CN219715416U - White spirit brewing mouthpiece monitoring devices - Google Patents

Abstract

The utility model relates to an auxiliary appliance for brewing white spirit, in particular to a device for monitoring a white spirit brewing mouthpiece, which comprises a detection tube communicated with a production pit, wherein the detection tube is used for enabling air flow in the production pit to flow through and be discharged from the production pit; the detector is arranged in the detection tube and used for monitoring the flow speed of the airflow, and a display device used for displaying the detection value is arranged on the detector. According to the utility model, the detector is used for detecting the mouthpiece of the production pit, so that the detection result is more standard and accurate, and the reliability of the detection result is improved conveniently. Meanwhile, the device can be connected with the Internet of things, automatic control detection and information acquisition are realized, and the intelligent degree of use is improved.

Description

White spirit brewing mouthpiece monitoring devices

Technical Field

The utility model relates to an auxiliary device for brewing white spirit, in particular to a device for monitoring a white spirit brewing mouthpiece.

Background

The important judgment standard of fermentation in the white spirit brewing production cellar is a mouthpiece, and the fermentation condition in the cellar can be intuitively known by detecting the air quantity of the mouthpiece. The traditional mouthpiece observation mode is that an opening is formed above a pit, a detector perceives the mouthpiece through nose and judges the mouthpiece strength according to own experience, and the detection mode has the possibility of non-uniform standard and inaccurate judgment.

Therefore, there is a need for improvement in the existing mouthpiece detection, and a more reasonable scheme needs to be provided for the mouthpiece detection to ensure the standard and consistency of the detection result, thereby improving the reliability of the mouthpiece detection result. Therefore, a more reasonable technical scheme is required to be provided, and the technical problems in the prior art are solved.

Disclosure of Invention

At least to overcome one of the above mentioned drawbacks, the present utility model provides a monitoring device for a white spirit brewing mouthpiece, which is matched with a production pit to automatically monitor the strength of the mouthpiece and judge to obtain a unified monitoring value, so as to objectively and accurately determine the fermentation condition in the production pit.

In order to achieve the above object, the mouthpiece monitoring device disclosed by the utility model can adopt the following technical scheme:

a white spirit brewing mouthpiece monitoring device comprises a detection tube communicated with a production pit, wherein the detection tube is used for enabling air flow in the production pit to flow through and be discharged from the production pit; the detector is arranged in the detection tube and used for monitoring the flow speed of the airflow, and a display device used for displaying the detection value is arranged on the detector.

According to the mouthpiece monitoring device disclosed by the above, the air flow in the production pit is guided through the detection pipe, and when the air flow passes through the detection pipe, the detector can detect the intensity of the air flow in real time and display the air flow through the display device. Therefore, when the mouthpiece is monitored, an objective and accurate judgment result can be obtained according to the numerical value, and the accuracy and reliability of the mouthpiece monitoring are improved.

Further, in the present utility model, the on-off structure of the detection tube is limited, and the detection tube is kept clear when monitoring is needed, and is turned off when monitoring is not needed, and the detection tube can be visualized in various ways, particularly but not exclusively, and the on-off structure is optimized and one of the possible choices is proposed herein: the detection tube is provided with a control valve body for controlling on-off, the control valve body controls the opening of the tube body of the detection tube during detection, and the control valve body controls the closing of the tube body of the detection tube during detection. When the scheme is adopted, the control valve body can adopt various structures such as a ball valve, a diaphragm valve and the like, and on-off control is realized through manual operation; in some schemes, solenoid valves may also be used to provide control through remote control.

Furthermore, in the utility model, in order to meet the requirement of detecting and maintaining the reliability of long-term use and ensuring the reliability of parts, the control valve body is used as a vulnerable part and needs to be periodically maintained, and in order to improve the convenience of maintenance, one of the feasible choices is optimized and proposed: the control valve body is detachably arranged on the detection tube. When the scheme is adopted, the overhaul and replacement of the control valve body are convenient, so that the control reliability of the whole device is guaranteed.

Still further, in accomplishing the disassembly of the control valve body, this may be accomplished in a variety of ways, particularly but not exclusively, where optimization is performed and one of the possible options is presented: the detection pipe comprises a detachable control pipe section, and the control valve body is arranged on the control pipe section. When the scheme is adopted, the control pipe section can be installed and detached from the detection pipe, so that the control valve body can be synchronously installed and detached.

Further, in order to improve accuracy of the mouthpiece detection, the production pit needs to be sealed to guide all the air flows into the detection tube, and the specific structure for guiding the air flows is not limited, and optimization is performed and one of possible choices is provided herein: the detecting tube is also provided with a sealing structure, and the sealing structure is used for sealing the communication part between the detecting tube and the production cellar.

Still further, the sealing structure may take a variety of configurations, and optimization herein is made and one possible choice is presented: the sealing structure comprises a sealing cover.

Still further, optimizing the seal cap structure, one possible option is presented: the sealing cover comprises a conical cover, the upper end of the sealing cover is a narrow-mouth end and is connected with the detection pipe, and the lower end of the sealing cover is a wide-mouth end and is used for covering a production pit. When the scheme is adopted, the sealing ring can be arranged at the lower end of the sealing cover to realize complete sealing at the joint, so that the effect of optimally collecting air flow is achieved.

Further, while the mouthpiece is being inspected, the air flow in the production pit is better guided into the inspection tube, and the guiding structure can be improved, so that one possible choice is optimized and proposed herein: the lower part of the sealing structure is provided with a gas collecting tube coaxially communicated with the detection tube, and the tube diameter of the gas collecting tube is larger than that of the detection tube. When the scheme is adopted, the gas collecting tube and the detection tube can be communicated in a welding way or integrally formed.

Further, the detector is turned on during detection and turned off during non-detection, and corresponding detection parameters are required to be set, so that optimization is performed and one of possible choices is proposed: the detector is provided with a plurality of control buttons. When the scheme is adopted, the control buttons at least comprise a switch button, a reset button and the like.

Furthermore, the detector uses electric power as driving energy, and a plurality of power supply modes can be adopted, so that optimization is performed and one of the possible choices is provided: the detector is internally provided with a power supply. With such a scheme, a dry cell, a storage battery, or the like can be mounted as a power source.

Compared with the prior art, the technical scheme disclosed by the utility model has the following partial beneficial effects:

according to the utility model, the detector is used for detecting the mouthpiece of the production pit, so that the detection result is more standard and accurate, and the reliability of the detection result is improved conveniently. Meanwhile, the device can be connected with the Internet of things, automatic control detection and information acquisition are realized, and the intelligent degree of use is improved.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present utility model, the drawings that are needed in the embodiments will be briefly described below, it being understood that the following drawings only illustrate some embodiments of the present utility model and therefore should not be considered limiting the scope, and other related drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

Fig. 1 is a schematic structural diagram of a monitoring device.

In the above figures, the meaning of each reference numeral is:

1. a detection tube; 2. a display device; 3. a control button; 4. a detector; 5. controlling the pipe section; 6. a control valve body; 7. a sealing structure; 8. and a gas collecting tube.

Detailed Description

The utility model is further illustrated by the following description of specific embodiments in conjunction with the accompanying drawings.

Aiming at the condition that the existing white spirit brewing mouthpiece monitoring relies on manual experience and the result is inaccurate and the standard is not uniform, the following embodiment is optimized to overcome the defects in the prior art.

Examples

As shown in fig. 1, the embodiment provides a white spirit brewing mouthpiece monitoring device, which comprises a detection pipe 1 communicated with a production pit, wherein the detection pipe 1 is used for enabling air flow in the production pit to flow through and be discharged from the production pit; a detector 4 for monitoring the flow rate of the air flow is arranged in the detection tube 1, and a display device 2 for displaying the detection value is arranged on the detector 4.

According to the mouthpiece monitoring device disclosed by the embodiment, the airflow in the production pit is guided through the detection pipe 1, and when the airflow passes through the detection pipe 1, the detector 4 can detect the intensity of the airflow in real time and display the intensity through the display device 2. Therefore, when the mouthpiece is monitored, an objective and accurate judgment result can be obtained according to the numerical value, and the accuracy and reliability of the mouthpiece monitoring are improved.

In this embodiment, the on-off structure of the detecting tube 1 is limited, and the detecting tube 1 is kept smooth when monitoring is needed, and is turned off when monitoring is not needed, and the on-off structure can be visualized in various modes, particularly but not exclusively, and the on-off structure is optimized and one of the possible choices is adopted in this embodiment: the detection tube 1 is provided with a control valve body 6 for controlling on-off, the control valve body 6 controls the tube body of the detection tube 1 to be opened during detection, and the control valve body 6 controls the tube body of the detection tube 1 to be closed during detection. When the scheme is adopted, the control valve body 6 can adopt various structures such as a ball valve, a diaphragm valve and the like, and on-off control is realized through manual operation; in some schemes, solenoid valves may also be used to provide control through remote control.

In this embodiment, in order to meet the requirement of detecting and maintaining the reliability of long-term use to ensure the reliability of the components, the control valve body 6 needs to be periodically maintained as a wearing part, and in order to improve the convenience of maintenance, this embodiment optimizes and adopts one of the possible choices: the control valve body 6 is detachably arranged on the detection tube 1. When the scheme is adopted, the control valve body 6 is convenient to overhaul and replace, so that the control reliability of the whole device is guaranteed.

In achieving the disassembly setting of the control valve body 6, this embodiment can be achieved in a variety of ways, in particular but not exclusively, and is optimized and adopts one of the possible options: the detection tube 1 comprises a detachable control tube section 5, and the control valve body 6 is arranged on the control tube section 5. By adopting the scheme, the control pipe section 5 can be installed and detached from the detection pipe 1, so that the control valve body 6 can be synchronously installed and detached.

In order to improve accuracy of the mouthpiece detection, the production pit needs to be sealed to guide all the air flows into the detection tube 1, and the specific structure for guiding the air flows is not limited, and this embodiment is optimized and adopts one of the possible choices: the detection tube 1 is also provided with a sealing structure 7, and the sealing structure 7 is used for sealing the communication part between the detection tube 1 and the production pit.

The sealing structure 7 can specifically take various structures, and this embodiment is optimized and adopts one of the possible choices: the sealing structure 7 comprises a sealing cover.

Optimizing the structure of the sealing cover provides one of the possible choices: the sealing cover comprises a conical cover, the upper end of the sealing cover is a narrow-mouth end and is connected with the detection tube 1, and the lower end of the sealing cover is a wide-mouth end and is used for covering a production pit. When the scheme is adopted, the sealing ring can be arranged at the lower end of the sealing cover to realize complete sealing at the joint, so that the effect of optimally collecting air flow is achieved.

While the mouthpiece is being inspected, the air flow in the production pit is better guided into the inspection tube 1, and the guiding structure can be improved, so that the embodiment is optimized and one of the possible choices is adopted: the lower part of the sealing structure 7 is provided with a gas collecting tube 8 coaxially communicated with the detection tube 1, and the tube diameter of the gas collecting tube 8 is larger than that of the detection tube 1. By adopting the scheme, the gas collecting tube 8 and the detection tube 1 can be communicated in a welding way or integrally formed.

The detector 4 is turned on during detection and turned off during non-detection, and corresponding detection parameters need to be set, so that optimization is performed and one of possible choices is adopted: the detector 4 is provided with a plurality of control buttons 3. When such a scheme is adopted, the control button 3 at least includes a switch button, a reset button, and the like.

The detector 4 uses electricity as driving energy, and in particular, various power supply modes can be adopted, and the power supply modes are optimized and one of the possible options is adopted: a power supply is arranged in the detector 4. With such a scheme, a dry cell, a storage battery, or the like can be mounted as a power source.

The above is an embodiment exemplified in this example, but this example is not limited to the above-described alternative embodiments, and a person skilled in the art may obtain various other embodiments by any combination of the above-described embodiments, and any person may obtain various other embodiments in the light of this example. The above detailed description should not be construed as limiting the scope of the present embodiments, which is defined in the appended claims.

Claims (10)

1. A white spirit brewing mouthpiece monitoring device which is characterized in that: comprises a detection pipe (1) communicated with the production pit, wherein the detection pipe (1) is used for enabling air flow in the production pit to flow through and be discharged from the production pit; a detector (4) for monitoring the airflow velocity is arranged in the detection tube (1), and a display device (2) for displaying the detection value is arranged on the detector (4).

2. The white spirit brewing mouthpiece monitoring device of claim 1, wherein: the detection tube (1) is provided with a control valve body (6) for controlling on-off, the control valve body (6) controls the tube body of the detection tube (1) to be opened during detection, and the control valve body (6) controls the tube body of the detection tube (1) to be closed when the detection is finished.

3. The white spirit brewing mouthpiece monitoring device of claim 2, wherein: the control valve body (6) is detachably arranged on the detection tube (1).

4. A white spirit brewing mouthpiece monitoring device according to claim 3, wherein: the detection tube (1) comprises a detachable control tube section (5), and the control valve body (6) is arranged on the control tube section (5).

5. The white spirit brewing mouthpiece monitoring device of claim 1, wherein: the detection tube (1) is also provided with a sealing structure (7), and the sealing structure (7) is used for sealing the communication part between the detection tube (1) and the production cellar.

6. The white spirit brewing mouthpiece monitoring device of claim 5, wherein: the sealing structure (7) comprises a sealing cover.

7. The white spirit brewing mouthpiece monitoring device of claim 6, wherein: the sealed cowling include the toper cover, the upper end of sealed cowling be narrow mouth end and be connected with detecting tube (1), the lower extreme of sealed cowling is wide mouth end and is used for covering the production pit mouth.

8. The white spirit brewing mouthpiece monitoring device of any of claims 5 to 7, wherein: the lower part of the sealing structure (7) is provided with a gas collecting tube (8) coaxially communicated with the detection tube (1), and the tube diameter of the gas collecting tube (8) is larger than that of the detection tube (1).

9. The white spirit brewing mouthpiece monitoring device of claim 1, wherein: the detector (4) is provided with a plurality of control buttons (3).

10. The white spirit brewing mouthpiece monitoring device of claim 1 or 9, wherein: and a power supply is arranged in the detector (4).