CN112349360B - Intestinal health management system and method based on food intolerance detection - Google Patents

Abstract

The invention discloses an intestinal health management system and method based on food intolerance detection, and the technical scheme is as follows: the blood storage device comprises a shell, a transmission device, a replacement device, a blood storage box and a control panel, wherein a first supporting plate is fixedly installed on the right side of the inner part of the shell, a second mounting groove is formed in the inner side of the first supporting plate, a third mounting groove is formed in the left side of the second mounting groove, the transmission device is arranged on the inner wall of the third mounting groove and the inner wall of the second mounting groove, a second supporting plate is fixedly installed at the bottom of the first supporting plate, the replacement device is arranged at the top of the second supporting plate, and the replacement device comprises a second motor, and has the beneficial effects that: the personal file is established, the health questionnaire is filled at the same time, the personal data file and the eating habit are input into the central processing module, the blood sampling module carries out blood sampling detection, the blood sample is sent to a laboratory for food intolerance detection, and the health evaluation module and the data analysis module draw a scheme, so that the health condition analysis system has the effect of intuitively analyzing the health condition.

Description

Intestinal health management system and method based on food intolerance detection

Technical Field

The invention relates to the technical field of food intolerance detection, in particular to an intestinal health management system and method based on food intolerance detection.

Background

Food intolerance is a complex allergic disease in which the human immune system treats one or more foods that enter the human body as harmful substances, thereby generating an excessively protective immune response against these substances, producing food-specific IgG antibodies, which form immune complexes with food particles, can cause inflammatory reactions in all tissues including angiogenesis, and are manifested as symptoms and diseases of various systems throughout the body.

The prior art has the following defects: the existing hospital blood sampling detection is usually carried out by manually sampling blood from a patient through nurses, the blood sampling mode generally extracts multiple tubes of blood, the blood needs to be detected and regenerated into a report form after blood sampling, the queuing and detection time is generally long, in addition, the blood detection document is not intuitively analyzed, the queuing is needed to find out the doctor to see the height, the time is long, and the patient cannot conveniently know the health condition of the patient in time.

Therefore, it is necessary to invent a system and method for intestinal health management based on food intolerance detection.

Disclosure of Invention

Therefore, the invention provides an intestinal health management system based on food intolerance detection, which is characterized in that a personal file is established, meanwhile, a health questionnaire is filled, the personal data file and eating habits are input into a central processing module, a blood sampling module is used for blood sampling detection, a blood sample is sent to a laboratory for food intolerance detection, and a health evaluation module and a data analysis module are used for planning schemes so as to solve the problem of visual analysis of health conditions.

In order to achieve the above object, the present invention provides the following technical solutions: an intestinal health management system based on food intolerance detection, characterized in that: including shell (100), transmission device (200), change device (300), deposit blood case (400) and control panel (500), shell (100) inside right side fixed mounting backup pad one (120), mounting groove two (131) have been seted up to backup pad one (120) inboard, mounting groove three (132) have been seted up in mounting groove two (131) left side, mounting groove three (132) and mounting groove two (131) inner wall are equipped with transmission device (200), backup pad one (120) bottom fixed mounting has backup pad two (180), backup pad two (180) top is equipped with change device (300), change device (300) include motor two (310), motor two (310) fixed mounting are at backup pad two (180) top, backup pad one (120) top is installed loose axle (320), loose axle (320) and motor two (310) fixed connection, loose axle (320) and motor two (310) junction movable mounting have bearing two (321), shell (100) one side fixed mounting deposits blood case (400), control panel (500) are equipped with control panel (500), the display screen (510) is fixedly arranged at the top of the shell (100);

the conveying device (200) comprises a roller shaft (210), wherein the roller shaft (210) is provided with two groups of rollers which are respectively arranged on the inner wall of a second mounting groove (131) and the inner wall of a third mounting groove (132), a conveying belt (270) is movably arranged on the outer wall of the roller shaft (210), a first mounting groove (130) is formed in the top of the first supporting plate (120), a first motor (240) is fixedly arranged on the inner wall of the first mounting groove (130), a second gear (250) is fixedly arranged on the left side of the first motor (240), a group of rollers are movably arranged on the inner wall of the third mounting groove (132) on the right side of the roller shaft (210), a first gear (230) is fixedly arranged on the inner wall of the first mounting groove (130), the first gear (230) is meshed with the second gear (250), and a first bearing (220) is movably arranged at the joint of the roller shaft (210), the second mounting groove (131) and the third mounting groove (132).

The movable shaft is characterized in that a movable rod (330) is fixedly installed on one side of the movable shaft (320), a limit groove II (332) is formed in the left end of the movable rod (330), a support rod (333) is fixedly installed on the right side of the limit groove II (332), a movable plate (360) is arranged on one side of the support rod (333), a mounting groove IV (362) is formed in the inner wall of the movable plate (360), the support rod (333) is inserted into the inner wall of the mounting groove IV (362), a limit block II (363) is fixedly installed at the left end of the support rod (333), a rack (361) is fixedly installed on the inner wall of the limit groove II (332) in an inserted mode at one end of the rack (361), a right clamping plate (350) is fixedly installed on the right side of one end of the movable rod (330), and a left clamping plate (370) is fixedly installed on the right side of one end of the movable plate (360);

the left side of the conveying belt (270) is provided with a needle storage box (140), the needle storage box (140) is fixedly arranged at the top of the first supporting plate (120), the inner wall of the left end of the needle storage box (140) is fixedly provided with an electric push rod (141), the inner wall of the needle storage box (140) is provided with a first limiting groove (142), and blood collection needles (160) are uniformly arranged on the inner wall of the first limiting groove (142);

the movable rod (330) left end top has seted up through-hole two (331), through-hole two (331) communicate with each other with spacing groove two (332), through-hole two (331) top fixed mounting has backing plate (342), through-hole three (343) have been seted up to backing plate (342) inner wall, backing plate (342) top fixed mounting motor three (340), motor three (340) bottom fixed mounting has gear three (341), gear three (341) peg graft through-hole three (343) in proper order and through-hole two (331) are installed at spacing groove two (332) inner wall and rack (361) meshing connection.

Preferably, the conveyer belt (270) top fixed mounting has spacing ring (260), spacing ring (260) inner wall evenly installs stopper one (261), breach (262) have been seted up in spacing ring (260) left side, spacing ring (260) top is equipped with baffle (150), baffle (150) fixed mounting is preferred at shell (100) inner wall, blood taking needle (160) include press head (161), press head (161) left end evenly installs rubber strip (162), press head (161) inner wall offered through-hole one (163), peg graft in through-hole one (163) right side inner wall has support column (164), support column (164) outer wall fixed mounting keeps off ring (165), keep off ring (165) left side and be equipped with spring (166), spring (166) cup joint at support column (164) outer wall, support column (164) left side fixed mounting has spike (167).

Preferably, the blood sampling mouth (101) has been seted up to shell (100) one side, blood sampling mouth (101) top is equipped with roof (110), roof (110) fixed mounting is at shell (100) inner wall top, blood sampling mouth (101) bottom is equipped with collecting box (170), collecting box (170) fixed mounting is in shell (100) inner wall bottom, shell (100) left side fixed mounting has a benefit needle mouth (102), benefit needle mouth (102) are connected with needle storage box (140) left side, shell (100) right side fixed mounting has recovery mouth (103), recovery mouth (103) are connected with collecting box (170) right side, shell (100) one side fixed mounting has printer (104), evenly install drawer (410) in blood storage box (400) inner wall, blood storage cardboard (420) top has been seted up blood storage point (430), blood storage point (430) are equipped with four groups.

Preferably, the control panel (500) comprises an operation module (550), wherein the input of the operation module (550) is connected with the central processing module (520), and the input of the central processing module (520) is connected with the blood sampling module (540).

Preferably, the central processing module (520) is input to be connected with the archive module (521), archive module (521) is input to be connected with the archive recording module (522), archive recording module (522) is input to be connected with the health evaluation module (523), health evaluation module (523) is input to be connected with the data analysis module (524), data analysis module (524) is input to be connected with the comprehensive scheme module (525), the comprehensive scheme module (525) is input to be connected with the central processing module (520), the central processing module (520) is output to be connected with the printing module (530) preferably, the blood taking needle (160) comprises a pressing pipe (190), a through groove (191) is formed in the bottom of the pressing pipe (190), and a film (192) preferably is wrapped on the outer wall of the through groove (191), and the method comprises the following steps: establishing a personal file on a display screen (510) and filling in a health questionnaire at the same time, and inputting the personal data file and eating habits into a central processing module (520) through the display screen (510);

step two: the display screen (510) prompts blood sampling detection, meanwhile, the drawer (410) automatically pops up, an index finger is inserted into the blood sampling port (101) and is placed under the pressing head (161) at the bottom of the blood sampling needle (160), the top of the supporting column (164) is pressed upwards, the top of the supporting column (164) is pressed against the top plate (110), the spring (166) contracts to drive the pressing head (161) to move upwards, the needle head (167) is contacted with the index finger of a worker through the first through hole (163), and after bleeding of the index finger, the index finger is dripped onto the blood storage point (430) in the drawer (410);

step three: the blood sample is sent to a laboratory for food intolerance detection;

step four: the food intolerance detection result is transmitted to the central processing module (520) in a data form, the central processing module (520) retrieves the personal file in the file recording module (522), the detection result is input into the health evaluation module (523) and the data analysis module (524), and the health evaluation module (523) and the data analysis module (524) perform data comparison, data evaluation and data calculation;

step five: the proposal is made: (1) an intestinal health management scheme for balancing intestinal flora and repairing intestinal problems, (2) comprehensive diet management, food material collocation, diet tabu, meal time, meal quantity and frequency, (3) reasonable exercise advice, exercise type, exercise tabu, exercise duration and exercise frequency, (4) psychological intervention and mediation and other living habit adjustment;

step six: the project data is transmitted to a comprehensive project module (525) to sort and draw out comprehensive data, the comprehensive data is transmitted to a central processing module (520) and stored in a file recording module (522), and when a worker gets the comprehensive data through a control panel (500), the central processing module (520) calls out the comprehensive data of the file recording module (522) and prints a paper report through a printer (104).

The beneficial effects of the invention are as follows:

1. the personal file is established, meanwhile, the health questionnaire is filled in, the personal data file and the eating habit are input into the central processing module, the blood sampling module carries out blood sampling detection, the blood sample is sent to a laboratory for food intolerance detection, and the health evaluation module and the data analysis module draw a scheme, so that the health condition analysis effect is intuitive;

2. the method comprises the steps that a personal file is built on a display screen, meanwhile, a health survey questionnaire is filled in, the personal data file and eating habits are input into a central processing module through the display screen, the display screen prompts to perform blood sampling detection, meanwhile, a drawer pops up automatically, an index finger is inserted into a blood sampling port to be placed under a pressing head at the bottom of a blood sampling needle, the top of a supporting column is pressed upwards, meanwhile, a top plate is extruded by the top of the supporting column, a spring contracts to drive the pressing head to move upwards, so that a needle head is contacted with an index finger of a worker through a through hole, and the index finger is dripped onto a blood storage point in the drawer after bleeding, so that the effect of short self-operation time consumption is achieved;

3. the electric push rod pushes the blood taking needle to be installed on the inner wall of the limiting ring through a notch of the limiting ring, the motor III drives the gear I to rotate through the gear II, the gear II drives the roller shaft to rotate, the roller shaft drives the conveying belt to move forwards, the conveying belt drives the limiting ring to move to a specified position, the motor II drives the movable shaft to rotate, the movable shaft drives the movable rod to rotate, the left clamping plate and the right clamping plate move to the upper side of the limiting ring, the motor III drives the gear III to rotate, the gear III drives the rack to move backwards, the movable plate and the left clamping plate move backwards, the motor II rotates reversely, the gear III drives the rack to move forwards, the rack drives the movable plate and the left clamping plate to move forwards, the left clamping plate and the right clamping plate wrap a supporting column of the blood taking needle, and the motor II drives the movable shaft to rotate to the blood taking port, so that the disposable blood taking system does not need multiple maintenance.

Drawings

FIG. 1 is a right side schematic view of embodiment 1 of the present invention;

FIG. 2 is a schematic cross-sectional view of embodiment 1 of the present invention;

FIG. 3 is an enlarged view of a portion of FIG. 2A in accordance with the present invention;

FIG. 4 is a schematic diagram showing the installation of a replacement device according to embodiment 1 of the present invention;

FIG. 5 is a schematic diagram of a replacing device according to embodiment 1 of the present invention;

FIG. 6 is an exploded view of the exchanging device of embodiment 1 of the present invention; .

FIG. 7 is a left side schematic view of embodiment 1 of the present invention;

FIG. 8 is a schematic view of a drawer according to embodiment 1 of the present invention;

FIG. 9 is a schematic view showing the structure of a lancet according to embodiment 1 of the present invention;

FIG. 10 is an exploded view of the lancet according to embodiment 1 of the present invention;

FIG. 11 is a schematic diagram of the operation system of embodiment 1 of the present invention;

fig. 12 is a schematic diagram of a front view structure of embodiment 3 of the present invention.

In the figure: the housing 100, the blood sampling port 101, the needle supplementing port 102, the recovery port 103, the printer 104, the top plate 110, the first support plate 120, the first mounting groove 130, the second mounting groove 131, the third mounting groove 132, the needle magazine 140, the electric push rod 141, the first limiting groove 142, the barrier 150, the blood sampling needle 160, the pressing head 161, the rubber strip 162, the first through hole 163, the support column 164, the retaining ring 165, the spring 166, the needle 167, the collection box 170, the second support plate 180, the transmission device 200, the roller shaft 210, the first bearing 220, the first gear 230, the first motor 240, the second gear 250, the limiting ring 260, the first limiting block 261, the notch 262, the conveyor belt 270, the replacement device 300, the second gear 250, the first replacement device 300, the second gear and the third gear the second motor 310, the movable shaft 320, the second bearing 321, the movable rod 330, the second through hole 331, the second limit groove 332, the support rod 333, the third motor 340, the third gear 341, the base plate 342, the third through hole 343, the right clamping plate 350, the movable plate 360, the rack 361, the fourth mounting groove 362, the second limit groove 363, the left clamping plate 370, the blood storage box 400, the drawer 410, the blood storage board 420, the blood storage point 430, the control panel 500, the display screen 510, the central processing module 520, the archive module 521, the archive recording module 522, the health evaluation module 523, the data analysis module 524, the comprehensive scheme module 525, the printing module 530, the blood sampling module 540 and the operation module 550.

Detailed Description

The preferred embodiments of the present invention will be described below with reference to the accompanying drawings, it being understood that the preferred embodiments described herein are for illustration and explanation of the present invention only, and are not intended to limit the present invention.

Referring to fig. 1-11, the intestinal health management system based on food intolerance detection provided by the invention comprises a housing 100, a transmission device 200, a replacement device 300, a blood storage box 400 and a control panel 500, wherein a first support plate 120 is fixedly arranged on the right side of the inner part of the housing 100, a second installation groove 131 is formed in the inner side of the first support plate 120, a third installation groove 132 is formed in the left side of the second installation groove 131, the transmission device 200 is arranged on the inner wall of the third installation groove 132 and the second installation groove 131, a second support plate 180 is fixedly arranged at the bottom of the first support plate 120, a replacement device 300 is arranged at the top of the second support plate 180, the replacement device 300 comprises a second motor 310, the second motor 310 is fixedly arranged at the top of the second support plate 180, a movable shaft 320 is fixedly connected with the second motor 310, a second bearing 321 is movably arranged at the joint of the movable shaft 320 and the second motor 310, the blood storage box 400 is fixedly arranged on one side of the shell 100, the control panel 500 is arranged at the top of the blood storage box 400, the control panel 500 comprises a display screen 510, the display screen 510 is fixedly arranged at the top of the shell 100, the shell 100 has supporting functions on the first supporting plate 120 and the second supporting plate 180, the mounting groove II 131 and the mounting groove III 132 have limiting functions on the transmission device 200, the second supporting plate 180 and the first supporting plate 120 have supporting functions on the replacement device 300, the second supporting plate 180 has supporting functions on the second motor 310, the first supporting plate 120 has supporting functions on the movable shaft 320, the second motor 310 has driving functions on the movable shaft 320, the second motor 310 is arranged as a servo motor, the second bearing 321 has the function of reducing friction force on the movable shaft 320 and facilitating rotation, the shell 100 has mounting functions on the blood storage box 400, the display screen 510 is arranged as a capacitive touch screen, the display screen 510 has a control function on the control panel 500;

the transmission device 200 comprises a roll shaft 210, wherein the roll shaft 210 is provided with two groups of rollers which are respectively arranged on the inner walls of a second mounting groove 131 and a third mounting groove 132, a conveying belt 270 is movably arranged on the outer wall of the roll shaft 210, a first mounting groove 130 is formed in the top of a first supporting plate 120, a first motor 240 is fixedly arranged on the inner wall of the first mounting groove 130, a second gear 250 is fixedly arranged on the left side of the first motor 240, a third mounting groove 132 is inserted and connected on the right side of the roll shaft 210, a first gear 230 is movably arranged on the inner wall of the first mounting groove 130, the right end of the roll shaft 210 is fixedly provided with a first gear 230, the first gear 230 is in meshed connection with the second gear 250, a first bearing 220 is movably arranged at the joint of the second mounting groove 131 and the third mounting groove 132, the second mounting groove 131 and the third mounting groove 132 have a mounting function on the roll shaft 210, the roll shaft 210 has a supporting and driving function on the conveying belt 270, the first mounting groove 130 has a mounting function on the first motor 240, the first motor 240 has a driving function on the second gear 250, the first gear 230 has a driving function on the second gear 230 has a driving function, and the first bearing 220 has a function on the friction force;

the movable shaft 320 is fixedly provided with a movable rod 330 on one side, the left end of the movable rod 330 is provided with a second limit groove 332, the right side of the second limit groove 332 is fixedly provided with a supporting rod 333, one side of the supporting rod 333 is provided with a movable plate 360, the inner wall of the movable plate 360 is provided with a fourth limit groove 362, the supporting rod 333 is inserted into the inner wall of the fourth limit groove 362, the left end of the supporting rod 333 is fixedly provided with a second limit block 363, the inner side of the movable plate 360 is fixedly provided with a rack 361, one end of the rack 361 is inserted into the inner wall of the second limit groove 332, the right side of one end of the movable rod 330 is fixedly provided with a right clamping plate 350, the right side of one end of the movable plate 360 is fixedly provided with a left clamping plate 370, specifically, the movable shaft 320 has a supporting effect on the movable rod 330, the movable rod 330 has a fixing effect on the supporting rod 333, the supporting rod 333 has a limiting effect on the movable plate 360, the fourth limit groove 362 has a limiting effect on the movable plate 360, the movable plate 360 has a fixing effect on the rack 361, the limiting groove 332 has a limiting effect on the right clamping plate 350, the movable plate 360 has a fixing effect on the left clamping plate 370 has a fixing effect on the needle 160, and the left clamping effect on the needle 160;

further, a limiting ring 260 is fixedly installed at the top of the conveying belt 270, a limiting block I261 is uniformly installed on the inner wall of the limiting ring 260, a notch 262 is formed in the left side of the limiting ring 260, a baffle 150 is arranged at the top of the limiting ring 260, the baffle 150 is fixedly installed on the inner wall of the shell 100, the conveying belt 270 has a conveying function on the blood taking needle 160, the conveying belt 270 has a supporting function on the limiting ring 260, the limiting ring 260 and the limiting block I261 are made of soft rubber materials, high ductility and resetting performance are achieved, the limiting ring 260 has a limiting function on the blood taking needle 160, the limiting block I261 has a limiting function on the blood taking needle 160, the blood taking needle 160 is not easy to loosen in the conveying process of the blood taking needle, the notch 262 has a function of being convenient to enter the inner part of the limiting ring 260, the notch 262 has a certain ductility to prevent the blood taking needle 160 from falling off, the shell 100 has a fixing function on the baffle 150, the baffle 150 has an adjusting function on the blood taking needle 160, and the blood taking needle 160 is convenient to be accurately installed on the inner wall of the limiting ring 260;

further, a needle storage box 140 is arranged at the left side of the conveyor belt 270, the needle storage box 140 is fixedly arranged at the top of the first supporting plate 120, an electric push rod 141 is fixedly arranged on the inner wall of the left end of the needle storage box 140, a first limiting groove 142 is formed in the inner wall of the needle storage box 140, blood taking needles 160 are uniformly arranged on the inner wall of the first limiting groove 142, specifically, the first supporting plate 120 has a supporting function on the needle storage box 140, the needle storage box 140 has a storage function on the blood taking needles 160, the needle storage box 140 has an installation function on the electric push rod 141, the electric push rod 141 has a pushing function on the blood taking needles 160, and the first limiting groove 142 has a limiting and guiding function on the blood taking needles 160;

further, a second through hole 331 is formed in the top of the left end of the movable rod 330, the second through hole 331 is communicated with the second limiting groove 332, a base plate 342 is fixedly arranged at the top of the second through hole 331, a third through hole 343 is formed in the inner wall of the base plate 342, a third motor 340 is fixedly arranged at the top of the base plate 342, a third gear 341 is fixedly arranged at the bottom of the third motor 340, the third gear 341 is sequentially inserted into the third through hole 343 and the second through hole 331 and is arranged on the inner wall of the second limiting groove 332 to be meshed with the rack 361, the second through hole 331 and the second limiting groove 332 have a limiting effect on the third motor 340, the second through hole 331 has a supporting effect on the base plate 342, the third through hole 343 has a limiting effect on the third motor 340, the third motor 340 is arranged as a servo motor, the third motor 340 has a transmission effect on the third gear 341, the second limiting groove 332 has an installation effect on the third gear 341 and the third gear 341 has a transmission effect on the rack 361;

further, the blood taking needle 160 comprises a pressing head 161, a rubber strip 162 is uniformly arranged at the left end of the pressing head 161, a first through hole 163 is formed in the inner wall of the pressing head 161, a support column 164 is inserted into the inner wall of the right side of the first through hole 163, a baffle ring 165 is fixedly arranged on the outer wall of the support column 164, a spring 166 is arranged on the left side of the baffle ring 165 and is sleeved on the outer wall of the support column 164, a needle 167 is fixedly arranged on the left side of the support column 164, specifically, the pressing head 161 has a supporting function on the support column 164, the rubber strip 162 has a sealing and protecting function on the needle 167, the first through hole 163 has an installing function on the support column 164, the baffle ring 165 has a limiting function on the spring 166, the support column 164 has an installing function on the spring 166, and the support column 164 has a fixing function on the needle 167;

further, a blood sampling port 101 is arranged on one side of the shell 100, a top plate 110 is arranged at the top of the blood sampling port 101, the top plate 110 is fixedly arranged at the top of the inner wall of the shell 100, a collecting box 170 is arranged at the bottom of the blood sampling port 101, the collecting box 170 is fixedly arranged at the bottom of the inner wall of the shell 100, a needle supplementing port 102 is fixedly arranged on the left side of the shell 100, the needle supplementing port 102 is connected with the left side of a needle storage box 140, a recovery port 103 is fixedly arranged on the right side of the shell 100, the recovery port 103 is connected with the right side of the collecting box 170, a printer 104 is fixedly arranged on one side of the shell 100, drawers 410 are uniformly arranged on the inner wall of the blood storage box 400, blood storage paperboards 420 are arranged on the inner wall of the drawers 410, blood storage points 430 are arranged at the top of the blood storage paperboards 420, four groups of the blood storage points 430 are arranged, specifically, the blood collection port 101 has an installation function for the blood collection needle 160, the top plate 110 has a limit function for the blood collection needle 160, the housing 100 has a fixing function for the top plate 110, the housing 100 has an installation function for the collection box 170, the collection box 170 has a function for collecting the blood collection needle 160 after use, the needle supplementing port 102 has a function for conveniently supplementing the blood collection needle 160, the recovery port 103 has a function for recovering the waste blood collection needle 160 in the collection box 170, the housing 100 has an installation function for the printer 104, the printer 104 has a function for printing paper reports, the blood storage box 400 has an installation function for the drawer 410, the drawer 410 has a storage function for the blood storage board 420, and the blood storage point 430 has a function for collecting blood drops;

further, the control panel 500 includes an operation module 550, the operation module 550 is input to connect with the central processing module 520, the central processing module 520 is input to connect with the blood sampling module 540, concretely, the operation module 550 includes a display screen 510, the operation module 550 has the function of filling in personal files and eating habits, the blood sampling module 540 includes a housing 100, a transmission device 200, a replacement device 300 and a blood storage box 400, and has the functions of collecting blood samples and detecting food intolerance;

further, the central processing module 520 is input to connect with the file module 521, the file module 521 is input to connect with the file recording module 522, the file recording module 522 is input to connect with the health evaluation module 523, the health evaluation module 523 is input to connect with the data analysis module 524, the data analysis module 524 is input to connect with the comprehensive scheme module 525, the comprehensive scheme module 525 is input to connect with the central processing module 520, the central processing module 520 is output to connect with the printing module 530, concretely, the file module 521 is set as a register which is a high-speed storage component with limited storage capacity and can be used for temporarily storing instructions, data and addresses, has the function of storing personal files and eating habits, the recording module 522 is set as a storage, the internal storage is directly connected with the central processing module 520 and is composed of electronic components with higher access speed for long-term data storage, the central processing module 520 is used for managing call connection among modules of the whole system, managing relay resources and various shared resources by constructing a central database, managing and maintaining, the health evaluation module 523 is a microprocessor, can complete operations such as instruction fetching, instruction execution, information exchange with an external memory and a logic component, and the like, is an operation control part, the health evaluation module 523 has the functions of data comparison and data evaluation, the analysis module 524 is a component for executing various arithmetic and logic operation, has the functions of data comparison and analysis, the comprehensive scheme module 525 is a data processor, has the functions of data visualization, analyzing and displaying the calculation result of data, and drafting comprehensive data, the printing module 530 comprises the printer 104, the printer 104 is one of external output devices of the central processing module 520, the files, data, pictures, information, etc. edited and collated by the central processing module 520 can be printed to various carriers in black or color, and the printer 104 has the function of printing paper treatment reports.

Working principle: when the invention is used, the staff in the field externally connects the circuit components of the device with a power supply and a controller, the central processing module 520 sends out instructions to start the electric push rod 141 through the control panel 500, the electric push rod 141 pushes the blood taking needle 160 to be arranged on the inner wall of the limiting ring 260 through the notch 262 of the limiting ring 260, the motor III 340 starts to drive the gear I230 to rotate through the gear II 250, the gear I230 drives the roll shaft 210 to rotate, the roll shaft 210 drives the conveyor belt 270 to move forward, the conveyor belt 270 drives the limiting ring 260 to move to a designated position, meanwhile, the motor II 310 starts, the motor II 310 drives the movable shaft 320 to rotate, the movable shaft 320 drives the movable rod 330 to rotate, the left clamping plate 370 and the right clamping plate 350 move to the upper part of the limiting ring 260, the motor III 340 is started, the motor III 340 drives the gear III 341 to rotate, the gear III drives the rack 361 to move backwards, the movable plate 360 and the left clamping plate 370 move backwards, the left clamp plate 370 and the right clamp plate 350 form a certain width, the blood taking needle 160 is placed at the center position of the left clamp plate 370 and the right clamp plate 350, the motor II 310 rotates reversely, the gear III 341 drives the rack 361 to move forwards, the rack 361 drives the movable plate 360 and the left clamp plate 370 to move forwards, the left clamp plate 370 and the right clamp plate 350 wrap the support column 164 of the blood taking needle 160, the motor II 310 is started to drive the movable shaft 320 to rotate to the blood taking port 101, the display screen 510 prompts a worker to take blood and detect after the completion, meanwhile, the drawer 410 pops up automatically, the index finger is inserted into the blood taking port 101, the index finger touches the pressing head 161 at the bottom of the blood taking needle 160, the top of the support column 164 presses the top plate 110 upwards, the spring 166 contracts to drive the pressing head 161 to move upwards to enable the needle 167 to contact the index finger of the worker through the first through hole 163, and the index finger is dripped onto the blood storing point 430 in the drawer 410 after bleeding, after completion, the third motor 340 is started to drive the third gear 341 to rotate, the third gear 341 drives the rack 361 to move backwards, the movable plate 360 and the left clamping plate 370 move backwards, the left clamping plate 370 and the right clamping plate 350 form a opening, so that the blood taking needle 160 falls into the collecting box 170, and the blood storing boxes 400 uniformly store blood samples.

Example 2:

an intestinal health management method based on food intolerance detection comprises the following operation steps:

step one: the personal file is established on the display screen 510, meanwhile, the health questionnaire is filled in, and the personal data file and the eating habit are input into the central processing module 520 through the display screen 510;

step two: the display screen 510 prompts blood sampling detection, meanwhile, the drawer 410 automatically pops up, an index finger is inserted into the blood sampling port 101 and is placed under the pressing head 161 at the bottom of the blood sampling needle 160, the top of the supporting column 164 is pressed upwards simultaneously to press the top plate 110, the spring 166 contracts to drive the pressing head 161 to move upwards, the needle 167 is contacted with the index finger of a worker through the first through hole 163, and after bleeding, the index finger is dripped onto the blood storage point 430 in the drawer 410;

step three: the blood sample is sent to a laboratory for food intolerance detection;

step four: the food intolerance detection result is transmitted to the central processing module 520 in a data form, the central processing module 520 retrieves the personal file in the file recording module 522 and inputs the detection result into the health evaluation module 523 and the data analysis module 524, and the health evaluation module 523 and the data analysis module 524 perform data comparison, data evaluation and data calculation;

step five: the proposal is made: (1) an intestinal health management scheme for balancing intestinal flora and repairing intestinal problems, (2) comprehensive diet management, food material collocation, diet tabu, meal time, meal quantity and frequency, (3) reasonable exercise advice, exercise type, exercise tabu, exercise duration and exercise frequency, (4) psychological intervention and mediation and other living habit adjustment;

step six: the project data is sent to the comprehensive project module 525 to sort out the proposed comprehensive data, the comprehensive data is sent to the central processing module 520 and stored in the archive recording module 522, and when a worker gets the comprehensive data through the control panel 500, the central processing module 520 retrieves the comprehensive data of the archive recording module 522 and prints a paper report through the printer 104.

Example 3:

referring to fig. 12 of the drawings, an intestinal health management system based on food intolerance detection of this embodiment further includes a pressing tube 190;

further, the lancet 160 includes a pressing tube 190, a through groove 191 is formed at the bottom of the pressing tube 190, a film 192 is wrapped on the outer wall of the through groove 191, specifically, the pressing tube 190 has a supporting function on the supporting column 164, the film 192 has a sealing and protecting function on the needle 167 to prevent the needle 167 from infecting bacteria before use, and the film 192 has a stretching molecular orientation, so that the film has good physical stability, mechanical strength, air tightness, high transparency and glossiness, is tough and wear-resistant, has a use thickness of 20 μm, and can be easily punctured by the needle 167.

The implementation scene is specifically as follows: the worker skilled in the art would need to replace the pressing head 161 with the pressing tube 190 when using the present invention.

While the invention has been described in detail in the foregoing general description and specific examples, it will be apparent to those skilled in the art that modifications and improvements can be made thereto. Accordingly, such modifications or improvements may be made without departing from the spirit of the invention and are intended to be within the scope of the invention as claimed.

Claims (8)

1. An intestinal health management system based on food intolerance detection, characterized in that: including shell (100), transmission device (200), change device (300), deposit blood case (400) and control panel (500), the right side of shell (100) inner wall leans on top position fixed mounting to have backup pad one (120), mounting groove two (131) have been seted up to backup pad one (120) inboard, mounting groove three (132) have been seted up in mounting groove two (131) left side, mounting groove three (132) are equipped with transmission device (200) with mounting groove two (131) inner wall, backup pad one (120) bottom fixed mounting has backup pad two (180), backup pad two (180) top is equipped with change device (300), change device (300) include motor two (310), motor two (310) fixed mounting are at backup pad two (180) top, backup pad one (120) top is installed loose axle (320), loose axle (320) and motor two (310) fixed connection, loose axle (320) are connected with motor two (310) movable mounting bearing two (321), shell (100) one side fixed mounting blood case (400), control panel (500) are equipped with demonstration screen (500), the display screen (510) is fixedly arranged at the top of the shell (100);

the conveying device (200) comprises a roller shaft (210), wherein the roller shaft (210) is provided with two groups of rollers which are respectively arranged on the inner wall of a second mounting groove (131) and the inner wall of a third mounting groove (132), a conveying belt (270) is movably arranged on the outer wall of the roller shaft (210), a first mounting groove (130) is formed in the top of the first supporting plate (120), a first motor (240) is fixedly arranged on the inner wall of the first mounting groove (130), a second gear (250) is fixedly arranged on the left side of the first motor (240), a group of rollers are movably arranged on the inner wall of the third mounting groove (132) on the right side of the roller shaft (210), a first gear (230) is fixedly arranged on the inner wall of the first mounting groove (130), the first gear (230) is meshed with the second gear (250), and a first bearing (220) is movably arranged at the joint of the roller shaft (210), the second mounting groove (131) and the third mounting groove (132).

The movable shaft is characterized in that a movable rod (330) is fixedly installed on one side of the movable shaft (320), a limit groove II (332) is formed in the left end of the movable rod (330), a support rod (333) is fixedly installed on the right side of the limit groove II (332), a movable plate (360) is arranged on one side of the support rod (333), a mounting groove IV (362) is formed in the inner wall of the movable plate (360), the support rod (333) is inserted into the inner wall of the mounting groove IV (362), a limit block II (363) is fixedly installed at the left end of the support rod (333), a rack (361) is fixedly installed on the inner wall of the limit groove II (332) in an inserted mode at one end of the rack (361), a right clamping plate (350) is fixedly installed on the right side of one end of the movable rod (330), and a left clamping plate (370) is fixedly installed on the right side of one end of the movable plate (360);

the left side of the conveying belt (270) is provided with a needle storage box (140), the needle storage box (140) is fixedly arranged at the top of the first supporting plate (120), the inner wall of the left end of the needle storage box (140) is fixedly provided with an electric push rod (141), the inner wall of the needle storage box (140) is provided with a first limiting groove (142), and blood collection needles (160) are uniformly arranged on the inner wall of the first limiting groove (142);

the movable rod (330) left end top has seted up through-hole two (331), through-hole two (331) communicate with each other with spacing groove two (332), through-hole two (331) top fixed mounting has backing plate (342), through-hole three (343) have been seted up to backing plate (342) inner wall, backing plate (342) top fixed mounting motor three (340), motor three (340) bottom fixed mounting has gear three (341), gear three (341) peg graft through-hole three (343) in proper order and through-hole two (331) are installed at spacing groove two (332) inner wall and rack (361) meshing connection.

2. The food intolerance detection-based intestinal health management system of claim 1, characterized in that: the top of the conveyor belt (270) is fixedly provided with a limiting ring (260), the inner wall of the limiting ring (260) is uniformly provided with a limiting block I (261), the left side of the limiting ring (260) is provided with a notch (262), the top of the limiting ring (260) is provided with a baffle plate (150), and the baffle plate (150) is fixedly arranged on the inner wall of the shell (100).

3. The food intolerance detection-based intestinal health management system of claim 1, characterized in that: the blood taking needle (160) comprises a pressing head (161), rubber strips (162) are uniformly arranged at the left end of the pressing head (161), a first through hole (163) is formed in the inner wall of the pressing head (161), a support column (164) is inserted into the right inner wall of the first through hole (163), a baffle ring (165) is fixedly arranged on the outer wall of the support column (164), a spring (166) is arranged on the left side of the baffle ring (165), the spring (166) is sleeved on the outer wall of the support column (164), and a needle head (167) is fixedly arranged on the left side of the support column (164).

4. The food intolerance detection-based intestinal health management system of claim 1, characterized in that: the blood collection device comprises a shell (100), wherein a blood collection port (101) is formed in one side of the shell (100), a top plate (110) is arranged at the top of the blood collection port (101), a collecting box (170) is fixedly arranged at the bottom of the inner wall of the shell (100), a needle supplementing port (102) is fixedly arranged at the left side of the shell (100), the needle supplementing port (102) is connected with the left side of a needle storage box (140), a recovery port (103) is fixedly arranged at the right side of the shell (100), a printer (104) is fixedly arranged at one side of the shell (100), a drawer (410) is uniformly arranged at the inner wall of the blood storage box (400), a blood storage paperboard (420) is arranged at the inner wall of the drawer (410), and blood storage points (430) are formed in the top of the blood storage paperboard (420) and are provided with four groups.

5. The food intolerance detection-based intestinal health management system of claim 1, characterized in that: the control panel (500) comprises an operation module (550), wherein the input of the operation module (550) is connected with the central processing module (520), and the input of the central processing module (520) is connected with the blood sampling module (540).

6. The food intolerance detection-based intestinal health management system of claim 5, characterized in that: the system comprises a central processing module (520), a file recording module (522), a health evaluation module (523), a data analysis module (524), a comprehensive scheme module (525), a central processing module (520) and a printing module (530), wherein the central processing module (520) is connected with the input of the file recording module (521), the file recording module (522) is connected with the input of the file recording module (522), the health evaluation module (523) is connected with the input of the data analysis module (524), the input of the data analysis module (524) is connected with the comprehensive scheme module (525), the input of the comprehensive scheme module (525) is connected with the central processing module (520), and the output of the central processing module (520) is connected with the printing module (530).

7. The food intolerance detection-based intestinal health management system of claim 5, characterized in that: the blood taking needle (160) comprises a pressing tube (190), a through groove (191) is formed in the bottom of the pressing tube (190), and a film (192) is wrapped on the outer wall of the through groove (191).

8. The intestinal health management system based on food intolerance detection according to any of claims 1-7, characterized by the following operating method:

step one: establishing a personal file on a display screen (510) and filling in a health questionnaire at the same time, and inputting the personal data file and eating habits into a central processing module (520) through the display screen (510);

step two: the display screen (510) prompts blood sampling detection, meanwhile, the drawer (410) automatically pops up, an index finger is inserted into the blood sampling port (101) and is placed under the pressing head (161) at the bottom of the blood sampling needle (160), the top of the supporting column (164) is pressed upwards, the top of the supporting column (164) is pressed against the top plate (110), the spring (166) contracts to drive the pressing head (161) to move upwards, the needle head (167) is contacted with the index finger of a worker through the first through hole (163), and after bleeding of the index finger, the index finger is dripped onto the blood storage point (430) in the drawer (410);

step three: the blood sample is sent to a laboratory for food intolerance detection;

step four: the food intolerance detection result is transmitted to the central processing module (520) in a data form, the central processing module (520) retrieves the personal file in the file recording module (522), the detection result is input into the health evaluation module (523) and the data analysis module (524), and the health evaluation module (523) and the data analysis module (524) perform data comparison, data evaluation and data calculation;

step five: the proposal is made: (1) an intestinal health management scheme for balancing intestinal flora and repairing intestinal problems, (2) comprehensive diet management, food material collocation, diet tabu, meal time, meal quantity and frequency, (3) reasonable exercise advice, exercise type, exercise tabu, exercise duration and exercise frequency, (4) psychological intervention and mediation and other living habit adjustment;

step six: the project data is transmitted to a comprehensive project module (525) to sort and draw out comprehensive data, the comprehensive data is transmitted to a central processing module (520) and stored in a file recording module (522), and when a worker gets the comprehensive data through a control panel (500), the central processing module (520) calls out the comprehensive data of the file recording module (522) and prints a paper report through a printer (104).