CN109602275B

CN109602275B - A device for decocting soup

Info

Publication number: CN109602275B
Application number: CN201810895038.8A
Authority: CN
Inventors: 洪浛檩; 解家瑞
Original assignee: Zhongrui Funing Robotics (shenyang) Co ltd
Current assignee: Zhongrui Funing Robotics (shenyang) Co ltd
Priority date: 2018-08-08
Filing date: 2018-08-08
Publication date: 2024-06-21
Anticipated expiration: 2038-08-08
Also published as: CN109602275A

Abstract

A device for decocting soup comprises a pot body and a pot cover, wherein a siphon inlet and a material inlet are arranged on the pot cover; the artificial controllable factors in the soup boiling process are excluded through the automatic novel equipment, so that the fluctuation of the taste of the soup stock boiled by any chef at any time and any place is within the acceptable range, and the time and energy can be saved. And the device is more stably fixed on the pot body through the temporary locking device, so that the device is more stable and accurate in analysis.

Description

A device for decocting soup

Technical Field

The invention relates to a device and a method for boiling soup.

Background

In the catering industry, especially in the catering industry containing soup, such as hot pot, stewed with iron, sauced beef, etc., a great deal of effort is required to be put into the preparation of the soup stock. But as the chain grows in size, it is not possible for a cook to complete the "soup stock" at different locations and at different times. With this is how to control the fluctuation of the taste of the "soups" made by different chefs at different time and place within a certain range.

Disclosure of Invention

The invention aims to:

a device for boiling soup aims to solve the problems existing in the past.

The technical scheme is as follows:

The utility model provides a device for decocting soup, includes pot body 1, pot cover 2, its characterized in that: a siphon inlet 3 and a material inlet 5 are arranged on the pot cover 2;

The device also comprises a core analyzer 9 comprising a siphon 12, a spectrometer 15, a master 16, a sampler 17 and a sampling vessel 18; the spectrometer 15 is arranged in the sampling container 18, analyzes the sample entering the sampling container 18, and is connected to the main controller 16; the siphon 12 is a portal pipe formed by connecting two vertical pipes and a transverse pipe (as shown in fig. 1 and 3), one vertical pipe is inserted into the sampling container 18, and the other vertical pipe is inserted into the pan body 1 through the siphon inlet 3 for sampling when in use;

The main controller is used as a core, and the sampler is connected with the main controller;

the sampler is controlled by the main controller, and a program is arranged in the main controller for controlling the collection of samples, such as timing, random and the like;

The sampler is provided with a motor, and can be regarded as a black box, and has all conditions required for completing sampling, such as the motor;

A user, such as a chef;

the restarting of the whole system is controlled;

the core analyzer 9 is also provided with a display screen 14, and the display screen 14 is connected with a main controller 16.

The core analyzer 9 is further provided with an expansion slot 13.

An air pressure adjusting knob 6 is also arranged on the pot cover 2.

The pot cover 2 is also provided with a pot cover handle 4.

The core analyzer 9 is also provided with a connecting frame 8.

The connecting frame 8 is a cross rod which can transversely prop against the outer side wall of the pot body 1, a temporary locking device is arranged at the position of the outer side wall of the pot body 1, which is used for propping against the connecting frame 8, and the temporary locking device comprises an inner sleeve 01, an outer sleeve 02 and a tensioning plate 03; the outer sleeve 02 is sleeved outside the inner sleeve 01 (the outer sleeve 02 and the inner sleeve 01 are both cylindrical), the outer sleeve 02 and the inner sleeve are in threaded fit, the outer sleeve 02 can rotate relative to the inner sleeve 01 (namely, the inner sleeve 01 is axially moved by twisting), the inner sleeve 01 is arranged on the outer side wall of the pot body 1, the axial direction of the inner sleeve 01 is perpendicular to the axial direction of the pot body 1, (the installation can be realized through flange installation and also can be welded, and when the installation is carried out, enough movable space is needed to be reserved for the bottom end of the tensioning plate 03); the side walls of the upper end and the lower end of the inner sleeve 01 are respectively provided with an upper opening 01-1 and a lower opening 01-2, the widths H of the upper opening 01-1 and the lower opening 01-2 are the same, when the connecting frame is used, the connecting frame 8 can enter the inner sleeve 01 from the upper opening 01-1, the side wall of the outer sleeve 02 is provided with an outer sleeve opening 02-1, and the width of the outer sleeve opening 02-1 is not smaller than the widths of the upper opening 01-1 and the lower opening 01-2;

The tensioning plate 03 is arranged at the position of the lower notch 01-2, the length direction of the tensioning plate 03 is consistent with the length direction of the inner sleeve 01, the middle parts of two sides of the tensioning plate 03 are movably connected with two side walls of the lower notch 01-2 through the rotating shaft 03-1, a lever structure taking the rotating shaft 03-1 as a fulcrum is formed at the position of the lower notch 01-2, the top end 03-2 of the tensioning plate 03 is a movable end, the bottom end 03-3 of the tensioning plate 03 is connected with the tensioning rod 04 through a movable shaft, the tensioning rod 04 is vertically arranged along the outer side wall of the pot body 1, (the bottom end 03-3 of the tensioning plate 03 extends out of one end, close to the pot body 1, of the outer sleeve 02, namely, the bottom end 03-3 of the tensioning plate 03 is required to be positioned between the outer sleeve 02 and the pot body 1, namely, the pulling direction of the tensioning rod 04 is also axially parallel to the pot body 1, and is vertical to the ground.

The outer side wall of the pot body 1 is also provided with a reference fixing plate 05 for the tension rod 04 to pass through, the tension rod 04 can perform up-and-down drawing action relative to the reference fixing plate 05, the tension rod 04 is sleeved with a tension spring 06, the tension spring 06 enables the tension rod 04 to always keep the force of downwards pulling the bottom end 03-3 of the tension plate 03, (the upper end of the tension spring 06 is tightly propped against the reference fixing plate 05, and the lower end of the tension rod 04 is fixed)

In use, the top of the jacket notch 02-1 is screwed to the upper end to make it correspond to the upper notch 01-1 of the inner jacket 01, at this time, the lower notch 01-2 of the inner jacket 01 is closed by the jacket 02 (as shown in fig. 7 and 8), the bottom end 03-3 of the tension plate 03 is clamped and limited in the lower notch 01-2 of the inner jacket 01 by the jacket 02 (as shown in fig. 6-1, the bottom end 03-3 of the tension plate 03 cannot be pulled), at this time, the tension spring 06 is compressed maximally, then the connecting frame 8 sequentially passes through the jacket notch 02-1 and the upper notch 01-1 from top to bottom (as shown in fig. 7, the downward arrow of the connecting frame 8 passes through), then the jacket 02 is rotated to make the upper notch 01-1 of the jacket 01 correspond to the lower notch 01-2 of the inner jacket 01 (as shown in fig. 10 and 11), at this time, the upper notch 01-1 of the inner jacket 02 is closed by the jacket 02, and the lower notch 01-2 is opened, then under the action of the tension spring 06, the tension rod 04 is pushed down, (i.e. along the downward direction of the lower notch 03 in fig. 6-1 or the downward arrow of the tension plate 03-1, as shown in fig. 9) and the bottom end 03-3 is pulled out of the side wall (as shown in fig. 3 and the downward arrow of the top 03-3) of the inner jacket 01 is pulled down (as shown in fig. 9). In this way, the connecting frame 8 is relatively limited in the inner sleeve 01, because the siphon 12 is inserted into the pot body 1 when the connecting frame 8 falls into the inner sleeve 01, the left and right directions of the connecting frame 8 are limited, the connecting frame 8 is limited up and down by the inner sleeve 01, and meanwhile, the connecting frame 8 is basically not inclined due to the tight pushing of the tensioning plate 03, so that the whole core analyzer is almost fixed at a specific position, and the final effect is prevented from being influenced by inaccurate sampling caused by movement and inclination.

When the connecting frame 8 is disassembled, the tension rod 04 is pushed upwards, so that the bottom end 03-3 of the tension plate 03 returns to the lower notch 01-2, at the moment, the top end 03-2 of the tension plate 03 is also contacted with the pushing of the connecting frame 8, then the outer sleeve 02 is twisted, the notch 02-1 of the outer sleeve corresponds to the upper notch 01-1 of the inner sleeve 01 again, and then the connecting frame 8 is taken out, so that the whole core analyzer can be disassembled.

The top 03-2 of the tensioning plate 03 is provided with a protrusion 03-2-1 for clamping the outer wall of the bottom of the connecting frame 8, the outer wall of the bottom of the connecting frame 8 is provided with a clamping groove 8-1 for inserting the protrusion 03-2-1, and when in use, the protrusion 03-2-1 stretches into the clamping groove 8-1 to further strengthen the clamping of the connecting frame 8.

The plurality of clamping grooves 8-1 are axially arranged along the connecting frame 8. (to accommodate different location chucking); the tensioning rod 04 is provided with a spanner 07 which can conveniently pull the tensioning rod 04.

The soup boiling method implemented by the soup boiling device is characterized in that: the analyzer needs to be assembled with the pan body before use; firstly, fixing a connecting frame on a pot body through a screw, and then fixing the connecting frame and an analyzer through the screw, so that the connection between the pot body and the analyzer is realized; various components in a large number of qualified soup stock are analyzed by a certain method in advance, and data fusion is carried out on similar data of the obtained reliable samples to obtain a fixed content proportion database A of each component; the analysis method is a gas chromatography-mass spectrometry (GC-MS), namely a mixed liquid and mixed gas component qualitative and quantitative method or a spectrum method, the two detection methods are well known, and the known content is utilized; the gas chromatography-mass spectrometry (GC-MS) method is used for realizing the identification of protein, lipid and polysaccharide cultural relic organic matters; sampling the soup being made through the siphon 12 and obtaining the ratio B of the various components in the soup using some method; carrying out a spectroscopic method, namely carrying out accurate qualitative and quantitative analysis on the heavy metal elements, potassium, sodium and calcium beneficial metal elements on the liquid sample; the adjustment strategy is obtained by comparing the B with the A, and is displayed to a user through a display screen; if B is the same as A within a certain threshold range, giving a prompt of 'soup stock qualification' to a user in an adjustment strategy; a restart button behind the core analyzer may be used to restart the facility if the facility is accidentally down during use.

The advantages and effects are that:

A device for boiling soup is characterized by comprising an analyzer, a connecting frame and a pot body.

The analyzer is characterized by comprising a display screen, a core analyzer, a restarting button, an expansion card slot and a siphon. The display screen is used for displaying the adjustment strategy given by the analyzer.

The core analyzer is used for analyzing the sampled soup to obtain the content proportion of each component. The core analyzer comprises a spectrometer, a master controller, a sampler and a sampling container. The spectrometer is used for completing the analysis of the ingredients of the soup. The master controller completes the operation of the data and the giving of the adjustment strategy. The sampler finishes sampling the soup. The sampling container is used for containing a soup sample. The restart button is used to restart the device in special cases.

The expansion slot is used for inserting and detaching the memory card. Three filter screens are arranged in the siphon.

The filter screen is used for filtering large particles in the soup. The connecting frame is used for connecting the analyzer with the pot body. The pot body comprises a siphon inlet, a pot cover handle, a material inlet, an air pressure adjusting knob and a pot cover closed switch device. The siphon inlet is used for inserting and extracting the siphon. The pot cover handle is used for opening and closing the pot cover.

The material inlet port can directly input the material from the inlet port without having to open the pot cover and then add the material. The air pressure adjusting knob can adjust the air pressure in the pot body. The pot cover airtight switch device is used for assisting in airtight opening and closing of the pot cover. The beneficial effects of the invention are as follows: the soup with similar taste and style can be prepared through the facility no matter the chain store is opened in the skyline or the sea angle, so that higher dining experience is provided for consumers, and welfare is created for companies.

In the past, if the components to be detected are all detected and then taken to a designated place for detection, the device is directly arranged on a pot body, and whether the proportion of each component in the pot body meets the requirement of soup stock is determined by detecting soup in real time, if the proportion does not meet the requirement, a chef can properly adjust the pot body according to an adjustment strategy given by a display screen to meet the requirement of soup stock. The artificial controllable factors in the soup boiling process are excluded through the automatic novel equipment, so that the fluctuation of the taste of the soup stock boiled by any chef at any time and any place is within the acceptable range, and the time and energy can be saved.

And the device is more stably fixed on the pot body through the temporary locking device, so that the device is more stable and accurate in analysis.

Drawings

FIG. 1 is a schematic diagram of a core analyzer, i.e., components connected thereto;

FIG. 2 is a schematic view of a pan body and components connected thereto;

FIG. 3 is a schematic view of the use of the core analyzer in connection with a pan;

FIG. 4 is a side view of a core analyzer;

FIG. 5 is a flow chart of the use of the present invention;

FIG. 6 is a schematic view of the temporary locking mechanism in an installed position;

FIG. 6-1 is an enlarged view of the circle in FIG. 6, i.e., an enlarged view of the structure of the temporary locking mechanism;

FIG. 7 is a side cross-sectional view of the temporary locking mechanism; the arrow direction in fig. 7 is the direction in which the connector is inserted;

Fig. 8 is an oblique perspective view of the temporary locking device (for convenience of displaying the state of the tension plate, a perspective view is taken from the bottom to the top) with the arrow direction being the direction in which the connecting frame is inserted;

FIG. 9 is a view of the usage state of FIG. 6-1;

FIG. 10 is a view showing a state of use of the temporary locking device; the arrow direction on the upper surface is the direction of inserting the connecting frame; the arrow direction below is the movement direction of the tension rod;

Fig. 11 is a perspective view obliquely from below to above in the use state of fig. 8 (for convenience of illustration of the state of the tension plate, a perspective view obliquely from below is employed). The direction of the left arrow is the direction of inserting the connecting frame; the right arrow direction is the direction of movement of the tie rod.

Detailed Description

In order that the above-recited objects, features and advantages of the present invention will become more readily apparent, a more particular description of the invention briefly described below will be rendered by reference to the appended drawings.

The device also comprises a core analyzer 9 comprising a siphon 12, a spectrometer 15, a master 16, a sampler 17 and a sampling vessel 18; the spectrometer 15 is arranged in the sampling container 18, analyzes the sample entering the sampling container 18, and is connected to the main controller 16; the siphon 12 is a portal pipe formed by connecting two vertical pipes and a transverse pipe (as shown in fig. 1 and 3), wherein one vertical pipe is inserted into the sampling container 18 to adopt a sample into the sampling container 18, and the other vertical pipe is inserted into the pot body 1 through the siphon inlet 3 for sampling when in use;

The sampler is a device for controlling the siphon to suck the sample;

A user, such as a chef;

the restart button 11 controls the whole system to restart, similar to the restart of a computer;

The core analyzer 9 is further provided with an expansion slot 13.

An air pressure adjusting knob 6 is also arranged on the pot cover 2.

The pot cover 2 is also provided with a pot cover handle 4.

The core analyzer 9 is also provided with a connecting frame 8.

The connecting frame 8 is a cross rod which can transversely prop against the outer side wall of the pot body 1, a temporary locking device is arranged at the position of the outer side wall of the pot body 1, which is used for propping against the connecting frame 8, and the temporary locking device comprises an inner sleeve 01, an outer sleeve 02 and a tensioning plate 03; the outer sleeve 02 is sleeved outside the inner sleeve 01 (the outer sleeve 02 and the inner sleeve 01 are cylindrical), the outer sleeve 02 and the inner sleeve are in threaded fit, the outer sleeve 02 can rotate relative to the inner sleeve 01, the inner sleeve 01 is arranged on the outer side wall of the pot body 1, the axial direction of the inner sleeve 01 is perpendicular to the axial direction of the pot body 1, (the installation can be realized through flange installation or welding, and when the installation is realized, enough movable space is needed to be reserved at the bottom end of the tensioning plate 03); the side walls of the upper end and the lower end of the inner sleeve 01 are respectively provided with an upper opening 01-1 and a lower opening 01-2, the widths H of the upper opening 01-1 and the lower opening 01-2 are the same, when the connecting frame is used, the connecting frame 8 can enter the inner sleeve 01 from the upper opening 01-1, the side wall of the outer sleeve 02 is provided with an outer sleeve opening 02-1, and the width of the outer sleeve opening 02-1 is not smaller than the widths of the upper opening 01-1 and the lower opening 01-2;

The tensioning plate 03 is arranged at the position of the lower notch 01-2, the length direction of the tensioning plate 03 is consistent with the length direction of the inner sleeve 01, the middle parts of two sides of the tensioning plate 03 are movably connected with two side walls of the lower notch 01-2 through the rotating shaft 03-1, so that the tensioning plate 03 forms a lever structure taking the rotating shaft 03-1 as a fulcrum at the position of the lower notch 01-2, the top end 03-2 of the tensioning plate 03 is a movable end, the bottom end 03-3 of the tensioning plate 03 is connected with the tensioning rod 04 through a movable shaft, the tensioning rod 04 is vertically arranged along the outer side wall of the pot body 1, (namely, the pulling direction of the tensioning rod 04 is axially parallel to the pot body 1, and is vertical to the ground)

The outer side wall of the pot body 1 is also provided with a reference fixing plate 05 through which a tension rod 04 passes, the tension rod 04 can perform up-and-down drawing action relative to the reference fixing plate 05, the tension rod 04 is sleeved with a tension spring 06, the tension spring 06 enables the tension rod 04 to always keep the force of downwards pulling the bottom end 03-3 of the tension plate 03, the upper end of the tension spring 06 is tightly propped against the reference fixing plate 05, and the tension rod 04 is fixed at the lower end.

In use, the top of the coat notch 02-1 is twisted to the upper end to correspond to the upper notch 01-1 of the inner sleeve 01, at this time, the lower notch 01-2 of the inner sleeve 01 is closed by the coat 02 (as shown in fig. 7 and 8), the bottom 03-3 of the tension plate 03 is clamped and limited in the lower notch 01-2 of the inner sleeve 01 by the coat 02, at this time, the tension spring 06 is compressed maximally, then the connecting frame 8 sequentially passes through the coat notch 02-1 and the upper notch 01-1 from top to bottom and then enters the inner sleeve 01, then the coat 02 is rotated, so that the coat notch 02-1 corresponds to the lower notch 01-2 of the inner sleeve 01 (as shown in fig. 10 and 11), at this time, the upper notch 01-1 of the inner sleeve 01 is closed by the coat 02, the lower notch 01-2 is opened, then under the action of the tension spring 06, the tension rod 04 is pushed down, (i.e. along the direction of the lower direction in fig. 6-1 or the direction of the arrow in fig. 11), at this time, the bottom 03-3 of the tension plate 03 is pulled out of the lower notch 01-2 and the bottom 03-3 of the tension plate 03 is pulled out from top of the lower notch 01-2, and the side wall of the inner sleeve 01 is connected to the bottom of the inner sleeve 01-2. In this way, the connecting frame 8 is relatively limited in the inner sleeve 01, because the siphon 12 is inserted into the pot body 1 when the connecting frame 8 falls into the inner sleeve 01, the left and right directions of the connecting frame 8 are limited, the connecting frame 8 is limited up and down by the inner sleeve 01, and meanwhile, the connecting frame 8 is basically not inclined due to the tight pushing of the tensioning plate 03, so that the whole core analyzer is almost fixed at a specific position, and the final effect is prevented from being influenced by inaccurate sampling caused by movement and inclination.

The soup boiling method implemented by the soup boiling device is characterized in that: the analyzer needs to be assembled with the pan body before use; firstly, fixing a connecting frame on a pot body through a screw, and then fixing the connecting frame and an analyzer through the screw, so that the connection between the pot body and the analyzer is realized; various components in a large number of qualified soup stock are analyzed by a certain method in advance, and data fusion is carried out on similar data of the obtained reliable samples to obtain a fixed content proportion database A of each component; the analysis method is a gas chromatography-mass spectrometry (GC-MS), namely a mixed liquid and mixed gas component qualitative and quantitative method or a spectrum method, the two detection methods are well known, and the gas chromatography-mass spectrometry (GC-MS) is used for realizing the identification of protein, lipid and polysaccharide cultural relics by utilizing the well known content; sampling the soup being made through the siphon 12 and obtaining the ratio B of the various components in the soup using some method; carrying out a spectroscopic method, namely carrying out accurate qualitative and quantitative analysis on the heavy metal elements, potassium, sodium and calcium beneficial metal elements on the liquid sample; the adjustment strategy is obtained by comparing the B with the A, and is displayed to a user through a display screen; if B is the same as A within a certain threshold range, giving a prompt of 'soup stock qualification' to a user in an adjustment strategy; a restart button behind the core analyzer may be used to restart the facility if the facility is accidentally down during use.

In summary, the device comprises an analyzer, a connecting frame and a pan body. The analyzer comprises a display screen, a core analyzer, a restarting button, an expansion card slot and a siphon. The display screen is used for displaying the adjustment strategy given by the analyzer. The core analyzer is used for analyzing the sampled soup to obtain the content proportion of each component. The core analyzer comprises a spectrometer, a master controller, a sampler and a sampling container. The spectrometer is used for completing the analysis of the ingredients of the soup.

The master controller completes the operation of the data and the giving of the adjustment strategy. The sampler finishes sampling the soup. The sampling container is used for containing a soup sample. The restart button is used to restart the device in special cases. The expansion slot is used for inserting and detaching the memory card.

Three filter screens are arranged in the siphon. The filter screen is used for filtering large particles in the soup. The connecting frame is used for connecting the analyzer with the pot body. The pot body comprises a siphon inlet, a pot cover handle, a material inlet, an air pressure adjusting knob and a pot cover closed switch device.

The siphon inlet is used for inserting and extracting the siphon. The pot cover handle is used for opening and closing the pot cover. The material inlet port can directly input the material from the inlet port without having to open the pot cover and then add the material. The air pressure adjusting knob can adjust the air pressure in the pot body.

The pot cover airtight switch device is used for assisting in airtight opening and closing of the pot cover.

The analysis method is characterized in that various components in a large number of qualified soup stock are analyzed by a certain method in advance, and similar data of the obtained reliable samples are subjected to data fusion to obtain a fixed content proportion database A of each component. The soup being made is sampled by the facility and the ratio B of the various components within the soup is obtained using some method, and by comparing B with a, the adjustment strategy is obtained and presented to the user via the display screen. If B is the same as A within a certain threshold range, a prompt of 'soup stock qualification' is given to a user in an adjustment strategy. A restart button behind the core analyzer may be used to restart the facility if the facility is accidentally down during use.

The following is a detailed description of the structure of the device in connection with fig. 1-4:

a device for decocting soup, characterized in that: the device comprises a pot body 1, a pot cover 2, a siphon inlet 3, a pot cover handle 4, a material inlet 5, an air pressure adjusting knob 6, a pot cover closed switch auxiliary device 7, a connecting frame 8, a core analyzer 9, a filter screen 10, a restarting button 11, an expansion slot 13, a display screen 14, a spectrometer 15, a main controller 16, a sampler 17 and a sampling container 18.

The display screen can be an LED display screen and is used for displaying an adjustment strategy given after the comparison of the sampling data of the soup stock being decocted with the existing database.

The core analyzer is used for analyzing the sampled soup to obtain the content proportion of each component. Namely, the main controller and the data analysis algorithm applied to the main controller complete data analysis and comparison. The main controller controls the sampler to sample the soup being decocted into the sampling container, and then analyzes various components in the sample through the spectrometer in the sampling container and transmits the data back to the main controller for further calculation.

The host controller may be an STM32. The restart button is used to restart the device in special situations such as downtime. The expansion slot is used for inserting and removing the memory card, because the memory space on the chip of the main controller is limited and the memory card can store the existing database data at a premium, the precious limited memory space on the main controller is avoided being occupied.

Three filter screens are arranged in the siphon. The filter screen can be made of high-quality gauze for filtering larger particles in the soup. The connecting frame is made of light steel and used for connecting the analyzer and the pot body. The siphon inlet is used for inserting and extracting the siphon. The access port is similar to a heart valve structure in that, although a siphon can be inserted from this end, gas can be prevented from escaping from the siphon access port. The pot cover handle is made of high-quality materials with poor heat conductors and is designed by using ergonomics. The material inlet port allows material to enter directly from the port without having to open the lid and then add material. The inlet port is similar to a heart valve structure in that although material can be poured from this end, gas, soup, etc. do not escape from the material inlet port. The air pressure adjusting knob can adjust the air pressure in the pot body.

The pot cover airtight switch device is used for assisting in airtight opening and closing of the pot cover. The switching device is similar to that on the door. The facility is but not limited to the examples described above.

The flowchart is used in conjunction with fig. 2, as follows:

The analyzer needs to be assembled with the pan body prior to use. The connecting frame is fixed on the pot body through the screw first, and then the connecting frame is fixed with the analyzer through the screw, so that the connection between the pot body and the analyzer is realized. In advance, various components in a large number of qualified soup stock are required to be analyzed by a certain method, and similar data of the obtained reliable samples are subjected to data fusion to obtain a fixed content proportion database A of each component. The analysis method can be a gas chromatography-mass spectrometry (GC-MS), namely a mixed liquid and mixed gas component qualitative and quantitative tool, and is used for identifying protein, lipid and polysaccharide cultural relics. The soup being made is sampled by the facility and the ratio B of the various components in the soup is obtained using some method. The method can be a spectrometry method, namely, the liquid sample is subjected to accurate qualitative and quantitative analysis of beneficial metal elements such as heavy metal elements, potassium, sodium, calcium and the like. By comparing B with a, the adjustment strategy is obtained and presented to the user via the display screen. If B is the same as A within a certain threshold range, a prompt of 'soup stock qualification' is given to a user in an adjustment strategy. A restart button behind the core analyzer may be used to restart the facility if the facility is accidentally down during use.

Claims

1. The utility model provides a device for decocting soup, includes pot body (1), pot cover (2), its characterized in that: a siphon inlet (3) and a material inlet (5) are arranged on the pot cover (2);

The device also comprises a core analyzer (9) comprising a siphon (12), a spectrometer (15), a master (16), a sampler (17) and a sampling container (18); the spectrometer (15) is arranged in the sampling container (18) and used for analyzing a sample entering the sampling container (18), and the spectrometer (15) is connected to the main controller (16); the siphon (12) is a portal pipe formed by connecting two vertical pipes and a transverse pipe, one vertical pipe is inserted into the sampling container (18), and the other vertical pipe is inserted into the pot body (1) through the siphon inlet (3) for sampling when in use;

the main controller (16) is connected with the sampler (17);

the core analyzer (9) is also provided with a connecting frame (8);

the connecting frame (8) is a cross rod which can transversely prop against the outer side wall of the pot body (1), a temporary locking device is arranged at the position of the outer side wall of the pot body (1) where the connecting frame (8) props against, and the temporary locking device comprises an inner sleeve (01), an outer sleeve (02) and a tensioning plate (03); the outer sleeve (02) is sleeved outside the inner sleeve (01), the outer sleeve (02) is in threaded fit with the inner sleeve, the outer sleeve (02) can rotate relative to the inner sleeve (01), the inner sleeve (01) is arranged on the outer side wall of the pot body (1), and the axial direction of the inner sleeve (01) is perpendicular to the axial direction of the pot body (1); the side walls of the upper end and the lower end of the inner sleeve (01) are respectively provided with an upper opening (01-1) and a lower opening (01-2), the widths (H) of the upper opening (01-1) and the lower opening (01-2) are the same, when the connecting frame (8) can enter the inner sleeve (01) from the upper opening (01-1), the side wall of the outer sleeve (02) is provided with an outer sleeve opening (02-1), and the width of the outer sleeve opening (02-1) is not smaller than the width of the upper opening (01-1) and the width of the lower opening (01-2);

the tensioning plate (03) is arranged at the lower notch (01-2), the length direction of the tensioning plate (03) is consistent with the length direction of the inner sleeve (01), the middle parts of two sides of the tensioning plate (03) are movably connected with two side walls of the lower notch (01-2) through the rotating shaft (03-1), the tensioning plate (03) forms a lever structure taking the rotating shaft (03-1) as a fulcrum at the lower notch (01-2), the top end (03-2) of the tensioning plate (03) is a movable end, the bottom end (03-3) of the tensioning plate (03) is connected with the tensioning rod (04) through the movable shaft, and the tensioning rod (04) is vertically arranged along the outer side wall of the pot body (1);

The outer side wall of the pot body (1) is also provided with a reference fixing plate (05) for a tension rod (04) to pass through, the tension rod (04) can perform up-down drawing action relative to the reference fixing plate (05), the tension rod (04) is sleeved with a tension spring (06), and the tension spring (06) enables the tension rod (04) to always maintain the force of downwards pulling the bottom end (03-3) of the tension plate (03); when the novel anti-theft device is used, the coat notch (02-1) is screwed to the upper end to enable the coat notch (02-1) to correspond to the upper notch (01-1) of the inner sleeve (01), at the moment, the lower notch (01-2) of the inner sleeve (01) is closed by the coat (02), the bottom end (03-3) of the tensioning plate (03) is clamped and limited in the lower notch (01-2) of the inner sleeve (01) by the coat (02), at the moment, the tensioning spring (06) is compressed maximally, then the connecting frame (8) sequentially penetrates through the coat notch (02-1) and the upper notch (01-1) from top to bottom and then enters the inner sleeve (01), then the coat (02) is rotated, so that the coat notch (02-1) corresponds to the lower notch (01-2) of the inner sleeve (01), at the moment, the upper notch (01-1) of the inner sleeve (01) is closed by the coat (02), the lower notch (01-2) is opened, at the moment, the tensioning rod (04) is pushed down under the action of the tensioning spring (06), and at the same time, the bottom end (03) of the tensioning plate (03) is pulled out of the lower notch (01) and the side wall (01) is pulled out of the lower notch (01);

A bulge (03-2-1) for clamping the outer wall of the bottom of the connecting frame (8) is arranged at the top end (03-2) of the tensioning plate (03), a clamping groove (8-1) for inserting the bulge (03-2-1) is arranged on the outer wall of the bottom of the connecting frame (8), and the bulge (03-2-1) stretches into the clamping groove (8-1) to further strengthen the clamping of the connecting frame (8) when in use;

the clamping grooves (8-1) are axially arranged along the connecting frame (8); the tensioning rod (04) is provided with a spanner (07) which is convenient for pulling the tensioning rod (04).

2. A device for cooking soup according to claim 1, characterized in that: the core analyzer (9) is also provided with a display screen (14), and the display screen (14) is connected with the main controller (16).

3. A device for cooking soup according to claim 1 or 2, characterized in that: the core analyzer (9) is also provided with an expansion slot (13).

4. A device for cooking soup according to claim 1 or 2, characterized in that: an air pressure adjusting knob (6) is also arranged on the pot cover (2).

5. A device for cooking soup according to claim 1 or 2, characterized in that: the pot cover (2) is also provided with a pot cover handle (4).

6. A method of cooking soup implemented with a device for cooking soup as defined in claim 1, characterized in that: the analyzer needs to be assembled with the pan body before use; firstly, fixing a connecting frame on a pot body through a screw, and then fixing the connecting frame and an analyzer through the screw, so that the connection between the pot body and the analyzer is realized; various components in a large number of qualified soup stock are analyzed by a certain method in advance, and data fusion is carried out on similar data of the obtained reliable samples to obtain a fixed content proportion database A of each component; the analysis method is a gas chromatography-mass spectrometry (GC-MS), namely a mixed liquid and mixed gas component qualitative and quantitative method or a spectrometry; the gas chromatography-mass spectrometry (GC-MS) method is used for realizing the identification of protein, lipid and polysaccharide cultural relic organic matters; sampling the soup being made through a siphon (12) and obtaining the ratio B of the various components in the soup by a certain method; carrying out a spectroscopic method, namely carrying out accurate qualitative and quantitative analysis on the heavy metal elements, potassium, sodium and calcium beneficial metal elements on the liquid sample; the adjustment strategy is obtained by comparing the B with the A, and is displayed to a user through a display screen; if B is the same as A within a certain threshold range, giving a prompt of 'soup stock qualification' to a user in an adjustment strategy; a restart button behind the core analyzer may be used to restart the facility if the facility is accidentally down during use.