CN113122407A

CN113122407A - Intelligent beer apparatus for producing

Info

Publication number: CN113122407A
Application number: CN202110535952.3A
Authority: CN
Inventors: 王金全; 李光锐; 林豊鈜; 王斌
Original assignee: Shandong Tiantai Beer Equipment Co ltd
Current assignee: Shandong Tiantai Beer Equipment Co ltd
Priority date: 2021-05-17
Filing date: 2021-05-17
Publication date: 2021-07-16

Abstract

The invention discloses an intelligent beer production device, which belongs to the field of beer devices and comprises a saccharification tank and an intelligent detection component. One side of saccharification jar is connected with first connecting pipe and second connecting pipe, the inner wall of first connecting pipe all is provided with the screw thread with the inner wall of second connecting pipe, the detection of setting can slide from top to bottom in the outside of saccharification jar, and the drive through the telescopic link, the third connecting pipe can realize automatic being connected with first connecting pipe or second connecting pipe, through connecting first connecting pipe, the detection case can detect the inside atmospheric pressure condition of saccharification jar, through connecting the second connecting pipe, the detection case can detect the degree of saccharification in the mash and the content of starch, the degree of saccharification can be learnt through these automatic detections, make things convenient for managers in time to adjust saccharification equipment. Meanwhile, the detection box can also automatically carry out cleaning and disinfection, so that the influence of bacteria invading the saccharification tank on saccharification in the detection process is avoided.

Description

Intelligent beer apparatus for producing

Technical Field

The invention relates to the field of beer production devices, in particular to an intelligent beer production device.

Background

In the beer brewing process, a saccharifying device is used, wherein the saccharifying device is a device which mixes high molecular substances such as malt flour, starch in auxiliary materials, protein and the like with water, keeps a certain temperature and time, and degrades the mixture into saccharides (including gelatinized mash) and low molecular proteins which can be utilized by yeast under the action of enzyme. However, during saccharification, attention is paid to the progress of saccharification and the condition of the material during saccharification. This requires frequent sampling for detection. However, the traditional manual sampling is troublesome, and bacteria pollution materials are easily brought in the sampling process to influence the beer quality.

Disclosure of Invention

In order to overcome the defect that the saccharification process is difficult to monitor in the beer production process in the prior art, the invention provides an intelligent beer production device for automatically detecting the saccharification effect.

In order to achieve the purpose, the invention adopts the following technical scheme:

the invention provides an intelligent beer production device which comprises a saccharifying tank and an intelligent detection component. One side of the saccharification tank is connected with a first connecting pipe and a second connecting pipe, and the inner walls of the first connecting pipe and the second connecting pipe are both provided with threads. The intelligent detection part comprises a detection box, a sliding rail, a connecting assembly and a detection assembly. The slide rail is vertically fixed in one side of saccharification jar, and detection case sliding connection is on the slide rail, and coupling assembling includes third connecting pipe, threaded ring, telescopic link and bearing. The screw ring inlays in the lateral wall of detection case, and the stiff end of telescopic link is fixed in the detection case lateral wall. The outer wall of the third connecting pipe is provided with threads, the third connecting pipe penetrates through the threaded ring and is in threaded connection with the threaded ring, the inner ring of the bearing is connected with the outer wall of the third connecting pipe in a specified mode, and the free end of the telescopic rod is fixedly connected with the outer ring of the bearing. Be provided with the top in the third connecting pipe and push away the piece, all be provided with the sealing member in the first connecting pipe and the second connecting pipe, the top pushes away the piece and includes first fretwork support, ejector pin and kicking block, first fretwork support is fixed in the inside of third connecting pipe, the push pipe is fixed in one side that the detection case was kept away from to first fretwork support, the kicking block is fixed in the end of ejector pin, the sealing member includes second fretwork support, a spring, first sealing ring and shrouding, second fretwork support and first sealing ring all are fixed in second connecting pipe inner wall and first connecting pipe inner wall, and first sealing ring is located one side that saccharification jar was kept away from to second fretwork support, the one end of spring is fixed in on second fretwork support, the other end and the shrouding of spring are. The detection assembly comprises a barometer, a glucometer and a glass bottle, wherein the barometer and the glucometer are fixed in the detection box, the glass bottle is connected to the bottom of the detection box, and the bottom of the detection box is communicated with the glass bottle through a dropper.

In a preferred embodiment of the present invention, the first connecting pipe, the second connecting pipe, and the third connecting pipe are all disposed in an inclined manner. The intelligent detection component comprises a clean water tank, a disinfectant tank and a heater, wherein the clean water tank and the disinfectant tank are respectively communicated with the detection box, and the heater is fixed in the detection box.

In a preferred technical scheme of the invention, a stirrer for stirring liquid is arranged in the detection box, and the bottom of the detection box is connected with a drain pipe.

In a preferred technical scheme of the invention, a fixing ring is fixed outside the third connecting pipe, a second sealing ring is fixed on one side of the fixing ring, which is far away from the detection box, and a pressure sensor is arranged between the second sealing ring and the fixing ring.

In a preferred technical scheme of the invention, the top of the detection box is connected with a pressure release valve.

In a preferred technical scheme of the invention, a driving machine is arranged on the detection box and is connected with the slide rail in a sliding manner.

In a preferred technical scheme of the invention, a first limiting plate and a second limiting plate are fixed on the side wall of the saccharification tank, the first limiting plate is positioned above the first connecting pipe, and the second limiting plate is positioned below the second connecting pipe.

The invention has the beneficial effects that:

according to the intelligent beer production device provided by the invention, the arranged detection can slide up and down outside the saccharification tank, and the third connecting pipe can be automatically connected with the first connecting pipe or the second connecting pipe through the driving of the telescopic rod, the detection box can detect the air pressure condition inside the saccharification tank through connecting the first connecting pipe, the detection box can detect the saccharification degree and the starch content in mash through connecting the second connecting pipe, the saccharification degree can be known through the automatic detection, and managers can conveniently and timely adjust saccharification equipment. Meanwhile, the detection box can also automatically carry out cleaning and disinfection, so that the influence of bacteria invading the saccharification tank on saccharification in the detection process is avoided.

Drawings

FIG. 1 is a schematic structural diagram of an intelligent beer production apparatus according to an embodiment of the present invention;

FIG. 2 is an enlarged schematic view of A of FIG. 1;

FIG. 3 is an enlarged schematic view of C in FIG. 2;

fig. 4 is an enlarged schematic view of B in fig. 1.

In the figure:

1-saccharification tank, 11-first connecting pipe, 12-second connecting pipe, 13-first limiting plate, 14-second limiting plate, 2-detection box, 21-barometer, 22-saccharimeter, 23-dropper, 24-glass bottle, 25-stirrer, 26-clean water tank, 27-disinfectant tank, 28-pressure relief valve, 3-slide rail, 30-threaded ring, 31-third connecting pipe, 32-telescopic rod, 33-bearing, 34-first hollow bracket, 35-ejector rod, 36-ejector block, 37-fixing ring, 38-pressure sensor, 39-second sealing ring 41-second hollow bracket, 42-spring, 43-sealing plate and 44-first sealing ring.

Detailed Description

The technical scheme of the invention is further explained by the specific implementation mode in combination with the attached drawings.

As shown in FIGS. 1 to 4, an intelligent beer production apparatus is provided in the embodiment, which comprises a saccharification tank 1 and an intelligent detection component. One side of the saccharification tank 1 is connected with a first connecting pipe 11 and a second connecting pipe 12, and the inner walls of the first connecting pipe 11 and the second connecting pipe 12 are both provided with threads. The intelligent detection part comprises a detection box 2, a sliding rail 3, a connecting assembly and a detection assembly. Slide rail 3 is vertical to be fixed in one side of saccharification jar 1, and detection box 2 sliding connection is on slide rail 3, and coupling assembling includes third connecting pipe 31, threaded ring 30, telescopic link 32 and bearing 33. The threaded ring 30 is embedded in the side wall of the detection box 2, and the fixed end of the telescopic rod 32 is fixed on the side wall of the detection box 2. The outer wall of the third connecting pipe 31 is provided with threads, the third connecting pipe 31 penetrates through the threaded ring 30 and is in threaded connection with the threaded ring 30, the inner ring of the bearing 33 is in specified connection with the outer wall of the third connecting pipe 31, and the free end of the telescopic rod 32 is fixedly connected with the outer ring of the bearing 33. A pushing part is arranged in the third connecting pipe 31, sealing parts are arranged in the first connecting pipe 11 and the second connecting pipe 12, the pushing part comprises a first hollow support 34, a push rod 35 and a push block 36, the first hollow support 34 is fixed in the third connecting pipe 31, the push rod is fixed on one side, away from the detection box 2, of the first hollow support 34, the push block 36 is fixed at the tail end of the push rod 35, the sealing parts comprise a second hollow support 41, a spring 42, a first sealing ring 44 and a sealing plate 43, the second hollow support 41 and the first sealing ring 44 are fixed on the inner wall of the second connecting pipe 12 and the inner wall of the first connecting pipe 11, the first sealing ring 44 is located on one side, away from the saccharification tank 1, of the second hollow support 41, one end of the spring 42 is fixed on the second hollow support 41, the other end of the spring 42 is connected with the sealing plate 43, and the sealing plate 43. The detection assembly comprises a barometer 21, a glucometer 22 and a glass bottle 24, the barometer 21 and the glucometer 22 are fixed in the detection box 2, the glass bottle 24 is connected to the bottom of the detection box 2, and the bottom of the detection box 2 is communicated with the glass bottle 24 through a dropper 23.

Beer raw materials are saccharified in the saccharification jar 1, and if mash in the jar needs to be detected in the saccharification in-process, the detection box 2 begins to slide along the slide rail 3, is connected with the first connecting pipe 11 when the detection box 2 is at the topmost end, and the intelligent detection detects the air pressure in the saccharification jar 1 at this moment. The test box 2 is slid to the upper end of the slide rail 3 and the third connection pipe 31 on the test box 2 is aligned with the first connection pipe 11. The first connecting pipe 11 is located at the top of the mashing tank 1, and the first connecting pipe 11 is connected at a position not to mash but above the liquid surface. The first connection pipe 11 is connected to the third connection pipe 31. The telescopic rod 32 extends to take the third connecting pipe 31 to be screwed out of the wall of the detection box 2, the third connecting pipe 31 is screwed into the first connecting pipe 11 along with the extension of the third connecting pipe 31, and the external thread of the third connecting pipe 31 is matched with the internal thread of the first connecting pipe 11, so that the third connecting pipe 31 and the first connecting pipe 11 are tightly connected. The third connecting pipe 31 is extended more and more, the ejector rod 35 and the ejector block 36 on the first hollow support 34 are pushed to the sealing plate 43 of the second hollow support 41, the sealing plate 43 is pushed away from the first sealing ring 44, the sealing element is opened at the moment, the top of the saccharifying tank 1 is communicated with the inside of the detection box 2, the internal air pressure of the saccharifying tank 1 is flushed into the detection box 2, the air pressure in the saccharifying tank 1 can be detected by the barometer 21 in the detection box 2 at the moment, and then the conditions in the saccharifying tank 1 can be conveniently known by production personnel, and the mash in the saccharifying tank 1 is treated in time to be in the best saccharifying environment. When the detection is completed, the telescopic rod 32 is retracted, and the third connection pipe 31 is screwed out of the first connection pipe 11. As the third connection pipe 31 is unscrewed, the top block 36 inside the third connection pipe 31 is also separated from the sealing plate 43, the sealing plate 43 is pushed toward the first sealing ring 44 by the force of the spring 42, the sealing plate 43 is pushed against the first sealing ring 44, the first connection pipe 11 is sealed, and the first connection pipe returns to the sealed state.

When mash needs to be extracted for monitoring, the detection box 2 slides along the slide rail 3 at the position of the second connecting pipe 12, so that the third connecting pipe 31 is aligned with the second connecting pipe 12, and the first connecting pipe 11 and the third connecting pipe 31 are connected in the mode. The position of the second connecting pipe 12 on the saccharification tank 1 is below the liquid level of mash in the tank, when the top block 36 in the third connecting pipe 31 is pushed to the sealing plate 43 of the second connecting pipe 12, the sealing plate 43 is pushed away from the first sealing ring, the mash in the saccharification tank 1 is injected into the detection box 2 through the second connecting pipe 12 and the third connecting pipe 31, when the injection amount is enough to be detected, the telescopic rod 32 takes the third connecting pipe 31 to unscrew from the second connecting pipe 12, the second connecting pipe 12 returns to the sealing state again, and the mash in the saccharification tank 1 is prevented from being leaked too much. The mash enters the detection box 2, the sugar content in the mash is detected by the sugar meter 22 in the detection box 2, the mash in the detection box 2 can be dripped into the glass bottle 24 through the dropper 23, the iodine solution is originally contained in the glass bottle 24, and the iodine solution can be discolored if the mash dripped into the glass bottle 24 contains starch. By observing the color, the manager can know whether the mash contains starch and further know the mash saccharification degree, and the mash saccharification degree in the saccharification tank 1 can be known through the detection in the detection box 2. The whole detection process is carried out automatically, manual intervention is not needed, the detection efficiency can be obviously improved, and the quality of beer production is also improved.

Further, the first connection pipe 11, the second connection pipe 12, and the third connection pipe 31 are all obliquely disposed. The intelligent detection component comprises a clean water tank 26, a disinfectant tank 27 and a heater, wherein the clean water tank 26 and the disinfectant tank 27 are respectively communicated with the detection box 2, and the heater is fixed in the detection box 2. The third connecting pipe 31 is connected to the first connecting pipe or the second connecting pipe 12, and the detection box 2 and the connecting pipe may be cleaned and sterilized before the ejector ejects the sealing member. Open antiseptic solution tank 27, the antiseptic solution in the antiseptic solution tank 27 flows into antiseptic solution tank 27 to through third connecting pipe 31, the antiseptic solution still can flow into in first connecting pipe 11 or in second connecting pipe 12, and the antiseptic solution can be to the part that will flow into the mash to detection case 2 and connecting pipe etc. clean disinfection, avoids the mash to be polluted and then influences the effect that detects. After the disinfection of antiseptic solution is accomplished, drain the antiseptic solution, open clear water tank 26 again, clear water in the clear water tank 26 is washed in detecting box 2, washes remaining antiseptic solution in detecting box 2, avoids the incasement to remain antiseptic solution and influences the result that detects, and the heater setting is inside detecting box 2, and it can heat the clear water, utilizes hot water to disinfect 2 insides of detecting box. In this embodiment, the first connecting pipe 11, the second connecting pipe 12 and the point connecting pipe are all inclined at a certain angle, so that when disinfectant and clean water are removed, liquid can naturally flow away, residues of the disinfectant on the connecting pipes are reduced, and mash can flow into the detection box 2 more smoothly when being extracted.

Further, a stirrer 25 for stirring the liquid is provided inside the detection box 2, and a drain pipe is connected to the bottom of the detection box 2. When the detection box 2 is cleaned, the stirrer 25 stirs the disinfectant in the detection box 2, so that the disinfectant fully contacts each part in the detection box 2 to be fully disinfected. In the process of cleaning with clean water, the stirrer 25 can also wash the clean water to each part in the detection box 2 to wash away the adhered disinfectant.

Further, a fixing ring 37 is fixed to the outside of the third connecting pipe 31, a second sealing ring 39 is fixed to the fixing ring 37 on the side away from the detection box 2, and a pressure sensor 38 is disposed between the second sealing ring 39 and the fixing ring 37. When the third connection pipe 31 is connected to the first connection pipe 11 or the second connection pipe 12, the second sealing ring 39 of the fixing ring 37 is pressed against the second connection pipe 12 or the nozzle of the first connection pipe 11 to seal it, preventing the connection pipe from leaking during the connection process. The pressure sensor 38 detects the pressure of the second sealing ring 39 pressing the first connecting pipe 11 or the second connecting pipe 12, and when the pressure reaches the force of tight connection between the two, the telescopic rod 32 stops driving the third connecting pipe 31 to advance.

Further, a pressure relief valve 28 is connected to the top of the detection box 2. When the pressure measurement is performed, if the pressure in the saccharification tank 1 is detected to be excessive, the pressure release valve 28 is opened to release the pressure.

Further, a driving machine is arranged on the detection box 2 and is connected with the slide rail 3 in a sliding manner. The motor of driving machine for being connected with the pulley in this embodiment, pulley clamp is tight slide rail 3, slides through motor drive pulley and moves on slide rail 3, and motor reaction rate is fast and have higher moment of torsion, can take detection case 2 rapid draing.

Further, a first limiting plate 13 and a second limiting plate 14 are fixed on the side wall of the saccharification tank 1, the first limiting plate 13 is located above the first connecting pipe 11, and the second limiting plate 14 is located below the second connecting pipe 12. The first limiting plate 13 is used for supporting the detection box 2 when the third connecting pipe 31 reaches the position corresponding to the first connecting pipe 11, so as to prevent the detection box 2 from moving upwards and over-position, and the second limiting plate 14 is used for supporting the detection box 2 at the position corresponding to the third connecting pipe 31 and the second connecting pipe 12, so as to prevent the detection box 2 from sliding downwards and over-position.

Other techniques of the present embodiment employ existing techniques.

While the invention has been described with reference to a preferred embodiment, it will be understood by those skilled in the art that various changes may be made and equivalents may be substituted for elements thereof without departing from the spirit and scope of the invention. The present invention is not to be limited by the specific embodiments disclosed herein, and other embodiments that fall within the scope of the claims of the present application are intended to be within the scope of the present invention.

Claims

1. The utility model provides an intelligent beer apparatus for producing which characterized in that: comprises a saccharification tank (1) and an intelligent detection component;

one side of the saccharification tank (1) is connected with a first connecting pipe (11) and a second connecting pipe (12), and the inner walls of the first connecting pipe (11) and the second connecting pipe (12) are both provided with threads;

the intelligent detection component comprises a detection box (2), a slide rail (3), a connecting assembly and a detection assembly;

the slide rail (3) is vertically fixed on one side of the saccharification tank (1), the detection box (2) is connected to the slide rail (3) in a sliding manner, and the connecting assembly comprises a third connecting pipe (31), a threaded ring (30), a telescopic rod (32) and a bearing (33);

the threaded ring (30) is embedded in the side wall of the detection box (2), and the fixed end of the telescopic rod (32) is fixed on the side wall of the detection box (2);

the outer wall of the third connecting pipe (31) is provided with threads, the third connecting pipe (31) penetrates through the threaded ring (30) and is in threaded connection with the threaded ring (30), the inner ring of the bearing (33) is in specified connection with the outer wall of the third connecting pipe (31), and the free end of the telescopic rod (32) is fixedly connected with the outer ring of the bearing (33);

a pushing part is arranged in the third connecting pipe (31), sealing parts are arranged in the first connecting pipe (11) and the second connecting pipe (12), the pushing part comprises a first hollow support (34), a push rod (35) and a push block (36), the first hollow support (34) is fixed in the third connecting pipe (31), the push rod is fixed on one side of the first hollow support (34) far away from the detection box (2), the push block (36) is fixed at the tail end of the push rod (35), the sealing parts comprise a second hollow support (41), a spring (42), a first sealing ring (44) and a sealing plate (43), the second hollow support (41) and the first sealing ring (44) are fixed on the inner wall of the second connecting pipe (12) and the inner wall of the first connecting pipe (11), the first sealing ring (44) is positioned on one side of the second hollow support (41) far away from the saccharification tank (1), one end of the spring (42) is fixed on the second hollow support (41), the other end of the spring (42) is connected with a sealing plate (43), and the sealing plate (43) is propped against the first sealing ring (44);

the detection assembly comprises a barometer (21), a glucometer (22) and a glass bottle (24), the barometer (21) and the glucometer (22) are fixed in the detection box (2), the glass bottle (24) is connected to the bottom of the detection box (2), and the bottom of the detection box (2) is communicated with the glass bottle (24) through a dropper (23).

2. An intelligent beer production apparatus according to claim 1, wherein:

the first connecting pipe (11), the second connecting pipe (12) and the third connecting pipe (31) are all obliquely arranged;

the intelligent detection component comprises a clean water tank (26), a disinfectant tank (27) and a heater, wherein the clean water tank (26) and the disinfectant tank (27) are respectively communicated with the detection box (2), and the heater is fixed in the detection box (2).

3. An intelligent beer production apparatus according to claim 2, wherein:

the detection box (2) is internally provided with a stirrer (25) for stirring liquid, and the bottom of the detection box (2) is connected with a drain pipe.

4. An intelligent beer production apparatus according to claim 1, wherein:

the outside of third connecting pipe (31) is fixed with solid fixed ring (37), and solid fixed ring (37) keep away from one side of detection case (2) and are fixed with second sealing ring (39), are provided with pressure sensor (38) between second sealing ring (39) and solid fixed ring (37).

5. An intelligent beer production apparatus according to claim 1, wherein:

the top of the detection box (2) is connected with a pressure release valve (28).

6. An intelligent beer production apparatus according to claim 1, wherein:

the detection box (2) is provided with a driving machine, and the driving machine is connected with the sliding rail (3) in a sliding mode.

7. An intelligent beer production apparatus according to claim 1, wherein:

a first limiting plate (13) and a second limiting plate (14) are fixed on the side wall of the saccharification tank (1), the first limiting plate (13) is located above the first connecting pipe (11), and the second limiting plate (14) is located below the second connecting pipe (12).