阅读说明：本技术 一种能自动调节酿酒温度的传感设备 (Sensing equipment capable of automatically adjusting brewing temperature ) 是由 陈江海 于 2020-08-12 设计创作，主要内容包括：本发明公开的一种能自动调节酿酒温度的传感设备,包括发酵罐,所述发酵罐内设有发酵腔,所述发酵腔内上壁连通设有离合腔,所述离合腔内能上下滑动的设有离合板,所述离合板下端有一部分位于所述发酵腔内,所述离合板内上端面固定设有离合轴,所述离合板上端面与所述离合腔内上壁共同连接固定设有离和弹簧,所述离合腔内右壁连通设有一级带动板腔,本发明通过机械结构分阶段的检测发酵腔中温度并根据不同阶段的温度作出相应的制冷反应,为酿酒厂提供了可靠、准确且高效的检测温度方式并提供现代的制冷方式,本发明清洁卫生且低腐蚀性,提供了可靠的解决方案、低运行和维护成本。(The invention discloses a sensing device capable of automatically adjusting brewing temperature, which comprises a fermentation tank, wherein a fermentation cavity is arranged in the fermentation tank, a clutch cavity is communicated with the upper wall in the fermentation cavity, a clutch plate is arranged in the clutch cavity in a manner of sliding up and down, a part of the lower end of the clutch plate is positioned in the fermentation cavity, a clutch shaft is fixedly arranged on the upper end surface in the clutch plate, the upper end surface of the clutch plate and the upper wall in the clutch cavity are jointly connected and fixedly provided with a clutch and a spring, and the right wall in the clutch cavity is communicated with a first-stage driving plate cavity Low operating and maintenance costs.)

1. The utility model provides a can automatically regulated makes wine sensing equipment of temperature, includes the fermentation cylinder, its characterized in that: a fermentation cavity is arranged in the fermentation tank, a clutch cavity is communicated with the upper wall in the fermentation cavity, a clutch plate is arranged in the clutch cavity in a manner of sliding up and down, a part of the lower end of the clutch plate is positioned in the fermentation cavity, a clutch shaft is fixedly arranged on the upper end face in the clutch plate, the upper end face of the clutch plate is fixedly connected with the upper wall in the clutch cavity together with a clutch and a spring, a first-stage driving plate cavity is communicated with the right wall in the clutch cavity, a part of the left end of the first-stage driving plate extends into the clutch cavity, a bevel gear plate is fixedly arranged on the end face of the first-stage driving plate, a first-stage spring is communicated with the upper wall in the first-stage driving plate cavity, the right end face of the bevel gear plate is fixedly connected with the right wall in the first-stage driving plate cavity together, a clutch bevel gear cavity is communicated with the upper wall in, the bevel gear plate is positioned at the upper end in the cavity of the clutch bevel gear, a bevel gear shaft is arranged in a left-right penetrating and rotating manner, the right end of the bevel gear shaft extends rightwards to the right side of the right end face of the bevel gear plate and is fixedly provided with the clutch bevel gear, the right wall in the cavity of the clutch bevel gear is communicated with a bevel gear cavity, a line barrel shaft is arranged in the bevel gear cavity in a rotating manner, the upper end of the line barrel shaft extends upwards into the bevel gear cavity and is fixedly provided with a driven bevel gear which can be meshed with the gear of the clutch bevel gear, the upper wall in the cavity of the bevel gear is provided with a motor shaft in a rotating manner, the lower end of the motor shaft extends downwards into the bevel gear cavity and is fixedly provided with a driving bevel gear which can be meshed with the gear of the clutch bevel gear, a line barrel cavity is arranged at, fermentation intracavity right side wall with fermentation cylinder right-hand member face communicates jointly and is equipped with the air vent of opening right, upper wall intercommunication in the air vent is equipped with the sprue chamber, what sprue intracavity internal energy slided from top to bottom is equipped with the sprue, sprue up end with sprue intracavity upper wall is connected jointly and is fixed to be equipped with reset spring, the stay cord other end is fixed to be located the sprue up end.

2. A sensing apparatus capable of automatically adjusting brewing temperature as claimed in claim 1, wherein: the fermentation intracavity upper wall is located separation and reunion chamber left side intercommunication is equipped with the pipeline, separation and reunion intracavity left side wall intercommunication is equipped with the second grade clutch board chamber, the second grade clutch board intracavity horizontal slip be equipped with the second grade clutch board, the right part of second grade clutch board right-hand member extends to the separation and reunion intracavity, second grade clutch board left end face with the fixed second grade spring that is equipped with is connected jointly to second grade clutch board intracavity left side wall, second grade clutch board intracavity rear wall intercommunication is equipped with the right side and leads to the chamber, the fixed right push pedal that is equipped with of second grade clutch board rear end face, the right side leads to chamber rear wall intercommunication and is equipped with the push pedal, right side push pedal rear end ranging back extremely lead to.

3. A sensing apparatus capable of automatically adjusting brewing temperature as claimed in claim 2, wherein: the right side push pedal is located lead to the fixed push pedal that is equipped with of intracavity left end face, the fixed left push pedal that is equipped with of push pedal left end face, lead to intracavity antetheca intercommunication and be equipped with a left side and lead to the chamber, a left side leads to intracavity antetheca intercommunication and is equipped with the dog chamber, separation and reunion axle front end extends forward to the dog intracavity, a left side push pedal is located the fixed dog that is equipped with of dog intracavity right end face, the dog can dog intracavity horizontal slip.

4. A sensing apparatus capable of automatically adjusting brewing temperature as claimed in claim 3, wherein: the separation and reunion chamber upside is equipped with down the gliding chamber, the pipeline other end runs through from top to bottom two walls on the dog chamber and with the common intercommunication of gliding intracavity left wall, gliding intracavity lower wall rotates and is equipped with down the gliding axle, the gliding axle is located outer fixed being equipped with down the slide rail of circumference in the gliding intracavity, gliding intracavity left wall intercommunication is equipped with the ice-cube and leads to the chamber, the ice-cube leads to intracavity left wall intercommunication and is equipped with the ice-cube chamber, ice-cube intracavity upper wall with the common intercommunication of fermentation cylinder up end is equipped with the ascending feeding chamber of opening, ice-cube intracavity left wall intercommunication is equipped with the rack chamber.

5. The sensing apparatus of claim 4, wherein the sensing apparatus is capable of automatically adjusting brewing temperature, and comprises: rack intracavity left side wall intercommunication is equipped with the gear chamber, the gear intracavity internal energy horizontal slip be equipped with the rack, the rack right-hand member passes the rack chamber right and extends to the ice-cube intracavity, rack left end face with gear intracavity left side wall is connected jointly and is fixed to be equipped with rack spring, gear intracavity lower wall is located the rotation of rack rear side is equipped with driven sprocket shaft, driven sprocket shaft position in the fixed ability that is equipped with of gear intracavity outside circumference of telling with rack and gear engagement's half-gear.

6. The sensing apparatus of claim 5, wherein the sensing apparatus is capable of automatically adjusting brewing temperature, and comprises: the gear chamber downside is equipped with the sprocket chamber, driven sprocket shaft lower extreme downwardly extending is located sprocket intracavity and rotation sprocket intracavity lower wall, driven sprocket shaft is located the outer fixed driven sprocket that is equipped with of circumference in the sprocket intracavity.

7. The sensing apparatus of claim 6, wherein the sensing apparatus is capable of automatically adjusting brewing temperature, and comprises: the upper end of the motor shaft upwards extends into the chain wheel cavity, the motor shaft is located the outer circumference of the chain wheel cavity is fixedly provided with a driving chain wheel, the driving chain wheel and the driven chain wheel are wound with a chain, the upper side of the chain wheel cavity is provided with a belt wheel cavity, and the upper side of the belt wheel cavity is located the inner wall of the fermentation tank is fixedly provided with a motor.

8. The sensing apparatus of claim 7, wherein the sensing apparatus is capable of automatically adjusting brewing temperature, and comprises: the upper end of the motor shaft upwards penetrates through the belt wheel cavity and is in power connection with the motor, the motor shaft is located the outer circumference in the belt wheel cavity is fixedly provided with a driving belt wheel, the upper end of the lower sliding shaft upwards extends into the belt wheel cavity and is rotatably arranged on the upper wall in the belt wheel cavity, the lower sliding shaft is located the outer circumference in the belt wheel cavity is fixedly provided with a driven belt wheel, and a belt is wound between the driving belt wheel and the driven belt wheel.

9. A sensing apparatus capable of automatically adjusting brewing temperature as claimed in claim 1, wherein: the separation and reunion intracavity upper wall intercommunication is equipped with the lift chamber, separation and reunion axle upper end upwards extends to lift intracavity and the fixed back that is equipped with of rear end face drive the board, the fixed drive board that is equipped with of back drive board up end, lift intracavity upper wall with the fermentation cylinder up end communicates jointly and is equipped with the ascending warning sign chamber of opening, it upwards extends to go up drive board upper end warning sign intracavity and fixed warning sign that is equipped with.

Technical Field

The invention relates to the technical field related to sensors, in particular to sensing equipment capable of automatically adjusting wine brewing temperature.

Background

Throughout the brewing industry, control is of great importance in the whole process from mash to bottled products, and in all key processes of a brewery, the realization of very accurate temperature control is of great importance, and heat is also a catalyst from wort processing, yeast propagation and fermentation to final cooling, and can accelerate the processes of chemical reaction and biological decomposition, so that the principle is also applicable to the process of alcoholic fermentation, if the temperature in a fermentation tank is too high (higher than 35 ℃), the yeast cannot survive, and under the environment of the temperature lower than 5 ℃, the yeast enters a dormant state, and the alcoholic fermentation cannot be carried out. The present invention sets forth a device that solves the above problems.

Disclosure of Invention

The technical problem is as follows: if the temperature in the fermentation tank is too high, the yeast cannot survive, and in the environment with the temperature lower than 5 ℃, the yeast enters a dormant state, and the alcoholic fermentation cannot be carried out.

In order to solve the problems, the sensing equipment capable of automatically adjusting the brewing temperature is designed in the embodiment, and comprises a fermentation tank, a fermentation cavity is arranged in the fermentation tank, a clutch cavity is communicated with the upper wall in the fermentation cavity, a clutch plate is arranged in the clutch cavity and can slide up and down, one part of the lower end of the clutch plate is positioned in the fermentation cavity, a clutch shaft is fixedly arranged on the upper end surface in the clutch plate, the upper end surface of the clutch plate and the upper wall in the clutch cavity are jointly connected and fixedly provided with a clutch and a spring, the right wall in the clutch cavity is communicated and provided with a primary driving plate cavity, one part of the left end of the primary driving plate extends into the clutch cavity, the end surface of the primary driving plate is fixedly provided with a bevel gear plate, the upper wall in the primary driving plate cavity is communicated and provided with a primary spring, the right end surface of the bevel gear plate and the right wall in the primary driving plate are jointly connected and fixedly provided, the upper wall in the first-stage spring is communicated with a clutch bevel gear cavity, the upper end of the bevel gear plate extends upwards into the clutch bevel gear cavity, the bevel gear plate is positioned at the upper end in the clutch bevel gear cavity, a bevel gear shaft penetrates through and rotates leftwards and rightwards, the right end of the bevel gear shaft extends rightwards to the right side of the right end face of the bevel gear plate and is fixedly provided with a clutch bevel gear, the right wall in the clutch bevel gear cavity is communicated with the bevel gear cavity, a bobbin shaft is arranged in the bevel gear cavity in a rotating manner, the upper end of the bobbin shaft extends upwards into the bevel gear cavity and is fixedly provided with a driven bevel gear capable of being meshed with the clutch bevel gear, the upper wall in the bevel gear cavity is rotatably provided with a motor shaft, the lower end of the motor shaft extends downwards into the bevel gear cavity and is fixedly provided with a driving bevel gear, the utility model discloses a fermentation tank, including fermentation cylinder, line bucket axle, fermentation cylinder, upper wall, sprue inner chamber, sprue upper end face, lower end face.

Preferably, the fermentation intracavity upper wall is located separation and reunion chamber left side intercommunication is equipped with the pipeline, separation and reunion intracavity left side wall intercommunication is equipped with the second grade clutch board chamber, the second grade clutch board intracavity can the horizontal slip be equipped with the second grade clutch board, the right part of second grade clutch board right-hand member extends to the separation and reunion intracavity, second grade clutch board left end face with the fixed second grade spring that is equipped with is connected jointly to second grade clutch board intracavity left wall, second grade clutch board intracavity rear wall intercommunication is equipped with the right side and leads to the chamber, the fixed right push pedal that is equipped with of second grade clutch board rear end face, the right side leads to chamber rear wall intercommunication and is equipped with the push pedal, right side push pedal rear end ranging back extremely lead to the.

Preferably, the right side push pedal is located lead to the fixed push pedal that is equipped with of intracavity left end face, the fixed left push pedal that is equipped with of push pedal left end face, lead to intracavity antetheca intercommunication and be equipped with left logical chamber, a left side leads to intracavity antetheca intercommunication and is equipped with the dog chamber, separation and reunion axle front end extends forward to the dog intracavity, left side push pedal is located the fixed dog that is equipped with of dog intracavity right-hand member face, the dog can dog intracavity horizontal slip.

Preferably, separation and reunion chamber upside is equipped with down the gliding chamber, the pipeline other end runs through from top to bottom two walls about the dog chamber and with the intracavity left wall that slides down communicates jointly, the intracavity lower wall that slides down rotates and is equipped with down the gliding axle, the gliding axle is located outer fixed lower slide rail that is equipped with of gliding intracavity circumference, the intracavity left wall intercommunication that slides down is equipped with the ice-cube and leads to the chamber, the ice-cube leads to intracavity left wall intercommunication and is equipped with the ice-cube chamber, ice-cube intracavity upper wall with the fermentation cylinder up end communicates jointly and is equipped with the ascending income material chamber of opening, ice-cube intracavity left wall intercommunication is equipped with the rack chamber.

Preferably, rack intracavity left side wall intercommunication is equipped with the gear chamber, the gear intracavity internal energy horizontal slip be equipped with the rack, the rack right-hand member passes the rack chamber right and extends to the ice-cube intracavity, the rack left end face with gear intracavity left side wall connects fixedly jointly and is equipped with the rack spring, gear intracavity lower wall is located the rotation of rack rear side is equipped with driven sprocket shaft, driven sprocket shaft is located the fixed ability that is equipped with of gear intracavity outside and outside circumference of telling with rack and gear engagement's semi-gear.

Preferably, the gear chamber downside is equipped with the sprocket chamber, driven sprocket shaft lower extreme downwardly extending to the sprocket intracavity and rotate and locate sprocket intracavity lower wall, driven sprocket shaft is located the fixed driven sprocket that is equipped with of outer circumference in the sprocket intracavity.

Preferably, the upper end of the motor shaft upwards extends into the chain wheel cavity, the motor shaft is located the outer circumference of the chain wheel cavity is fixedly provided with a driving chain wheel, the driving chain wheel and the driven chain wheel are provided with a chain in a winding manner, the upper side of the chain wheel cavity is provided with a belt wheel cavity, and the upper side of the belt wheel cavity is located the inner wall of the fermentation tank is fixedly provided with a motor.

Preferably, the upper end of the motor shaft penetrates through the pulley cavity upwards and is in power connection with the motor, a driving pulley is fixedly arranged on the outer circumference of the motor shaft located in the pulley cavity, the upper end of the lower sliding shaft extends upwards into the pulley cavity and is rotatably arranged on the upper wall of the pulley cavity, a driven pulley is fixedly arranged on the outer circumference of the lower sliding shaft located in the pulley cavity, and a belt is wound between the driving pulley and the driven pulley.

Preferably, separation and reunion intracavity upper wall intercommunication is equipped with the lift chamber, separation and reunion epaxial end upwards extends to lift intracavity and the fixed back that is equipped with of rear end face drive the board, the fixed drive board that is equipped with of back drive board up end, lift intracavity upper wall with the fermentation cylinder up end communicates jointly and is equipped with the ascending warning sign chamber of opening, it upwards extends to go up drive board upper end warning sign intracavity and fixed warning sign that is equipped with.

The invention has the beneficial effects that: the invention provides a reliable, accurate and efficient temperature detection mode and a modern refrigeration mode for a brewery by detecting the temperature in the fermentation cavity by stages through a mechanical structure and making corresponding refrigeration reaction according to the temperatures of different stages.

Drawings

For ease of illustration, the invention is described in detail by the following specific examples and figures.

FIG. 1 is a schematic view of the overall structure of a sensing device capable of automatically adjusting brewing temperature according to the present invention;

FIG. 2 is an enlarged view of the structure of "A" in FIG. 1;

FIG. 3 is an enlarged view of the structure of "B" in FIG. 1;

FIG. 4 is a schematic view of the structure in the direction "C-C" of FIG. 1;

FIG. 5 is a schematic view of the structure in the direction "D-D" of FIG. 1;

FIG. 6 is a schematic view of the structure in the direction "E-E" of FIG. 1;

FIG. 7 is a schematic view of the structure in the direction "F-F" of FIG. 1.

Detailed Description

The invention will now be described in detail with reference to fig. 1-7, for ease of description, the orientations described below will now be defined as follows: the up, down, left, right, and front-back directions described below correspond to the up, down, left, right, and front-back directions in the projection relationship of fig. 1 itself.

The sensing equipment capable of automatically adjusting the brewing temperature comprises a fermentation tank 11, wherein a fermentation cavity 12 is arranged in the fermentation tank 11, a clutch cavity 13 is communicated and arranged on the inner upper wall of the fermentation cavity 12, a clutch plate 14 is arranged in the clutch cavity 13 in a manner of sliding up and down, a part of the lower end of the clutch plate 14 is positioned in the fermentation cavity 12, a clutch shaft 15 is fixedly arranged on the inner upper end surface of the clutch plate 14, the upper end surface of the clutch plate 14 and the inner upper wall of the clutch cavity 13 are fixedly connected and provided with a clutch and spring 16, the inner right wall of the clutch cavity 13 is communicated and provided with a primary driving plate cavity 18, a part of the left end of the primary driving plate 19 extends into the clutch cavity 13, the end surface of the primary driving plate 19 is fixedly provided with a gear bevel plate 21, the inner upper wall of the primary driving plate cavity 18 is communicated and provided with a primary spring 20, the right end surface of the bevel gear plate 21 and the inner right wall of the primary driving plate cavity 18 are, the upper wall of the first-stage spring 20 is communicated with a clutch bevel gear cavity 22, the upper end of the bevel gear plate 21 extends upwards into the clutch bevel gear cavity 22, the bevel gear plate 21 is positioned in the clutch bevel gear cavity 22, the upper end of the bevel gear plate is penetrated left and right and is provided with a bevel gear shaft 23 in a rotating manner, the right end of the bevel gear shaft 23 extends rightwards to the right side of the right end face of the bevel gear plate 21 and is fixedly provided with a clutch bevel gear 24, the right wall of the clutch bevel gear cavity 22 is communicated with a bevel gear cavity 25, the lower wall of the bevel gear cavity 25 is provided with a wire barrel shaft 26 in a rotating manner, the upper end of the wire barrel shaft 26 extends upwards into the bevel gear cavity 25 and is fixedly provided with a driven bevel gear 27 capable of being meshed with the clutch bevel gear 24, the upper wall of the clutch bevel gear cavity 25 is provided with a motor shaft 28 in a rotating manner, the lower end of the motor shaft 28 extends downwards into the bevel gear cavity, bevel gear chamber 25 downside is equipped with wire barrel chamber 30, 26 lower extreme downwardly extending of wire barrel axle extremely wire barrel 31 is just fixed to be equipped with in the wire barrel chamber 30, wire barrel 31 outer circumference is around being equipped with stay cord 32, right side wall in the fermentation chamber 12 with the common intercommunication of 11 right-hand end faces of fermentation cylinder is equipped with opening right blow vent 17, upper wall intercommunication is equipped with sprue chamber 33 in the blow vent 17, gliding sprue 34 that is equipped with about the sprue chamber 33 internal energy, sprue 34 up end with the upper wall is connected jointly and is fixed to be equipped with reset spring 35 in sprue chamber 33, stay cord 32 other end is fixed to be located sprue 34 up end.

Beneficially, the upper wall is located in fermentation chamber 12 clutch chamber 13 left side intercommunication is equipped with pipeline 36, left wall intercommunication is equipped with second grade clutch plate chamber 37 in the clutch chamber 13, the inside horizontal slip of second grade clutch plate chamber 37 is equipped with second grade clutch plate 38, the right part of second grade clutch plate 38 right-hand member extends to in the clutch chamber 13, second grade clutch plate 38 left end face with left wall is connected jointly and is fixedly equipped with second grade spring 39 in the second grade clutch plate chamber 37, the back wall intercommunication is equipped with right logical chamber 40 in the second grade clutch plate chamber 37, the fixed right push pedal 41 that is equipped with of second grade clutch plate 38 rear end face, the wall intercommunication is equipped with push pedal 47 behind the logical chamber 40 in the right side, right push pedal 41 rear end backward extend to lead to in the chamber 46.

Beneficially, a push plate 47 is fixedly arranged on the left end face of the right push plate 41 in the through cavity 46, a left push plate 45 is fixedly arranged on the left end face of the push plate 47, a left through cavity 44 is arranged on the inner front wall of the through cavity 46 in a communicating manner, a stopper cavity 42 is arranged on the inner front wall of the left through cavity 44 in a communicating manner, the front end of the clutch shaft 15 extends forwards into the stopper cavity 42, a stopper 43 is fixedly arranged on the right end face of the left push plate 45 in the stopper cavity 42, and the stopper 43 can slide left and right in the stopper cavity 42.

Beneficially, a downward sliding cavity 48 is arranged on the upper side of the clutch cavity 13, the other end of the pipeline 36 vertically penetrates through the upper wall and the lower wall of the stopper cavity 42 and is communicated with the left wall in the downward sliding cavity 48, a downward sliding shaft 49 is rotatably arranged on the lower wall in the downward sliding cavity 48, a downward sliding rail 50 is fixedly arranged on the inner circumference and the outer circumference of the downward sliding shaft 49 in the downward sliding cavity 48, an ice block through cavity 51 is communicated with the left wall in the downward sliding cavity 48, an ice block cavity 52 is communicated with the left wall in the ice block through cavity 51, an upward opening feeding cavity 53 is communicated with the upper end face of the fermentation tank 11 on the upper wall in the ice block cavity 52, and a rack cavity 54 is communicated with the left wall in the ice block cavity 52.

Beneficially, the left wall intercommunication is equipped with gear chamber 55 in the gear chamber 54, the slidable rack 56 that is equipped with from side to side in gear chamber 55, rack 56 right-hand member passes gear chamber 54 right and extends to in the ice-cube chamber 52, rack 56 left end face with the fixed rack spring 57 that is equipped with is connected jointly to the left wall in the gear chamber 55, the lower wall is located in the gear chamber 55 the rack 56 rear side is rotated and is equipped with driven sprocket shaft 58, driven sprocket shaft 58 is located the fixed half-gear 59 that is equipped with can with rack 56 gear engagement in the outer circumference of the gear chamber 55 of telling.

Advantageously, a chain wheel cavity 60 is arranged at the lower side of the gear cavity 55, the lower end of the driven chain wheel shaft 58 extends downwards into the chain wheel cavity 60 and is rotatably arranged at the lower wall in the chain wheel cavity 60, and a driven chain wheel 61 is fixedly arranged on the inner circumference and the outer circumference of the driven chain wheel shaft 58 in the chain wheel cavity 60.

Beneficially, the upper end of the motor shaft 28 extends upwards into the sprocket cavity 60, a driving sprocket 62 is fixedly arranged on the inner and outer circumferences of the motor shaft 28 in the sprocket cavity 60, a chain 63 is wound between the driving sprocket 62 and the driven sprocket 61, a pulley cavity 64 is arranged on the upper side of the sprocket cavity 60, and a motor 68 is fixedly arranged on the upper side of the pulley cavity 64 in the inner wall of the fermentation tank 11.

Advantageously, the upper end of the motor shaft 28 passes through the pulley cavity 64 upward and is connected to the motor 68 in a power connection manner, a driving pulley 65 is fixedly arranged on the inner and outer circumferences of the motor shaft 28 in the pulley cavity 64, the upper end of the lower sliding shaft 49 extends upward into the pulley cavity 64 and is rotatably arranged on the inner upper wall of the pulley cavity 64, a driven pulley 66 is fixedly arranged on the inner and outer circumferences of the lower sliding shaft 49 in the pulley cavity 64, and a belt 67 is wound between the driving pulley 65 and the driven pulley 66.

Beneficially, the upper wall intercommunication is equipped with lift chamber 69 in the separation and reunion chamber 13, separation and reunion axle 15 upper end upwards extends to drive board 70 after just the rear end face is fixed to be equipped with in the lift chamber 69, drive board 70 up end fixed to be equipped with and drive board 71 after, in the lift chamber 69 the upper wall with the common intercommunication of fermentation cylinder 11 up end is equipped with the ascending warning sign chamber 72 of opening, it upwards extends to drive board 71 upper end upwards in the warning sign chamber 72 and the fixed warning sign 73 that is equipped with.

The following describes in detail the steps of using a sensing device capable of automatically adjusting brewing temperature in the present text with reference to fig. 1 to 7: in the initial state, the clutch plate 14 is at the lower limit position, the clutch spring 16 is in the relaxed state, the clutch bevel gear 24 is not in gear engagement with the drive bevel gear 29 and the driven bevel gear 27, the blocking piece 34 is at the lower limit position, the return spring 35 is in the relaxed state, the return spring 74 is in the relaxed state, the rack spring 57 is in the relaxed state, the secondary spring 39 is in the relaxed state, and the warning board 73 is completely located in the warning board cavity 72.

When the fermentation chamber 12 is in operation, the temperature in the fermentation chamber 12 rises to expand the gas in the fermentation chamber 12 and push the clutch plate 14 upwards to press the clutch plate 16, when the temperature exceeds a low range, the clutch plate 14 can push the primary driving plate 19 to the right, the primary driving plate 19 drives the bevel gear plate 21 to push and press 74 to the right, the bevel gear plate 21 drives the clutch bevel gear 24 to move to the right through the bevel gear shaft 23 until the clutch bevel gear 24 is meshed with the driving bevel gear 29 and the driven bevel gear 27, at the moment, the motor 68 is started and drives the motor shaft 28 to rotate and further drive the driving bevel gear 29 to rotate, the driving bevel gear 29 drives the clutch bevel gear 24 and the driven bevel gear 27 to rotate through gear meshing and further drive the bobbin shaft 26 to rotate, the bobbin shaft 26 drives the bobbin 31 to rotate and tighten the pull rope 32, the pull rope 32 drives the block 34 to move upwards and press the return spring 35, at the air vent 17 is opened to lower the temperature, when the temperature in the fermentation chamber 12 is reduced to a normal brewing range, the clutch plate 14 moves downwards to return to the lower limit position, at the moment, the clutch bevel gear 24 is disengaged from the driving bevel gear 29 and the driven bevel gear 27, the return spring 35 returns to a relaxed state and pushes the block 34 to move downwards to an initial state, if the temperature in the fermentation chamber 12 continuously rises, the clutch plate 14 is continuously pushed upwards until the secondary clutch plate 38 is pushed leftwards by the clutch plate 14 and presses the secondary spring 39, the secondary clutch plate 38 drives the block 43 to move leftwards through the right push plate 41, the push plate 47 and the left push plate 45 together to enable the pipeline 36 to be communicated with the block cavity 42, so that ice blocks poured into the ice block cavity 52 from the feeding cavity 53 can fall into the fermentation chamber 12 through the pipeline 36 and the block cavity 42, the motor 68 is started and drives the driving sprocket 62 to rotate through the motor shaft 28, the driving sprocket 62 drives the driven sprocket shaft 58 to rotate through the chain 63 and the driven, the driven sprocket shaft 58 drives the half gear 59 to rotate and intermittently meshed with the gear of the rack 56 so as to push the rack 56 to push the ice in the ice chamber 52 into the lower sliding chamber 48, the rack spring 57 cooperates with the half gear 59 to enable the rack 56 to reciprocate left and right, meanwhile, the motor shaft 28 drives the driving pulley 65 to rotate and drives the lower sliding shaft 49 to rotate through the belt 67 and the driven pulley 66, the lower sliding shaft 49 drives the lower sliding rail 50 to rotate and drives the ice cubes to move downwards so that the ice cubes enter the fermentation chamber 12 through the pipeline 36 and the block chamber 42 to be cooled, if the temperature in the fermentation chamber 12 is still continuously raised on the basis, the clutch plate 14 can be continuously pushed upwards to drive the clutch shaft 15 to continuously move upwards, and the clutch shaft 15 can predict the upper driving plate 71 to drive the warning board 73 to move upwards to the upper side of the upper end face of the fermentation tank 11 through the rear driving plate 70 to remind the brewers to timely perform treatment.

The invention has the beneficial effects that: the invention provides a reliable, accurate and efficient temperature detection mode and a modern refrigeration mode for a brewery by detecting the temperature in the fermentation cavity by stages through a mechanical structure and making corresponding refrigeration reaction according to the temperatures of different stages.

In the above manner, a person skilled in the art can make various changes depending on the operation mode within the scope of the present invention.