressure lever 114, the high-precision electronic scale 117 is in electrical signal connection with the data processing controller 118, the data processing controller 118 is in electrical signal connection with the, the watering mechanism 12 comprises a mechanical rotating disc 121, a transmission pull rod 122, a sealing gate block 123, a driving motor 124, an output rotating shaft 125, a connecting cable 126 and a positioning block 127, wherein the mechanical rotating disc 121 and the output rotating shaft 125 are positioned on the same axis and connected in a welding manner, one end of the transmission pull rod 122 is movably connected with the mechanical rotating disc 121 through a hinge, the other end of the transmission pull rod 122 is movably connected with the sealing gate block 123 through a hinge, the driving motor 124 is connected with the connecting cable 126 through an electric signal, the driving motor 124 is positioned above the positioning block 127, the mechanical rotating disc 121 is connected with the driving motor 124 through the output rotating shaft 125 through a transmission manner, the auxiliary transmission mechanism 13 comprises a metal moving plate 131, a connecting gear 132, a positioning rotating shaft 133, a moving toothed belt 134, a toothed belt positioning block 135, a transmission rotating column 136, a mechanical swinging rod 137, a track 138, the metal moving plate 131 is arranged above the moving toothed belt 134 and connected with the moving toothed belt 134 in a welding manner, the engaging gear 132 and the positioning rotating shaft 133 are positioned on the same axis and connected with each other in a transmission manner, the moving toothed belt 134 and the engaging gear 132 are connected with each other in a meshing manner, the toothed belt positioning block 135 is arranged at the lower end of the moving toothed belt 134 and is in transition fit with each other, the transmission rotary column 136 and the track 138 are of an integrated structure, the transmission rotary column 136 and the positioning rotating shaft 133 are positioned on the same axis and connected with each other in a welding manner, the fixed wire coil 139 and the mechanical transmission mechanism 14 are movably connected with each other, the mechanical swinging rod 137 is arranged at the lower end of the track 138 and is connected with each other in a sliding manner, and the mechanical transmission mechanism 14 comprises a pulling wire 141, a mechanical connecting disc 142, a shifting iron rod 143, the traction line 141 is connected with the toggle iron rod 143 in a mechanical transmission manner, the mechanical connection disc 142 is arranged at the lower end of the toggle iron rod 143 and is movably connected with the toggle iron rod 143 in a hinge manner, one end of the movable pull rod 144 is connected with the toggle iron rod 143 in a transmission manner, the other end of the movable pull rod 144 is movably connected with the sliding block 145 in a hinge manner, the sliding groove 146 is arranged at the lower end of the sliding block 145 and is connected with the sliding block in a sliding manner, the traction spring 147 is arranged at the left end of the sliding block 145 and is connected with the sliding block in a welding manner, the positioning installation block 148 is arranged at the lower end of the positioning engagement rod 149 and is connected with the positioning engagement rod 149 in a fixed manner, and the flow stopping trigger mechanism 15 comprises an engagement toggle block 151, a fixed shaft 152, a transmission push rod 153, a hinge transmission rod, The transmission gear 156, the linking shifting block 151 is disposed at the lower end of the fixed shaft 152 and is connected in a transmission manner, one end of the transmission push rod 153 is connected with the fixed shaft 152 in a welding manner, the other end of the transmission push rod 153 is connected with the hinge transmission rod 154 in a hinge movable manner, the liquid extrusion rod 155 is disposed at the upper end of the hinge transmission rod 154 and is connected in a hinge movable manner, the hinge transmission rod 154 is located at the upper right side of the fixed shaft 152, the transmission gear 156 is connected with the water flow stopping mechanism 16 in a meshing manner, the water flow stopping mechanism 16 comprises a movable rocker 161, a linkage metal plate 162, a linkage sliding rod 163, a water inlet 164, a sealing ball 165, a water flow channel 166 and a transmission toothed rod 167, the movable rocker 161 is disposed at the upper end of the transmission toothed rod 167 and is connected in a hinge movable manner, and the linkage metal plate 162 is disposed at the lower, the water inlet 164 and the water flow channel 166 are of an integrated structure, the sealing ball 165 is arranged below the water inlet 164 and is in transition fit, the fermentation timing mechanism 17 comprises a liquid flow cavity 171, a floating plate 172, a timer 173 and a buzzer 174, the floating plate 172 is arranged inside the liquid flow cavity 171 and is in transition fit, the timer 173 is in electrical signal connection with the buzzer 174, and the buzzer 174 is arranged below the floating plate 172.

The invention relates to a quantitative dough kneading fermentation device for food fermentation, which has the working principle that: the feeding cover plate 5 is opened, flour with random amount is placed into the material fermentation cavity 111, the material supporting plate 112 moves downwards under the action of the flour, the supporting pressure rod 114 at the lower end of the material supporting plate 112 is linked, the supporting pressure rod 114 contacts with the high-precision electronic scale 117 in the downward moving process, the high-precision electronic scale 117 weighs the weight of the flour, the weighed data are transmitted to the data processing controller 118, the data processing controller 118 controls the driving motor 124 to drive the output rotating shaft 125 to rotate for a specific number of turns, the output rotating shaft 125 transmits the rotating mechanical energy to the mechanical turntable 121, the mechanical turntable 121 generates an action force on the driving pull rod 122, the driving pull rod 122 drives the sealing brake block 123 to remove the limitation on the water flow channel 166, quantitative water flows into the material fermentation cavity 111 to be mixed, when the proportion of the water and the flour reaches a certain value, the data processing controller 118 enables the powerful electromagnet 119 to be conductive, the powerful electromagnet 119 generates an adsorption force on the metal moving plate 131, so that the metal moving plate 131 moves upwards, the metal moving plate 131 drives the moving toothed belt 134 in the process of moving upwards, the moving toothed belt 134 drives the engaged engaging gear 132 to rotate, the moving toothed belt is linked with the positioning rotating shaft 133 on the same axis of the engaging gear 132, so that the positioning rotating shaft 133 transmits the rotating mechanical energy to the transmission rotating column 136, the mechanical swinging rod 137 swings along the track 138 on the transmission rotating column 136, the mechanical swinging rod 137 generates a pulling force on the pulling line 141 in the swinging process, the pulling line 141 transmits the pulling force to the toggle iron rod 143, the toggle iron rod 143 rotates in a small amplitude, the rotating oscillating rod contacts with the engaging shifting block 151 in the rotating process, so that the transmission gear 156 rotates counterclockwise, the transmission gear 156 drives the engaged transmission toothed rod 167, and the transmission toothed rod 167 transmits the acting force to the right end of the movable plate 161, the left end of the movable rocker 161 is tilted upwards, and generates thrust to the linkage metal plate 162, the linkage metal plate 162 drives the linkage slide rod 163 to move upwards, so that the linkage slide rod 163 drives the sealing ball 165 to block the water inlet 164, meanwhile, the rotation of the connecting block 151 drives the transmission push rod 153 with an integrated structure, the transmission push rod 153 generates upward thrust to the liquid extrusion rod 155 through the hinge transmission rod 154, the liquid extrusion rod 155 extrudes liquid in the liquid flowing cavity 171, the liquid extrudes the floating plate 172, so that the connecting rod at the lower end of the floating plate 172 is contacted with the timer 173, the timer 173 starts to time the fermentation time, after the time is timed, the buzzer 174 gives an alarm to prompt that the fermented surface is taken out.

The invention solves the problem that when the quantity of flour to be fermented is measured in the prior art, manual measurement is adopted, the flour is transferred into a fermentation device after the measurement is finished, the flour is easy to adhere to measurement equipment, so that the quantity of the flour is not accurate, meanwhile, in the fermentation process, the fermentation time is manually timed, and the fermented finished product is easy to deteriorate because the fermented finished product is not taken out in time.

While there have been shown and described what are at present considered the fundamental principles and essential features of the invention and its advantages, it will be apparent to those skilled in the art that the invention is not limited to the details of the foregoing exemplary embodiments, but is capable of other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (1)

1. The utility model provides a food fermentation is with quantitative formula fermenting installation that kneads dough, its structure includes high accuracy ration fermenting installation (1), fixed supporting shoe (2), links up base (3), zymotic fluid filling opening (4), feeding apron (5), water filling port (6), water storage water pitcher (7), its characterized in that: the fixed supporting block (2) is arranged at the lower end of the connecting base (3) and is connected with the connecting base in a welding way, the high-precision quantitative fermentation device (1) is arranged at the upper end of the connecting base (3) and is connected with the connecting base in a welding way, the lower end of the feeding cover plate (5) is embedded and arranged at the upper end of the high-precision quantitative fermentation device (1) and is in transition fit, the feeding cover plate (5) is positioned above the connecting base (3), the water filling port (6) is arranged at the upper end of the water storage tank (7) and is of an integrated structure, the water storage tank (7) is positioned at the upper end of the high-precision quantitative fermentation device (1) and is connected with the high-precision quantitative fermentation device in a welding way, the water storage tank (7) is positioned above the connecting base (3), and the left end of the fermentation liquid injection port (4) is embedded in the right end of the high-precision quantitative fermentation device (1) and is in transition fit; the high-precision quantitative fermentation device (1) comprises a material measuring mechanism (11), a water adding mechanism (12), an auxiliary transmission mechanism (13), a mechanical transmission mechanism (14), a flow stopping trigger mechanism (15), a water flow stopping mechanism (16) and a fermentation timing mechanism (17), the material measuring mechanism (11) is positioned above the auxiliary transmission mechanism (13), the material measuring mechanism (11) is electrically connected with the water adding mechanism (12), the auxiliary transmission mechanism (13) is movably connected with the mechanical transmission mechanism (14) by a hinge, the mechanical transmission mechanism (14) is arranged below the flow stopping trigger mechanism (15) and is connected in a transmission way, the flow stopping trigger mechanism (15) is arranged at the lower end of the water flow stopping mechanism (16) and is connected in a meshing way, the fermentation timing mechanism (17) is connected with the flow stopping trigger mechanism (15) in a matching way; the material measuring mechanism (11) comprises a material fermentation cavity (111), a material supporting plate (112), a compression spring (113), a supporting pressure rod (114), a one-way block (115), a fermentation liquor channel (116), a high-precision electronic scale (117), a data processing controller (118) and a powerful electromagnet (119), wherein the material supporting plate (112) is embedded in the material fermentation cavity (111) and is in transition fit, the supporting pressure rod (114) is arranged at the lower end of the material supporting plate (112) and is connected with the material supporting plate in a welding mode, the compression spring (113) is arranged at the lower end of the material supporting plate (112) and is connected with the material supporting plate in a transmission mode, the one-way block (115) is arranged in the fermentation liquor channel (116) and is in fit connection, the high-precision electronic scale (117) is positioned below the supporting pressure rod (114), and the high-precision electronic scale (117) is in electrical, the data processing controller (118) is in electrical signal connection with the powerful electromagnet (119), and the data processing controller (118) is in electrical signal connection with the water adding mechanism (12); the water adding mechanism (12) comprises a mechanical turntable (121), a transmission pull rod (122), a sealing gate block (123), a driving motor (124), an output rotating shaft (125), a connecting cable (126) and a positioning block (127), wherein the mechanical turntable (121) and the output rotating shaft (125) are positioned on the same axis and connected in a welding mode, one end of the transmission pull rod (122) is movably connected with the mechanical turntable (121) through a hinge, the other end of the transmission pull rod (122) is movably connected with the sealing gate block (123) through a hinge, the driving motor (124) is connected with the connecting cable (126) through an electric signal, the driving motor (124) is positioned above the positioning block (127), and the mechanical turntable (121) is connected with the driving motor (124) through the output rotating shaft (125) in a transmission mode; the auxiliary transmission mechanism (13) comprises a metal moving plate (131), a linking gear (132), a positioning rotating shaft (133), a moving toothed belt (134), a toothed belt positioning block (135), a transmission rotating column (136), a mechanical swinging rod (137), a rail (138) and a fixed wire coil (139), wherein the metal moving plate (131) is arranged above the moving toothed belt (134) and connected in a welding mode, the linking gear (132) and the positioning rotating shaft (133) are positioned on the same axis and connected in a transmission mode, the moving toothed belt (134) is connected with the linking gear (132) in a meshing mode, the toothed belt positioning block (135) is arranged at the lower end of the moving toothed belt (134) and in transition fit, the transmission rotating column (136) and the rail (138) are of an integrated structure, the transmission rotating column (136) and the positioning rotating shaft (133) are positioned on the same axis and connected in a welding mode, the fixed wire coil (139) is movably connected with the mechanical transmission mechanism (14), and the mechanical swinging rod (137) is arranged at the lower end of the track (138) and is connected in a sliding manner; the mechanical transmission mechanism (14) comprises a traction wire (141), a mechanical connecting disc (142), a toggle iron rod (143), a movable pull rod (144), a sliding block (145), a sliding groove (146), an extension spring (147), a positioning mounting block (148) and a positioning connecting rod (149), the traction wire (141) is connected with the toggle iron rod (143) in a mechanical transmission mode, the mechanical connecting disc (142) is arranged at the lower end of the toggle iron rod (143) and is connected with the toggle iron rod in a hinge movable mode, one end of the movable pull rod (144) is connected with the toggle iron rod (143) in a transmission mode, the other end of the movable pull rod (144) is connected with the sliding block (145) in a hinge movable mode, the sliding groove (146) is arranged at the lower end of the sliding block (145) and is connected with the sliding block in a sliding mode, the extension spring (147) is arranged at the left end of the sliding block (145) and, the positioning and mounting block (148) is positioned at the lower end of the positioning joint rod (149) and is connected in a fixed manner; the flow stopping triggering mechanism (15) comprises a connecting shifting block (151), a fixed shaft (152), a transmission push rod (153), a hinge transmission rod (154), a liquid extrusion rod (155) and a transmission gear (156), wherein the connecting shifting block (151) is arranged at the lower end of the fixed shaft (152) and is connected in a transmission mode, one end of the transmission push rod (153) is connected with the fixed shaft (152) in a welding mode, the other end of the transmission push rod (153) is connected with the hinge transmission rod (154) in a hinge movable mode, the liquid extrusion rod (155) is arranged at the upper end of the hinge transmission rod (154) and is connected in a hinge movable mode, the hinge transmission rod (154) is positioned at the upper right side of the fixed shaft (152), and the transmission gear (156) is connected with the water flow stopping mechanism (16) in a meshing; the water flow stopping mechanism (16) comprises a movable rocker (161), a linkage metal plate (162), a linkage sliding rod (163), a water inlet (164), a sealing ball body (165), a water flow channel (166) and a transmission toothed bar (167), wherein the movable rocker (161) is arranged at the upper end of the transmission toothed bar (167) and is movably connected through a hinge, the linkage metal plate (162) is arranged at the lower end of the linkage sliding rod (163) and is connected through a welding mode, the water inlet (164) and the water flow channel (166) are of an integrated structure, and the sealing ball body (165) is arranged below the water inlet (164) and is in transition fit; the fermentation timing mechanism (17) comprises a liquid flowing cavity (171), a floating plate (172), a timer (173) and a buzzer (174), wherein the floating plate (172) is arranged in the liquid flowing cavity (171) and is in transition fit, the timer (173) is connected with the buzzer (174) through an electric signal, and the buzzer (174) is positioned below the floating plate (172).

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