CN113791233A

CN113791233A - Uropoiesis surgery detects uses urine analysis auxiliary device

Info

Publication number: CN113791233A
Application number: CN202111084754.6A
Authority: CN
Inventors: 温雯
Original assignee: Individual
Current assignee: Fengdu County Jiangbei Hospital
Priority date: 2021-09-16
Filing date: 2021-09-16
Publication date: 2021-12-14
Anticipated expiration: 2041-09-16
Also published as: CN113791233B

Abstract

The invention relates to a urine analysis auxiliary device, in particular to a urine analysis auxiliary device for urology surgery detection. Need design one kind and make things convenient for people to collect fixedly to the urine, be difficult for scattering, and labour saving and time saving detects uropoiesis surgery detects uses urine analysis auxiliary device. A uropoiesis surgery detects and uses urine analysis auxiliary device, includes: the heat dissipation base is provided with a detector shell; the air permeable baffle is arranged on the shell of the detector; the detection button is arranged on the shell of the detector; the conveying mechanism is arranged on the shell of the detector and used for conveying; and the sealing mechanism is arranged on the detector shell and used for sealing. According to the invention, urine can be collected and sealed through the functions of the material conveying mechanism and the sealing mechanism, so that people can conveniently collect and fix the urine and the urine is not easy to scatter.

Description

Uropoiesis surgery detects uses urine analysis auxiliary device

Technical Field

The invention relates to a urine analysis auxiliary device, in particular to a urine analysis auxiliary device for urology surgery detection.

Background

Urine examination is a medical detection method. At present, most of urine is detected manually, and at first, a proper amount of urine is added by using a test cup, the urine needs to be put into a test tube before the urine is detected, the test tube is placed on a rack, if the urine collides carelessly, the rack is toppled over the urine and scatters, and the urine needs to be dropped on the test paper repeatedly through a dropper during detection, so that the urine is difficult to be detected for a long time.

How to design one kind and make things convenient for people to collect fixedly to the urine, be difficult for scattering, and labour saving and time saving carries out the uropoiesis surgery that detects and uses urine analysis auxiliary device to solve prior art scheme.

Disclosure of Invention

In order to overcome the shortcomings that the shelf dumps urine and scatters, and the urine needs to be repeatedly dropped on the test paper through the dropper during detection, the time is long, and the test paper is relatively labor-consuming, the technical problem is as follows: the utility model provides a make things convenient for people to collect the urine fixedly, be difficult for scattering, and labour saving and time saving detects urology surgery detects uses urine analysis auxiliary device.

A uropoiesis surgery detects and uses urine analysis auxiliary device, includes: the heat dissipation base is provided with a detector shell; the air permeable baffle is arranged on the shell of the detector; the detection button is arranged on the shell of the detector; the conveying mechanism is arranged on the shell of the detector and used for conveying; and the sealing mechanism is arranged on the detector shell and used for sealing.

As an improvement of the above aspect, the drive mechanism includes: the servo motor is arranged on the shell of the detector; the driving shaft is arranged on an output shaft of the servo motor; the first gear lack is arranged on the driving shaft; the driven worm assembly is rotatably arranged on the detector shell and matched with the first gear lack; the toothed wheel rotating shaft is rotatably arranged on the shell of the detector; the first fixed rotating shaft is symmetrically and rotatably arranged on the shell of the detector; the first bevel gear component is arranged between one first fixed rotating shaft and the toothed wheel rotating shaft; the second fixed rotating shaft is symmetrically and rotatably arranged on the shell of the detector; the feeding belt component is arranged between the first fixed rotating shaft and the second fixed rotating shaft on the same side; the material storage test tubes are arranged on the feeding belt component at intervals; the material blocking plug is arranged on the material storage test tube in a sliding manner; the lower pressing springs are symmetrically arranged between the material storage test tube and the material plugging plug; the gear transmission assembly is arranged between the two first fixed rotating shafts.

As an improvement of the above aspect, the sealing mechanism includes: the sealing baffle is hinged on the detector shell; the electromagnetic lock is arranged on the shell of the detector and matched with the sealing baffle; the positioning clip is arranged on the shell of the detector and matched with the sealing baffle; the first pressure sensor is arranged on the shell of the detector; and the unlocking button is arranged on the detector shell.

As the improvement of the scheme, the device also comprises a filtering mechanism, and the filtering mechanism comprises: the vertical transmission shaft is rotatably arranged on the shell of the detector; the first transmission assembly is arranged between the second fixed rotating shaft and the vertical transmission shaft; the stirring barrel is arranged on the shell of the detector; the spiral fan blade rod is rotatably arranged on the stirring barrel; the second transmission assembly is arranged between the vertical transmission shaft and the spiral fan blade rod; the liquid level sensor is arranged on the stirring barrel; the spherical electromagnetic valve is arranged on the shell of the detector and matched with the stirring barrel; the infusion tubes are arranged in the stirring barrel at intervals and are communicated; the sealing spring plug pipe is arranged on the detector shell in an interval sliding mode and matched with the infusion tube; the filter cartridge is arranged on the shell of the detector; the floating plate is arranged on the filter cartridge in a sliding manner; and the liquid conveying pipe is arranged on the stirring barrel and communicated with the stirring barrel.

As an improvement of the scheme, the device further comprises an automatic detection mechanism, and the automatic detection mechanism comprises: the second gear lack is arranged on the driving shaft; the transmission shaft with the groove is rotatably arranged on the shell of the detector and is matched with the second gear lacking; the gear reversing assembly is arranged between the grooved transmission shaft and the detector shell; the disc with the column is rotatably arranged on the shell of the detector in a way that the transmission shaft with the groove is matched with the second gear lacking; the driven gear is arranged on the disc with the column and is meshed with the gear reversing assembly; the guide rods are symmetrically arranged on the shell of the detector; the I-shaped transmission frame is slidably arranged between the two guide rods and sleeved on the right part of the disc with the column in sliding fit with the disc with the column; the lifting moving block is arranged on the I-shaped transmission frame in a sliding manner; the supporting spring is arranged between the I-shaped transmission frame and the lifting moving block; the wave guide plate is arranged on the detector shell; the fixed clamping block is arranged on the wave guide plate in a sliding mode and is fixedly connected with the lifting moving block; the electric push rod is arranged on the fixed clamping block; the resetting push block is arranged on the fixed clamping block in a sliding mode and is fixedly connected with the electric push rod; the positioning sliding blocks are symmetrically and slidably arranged on the fixed clamping blocks; the contraction spring is arranged between the positioning sliding block and the fixed clamping block; the positioning clamping jaw is arranged between the two positioning sliding blocks; the dropping stop rods are arranged on the wave guide plate at intervals; and the second pressure sensor is arranged on the wave guide plate.

As the improvement of above-mentioned scheme, still including test paper feed mechanism, test paper feed mechanism is including: the storage bin barrel is arranged on the shell of the detector; the transmission long shaft is symmetrically and rotatably arranged on the shell of the detector; the second bevel gear assembly is arranged between one of the transmission long shafts and one of the first fixed rotating shafts; the column-equipped kickoff drum is rotatably mounted on the storage bin barrel; the third transmission assembly is arranged between the column-carrying material poking rotary drum and one of the transmission long shafts; the slotted belt component is arranged between the two transmission long shafts; the positioning clamping plates are symmetrically arranged on the shell of the detector; the spring baffle is arranged between the two positioning clamping plates in a sliding manner; the roller inclined block is arranged on the detector shell; the blanking column is arranged on the guide inclined tube; the water absorption material receiving box is arranged on the shell of the detector in a sliding mode.

As the improvement of above-mentioned scheme, still including receiving mechanism, receiving mechanism is including: the material receiving inclined plate is slidably mounted on the detector shell; the material clamping box is slidably placed on the shell of the detector; the buffering sponge board is arranged on the material clamping box.

As an improvement of the above scheme, the device further comprises a reagent soaking mechanism, wherein the reagent soaking mechanism comprises: the shading disc is arranged on the transmission shaft with the groove; the photoelectric sensor is arranged on the shell of the detector; the medicine storage cavity is arranged on the shell of the detector; and the spraying equipment is arranged between the medicine storage cavity and the storage bin and is communicated with the medicine storage cavity.

As an improvement of the above scheme, the electric control box is further included, the electric control box is embedded in one side of the detector shell, the electric control box comprises a switching power supply, a power supply module and a control module, the switching power supply supplies power to the whole device, the power supply module is connected with a power supply main switch through a circuit, the control module is electrically connected with the power supply module, and the control module is connected with a DS1302 clock circuit and a 24C02 circuit; the liquid level sensor, the photoelectric sensor, the detection button, the unlocking button, the first pressure sensor and the second pressure sensor are electrically connected with the control module; the electric push rod, the servo motor, the spherical electromagnetic valve, the electromagnetic lock and the spraying equipment are all connected with the control module through a peripheral circuit.

Has the advantages that:

1. according to the invention, urine can be collected and sealed through the functions of the material conveying mechanism and the sealing mechanism, so that people can conveniently collect and fix the urine and the urine is not easy to scatter.

2. The invention can drop a proper amount of urine on the test paper through the action of the automatic detection mechanism, thus the urine does not need to be dropped on the urine manually.

3. According to the invention, under the action of the material receiving mechanism, the material storage test tube falls onto the material clamping box through the material receiving inclined plate, and the buffer sponge plate has a buffer effect, so that people can conveniently collect the material storage test tube.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

FIG. 2 is a schematic view of a first partial body structure according to the present invention.

FIG. 3 is a schematic view of a second partial body structure according to the present invention.

Fig. 4 is a perspective view of a third embodiment of the present invention.

Fig. 5 is an enlarged schematic view of part a of the present invention.

Fig. 6 is a perspective view of a fourth embodiment of the present invention.

FIG. 7 is a schematic view of a fifth partial body structure according to the present invention.

Fig. 8 is a schematic structural view of a sixth partial body according to the present invention.

FIG. 9 is a schematic view of a seventh partial body structure according to the present invention.

Fig. 10 is a schematic perspective view of an eighth partial structure of the present invention.

FIG. 11 is a schematic view of a ninth partial body structure according to the present invention.

Fig. 12 is an enlarged view of part B of the present invention.

FIG. 13 is a schematic view of a tenth partial body structure according to the present invention.

FIG. 14 is a schematic view of an eleventh partial body structure according to the present invention.

FIG. 15 is a schematic view of a twelfth partial body structure according to the present invention.

Fig. 16 is an enlarged schematic view of part C of the present invention.

FIG. 17 is a schematic view of a thirteenth partial body according to the present invention.

FIG. 18 is a schematic view of a fourteenth partially separated body structure according to the present invention.

FIG. 19 is a circuit block diagram of the present invention.

Fig. 20 is a circuit schematic of the present invention.

The meaning of the reference symbols in the figures: 1_ detector housing, 2_ heat dissipation base, 3_ air-permeable baffle, 4_ electric cabinet, 5_ detection button, 6_ material conveying mechanism, 61_ servo motor, 62_ driving shaft, 63_ first missing gear, 64_ driven worm assembly, 65_ toothed wheel rotating shaft, 66_ first bevel gear assembly, 67_ first fixed rotating shaft, 68_ second fixed rotating shaft, 69_ feeding belt assembly, 610_ storage test tube, 611_ material blocking plug, 612_ downward pressing spring, 613_ gear transmission assembly, 7_ sealing mechanism, 71_ sealing baffle, 72_ electromagnetic lock, 73_ positioning clip, 74_ first pressure sensor, 75_ unlocking button, 8_ filtering mechanism, 81_ first transmission assembly, 82_ vertical transmission shaft, 83_ second transmission assembly, 84_ stirring barrel, 85_ spiral fan blade rod, 86_ liquid level sensor, 87_ spherical electromagnetic valve, 88_ perfusion tube, 89_ sealed spring plug tube, 810_ cartridge filter, 811_ float plate, 812_ liquid transfer tube, 9_ automatic detection mechanism, 91_ second missing gear, 92_ grooved drive shaft, 93_ gear reversing component, 94_ driven gear, 95_ belt column disc, 96_ i-shaped drive rack, 97_ guide bar, 98_ lifting moving block, 99_ supporting spring, 910_ wave guide plate, 911_ fixed clamp block, 912_ electric push rod, 913_ reset push block, 914_ positioning slide block, 915_ retraction spring, 916_ positioning clamping jaw, 917_ dropping stop lever, 918_ second pressure sensor, 10_ test paper feeding mechanism, 101_ cartridge storage bin, 102_ second bevel gear component, 103_ drive long shaft, 104_ third drive component, 105_ belt column dial drum, 106_ grooved belt component, 107_ spring baffle, 108_ positioning clamp plate, 109_ guide inclined tube, 1010_ blanking column, 1011_ roller inclined block, 1012_ water absorption material receiving box, 11_ material receiving mechanism, 111_ material receiving inclined plate, 112_ material clamping box, 113_ buffer sponge plate, 12_ reagent soaking mechanism, 121_ shading disc, 122_ photoelectric sensor, 123_ medicine storage cavity and 124_ spraying equipment.

Detailed Description

Embodiments of the present invention will be described in detail below with reference to the accompanying drawings.

Example 1

The utility model provides a uropoiesis surgery detects uses urine analysis auxiliary device, as shown in fig. 1-5, including detector shell 1, heat dissipation base 2, ventilative baffle 3, detection button 5, fortune material mechanism 6 and

sealing mechanism

7, 2 top rigid couplings of heat dissipation base have

detector shell

1, 1 left part front side of detector shell is equipped with

ventilative baffle

3, 1 front side right part upside of detector shell is equipped with detection button 5, be equipped with fortune material mechanism 6 on the detector shell 1, be equipped with sealing mechanism 7 on the detector shell 1.

The material conveying mechanism 6 comprises a servo motor 61, a driving shaft 62, a first gear lacking 63, a driven worm assembly 64, a gear-wheel rotating shaft 65, a first bevel gear assembly 66, a first fixed rotating shaft 67, a second fixed rotating shaft 68, a feeding belt assembly 69, a material storage test tube 610, a material blocking plug 611, a pressing spring 612 and a gear transmission assembly 613, wherein the servo motor 61 is fixedly connected to the rear side of the lower portion of the outer right side surface of the detector shell 1, the driving shaft 62 is connected to an output shaft of the servo motor 61, the first gear lacking 63 is fixedly connected to the right portion of the driving shaft 62 in the circumferential direction, the driven worm assembly 64 is rotatably arranged in the middle of the rear portion of the inner right side surface of the detector shell 1, the driven worm assembly 64 is matched with the first gear lacking 63, the gear-wheel rotating shaft 65 is rotatably arranged on the lower portion of the right portion of the inner rear side surface of the detector shell 1, the first fixed rotating shaft 67 is symmetrically rotatably arranged on the front portion of the right portion of the detector shell 1 in the front and back, and back of the first fixed rotating shaft 67, and the first bevel gear-wheel rotating shaft 65 are circumferentially arranged between the lower portion of the rear portion of the gear-wheel rotating shaft Wheel subassembly 66, the symmetry rotary type is equipped with the fixed pivot 68 of second around the left part in the detector shell 1, be connected with feeding belt subassembly 69 between the first fixed pivot 67 upper portion circumference of homonymy and the fixed pivot 68 upper portion circumference of second, material storage test tube 610 has been placed to even interval between the feeding belt subassembly 69 of front and back both sides, lower part slidingtype is equipped with putty stopper 611 in the material storage test tube 610, material storage test tube 610 medial surface and putty stopper 611 bilateral symmetry have been around having pushed down spring 612, be equipped with gear drive assembly 613 between the first fixed pivot 67 lower part circumference of front and back both sides.

Sealing mechanism 7 is including seal flap 71, electromagnetic lock 72, positioning clip 73, first pressure sensor 74 and unblock button 75, the articulated formula of detector shell 1 right part upside is equipped with seal flap 71, the outer right flank upper portion rear side rigid coupling of detector shell 1 has electromagnetic lock 72, electromagnetic lock 72 and seal flap 71 cooperation, upper portion left side rear portion slidingtype is equipped with positioning clip 73 in detector shell 1, positioning clip 73 and seal flap 71 cooperation, upper portion left side rear portion is equipped with first pressure sensor 74 in the detector shell 1, the outer right flank upper portion rear side rigid coupling of detector shell 1 has unblock button 75.

Initially, the electromagnetic lock 72 locks and limits the sealing baffle 71, people press a main power switch to electrify the equipment, the first pressure sensor 74 starts to work, an operator presses the unlocking button 75 once, the unlocking button 75 sends a signal, the control module receives the signal and then controls the electromagnetic lock 72 to be opened, the electromagnetic lock 72 stops limiting the sealing baffle 71, people can pull the sealing baffle 71 to swing upwards, the positioning clips 73 also stop limiting the sealing baffle 71, then the storage test tubes 610 are respectively taken up and filled with a proper amount of urine, the storage test tubes 610 are respectively placed back between the front and rear side feeding belt assemblies 69 at intervals, the sealing baffle 71 is pulled to swing downwards to reset, the sealing baffle 71 swings downwards to contact with the first pressure sensor 74, the first pressure sensor 74 sends a signal, the control module receives the signal and then controls the electromagnetic lock 72 to be closed, the electromagnetic lock 72 also limits the sealing baffle 71, and the sealing baffle plate 71 swings downwards to slide over the positioning clips 73, the positioning clips 73 also limit the sealing baffle plate 71, if the urine analysis auxiliary device is needed, firstly the air permeable baffle plate 3 is taken down, then the detection button 5 is pressed once, the detection button 5 sends a signal, the control module receives the signal and controls the servo motor 61 to work for 4 seconds, the servo motor 61 drives the driving shaft 62 to rotate reversely, the driving shaft 62 rotates forwardly to drive the first missing gear 63 to rotate forwardly, the first missing gear 63 rotates forwardly to drive the driven worm assembly 64 to rotate reversely, the driven worm assembly 64 rotates reversely to drive the toothed wheel rotating shaft 65 to rotate reversely, the toothed wheel rotating shaft 65 rotates reversely to drive the rear first fixed rotating shaft 67 to rotate forwardly through the first bevel gear assembly 66, the rear first fixed rotating shaft 67 rotates forwardly to cooperate with the rear second fixed rotating shaft 68 to drive the rear feeding belt assembly 69, and simultaneously, the rear first fixed rotating shaft 67 rotates forwardly to drive the front first fixed rotating shaft 67 to rotate reversely through the gear transmission assembly 613, the first fixed rotating shaft 67 in the front rotates reversely to be matched with the second fixed rotating shaft 68 in the front to drive the feeding belt assembly 69 in the front to rotate reversely, the feeding belt assemblies 69 on the front and the rear sides rotate forward and backward to drive the material storage test tube 610 to move leftwards for a certain distance, people can take the leftmost material storage test tube 610 down for detection and analysis, after 4 seconds, the control module controls the servo motor 61 to be closed, the driving shaft 62 stops driving the first gear 63 to rotate forward, the feeding belt assemblies 69 on the front and the rear sides stop rotating forward and backward, the air baffle 3 is installed back to the detector shell 1, people can press the material storage test tube 610 to move downwards, the pressing spring 612 is compressed, the material storage test tube 610 moves downwards to stop limiting, a proper amount of urine is dripped into the test paper to be detected, the material storage test tube 610 is loosened, and the material storage test tube 610 moves upwards to reset due to the effect of the pressing spring 612.

Example 2

Based on embodiment 1, as shown in fig. 6 to 16, the present invention further includes a filtering mechanism 8, the filtering mechanism 8 includes a first transmission assembly 81, a vertical transmission shaft 82, a second transmission assembly 83, a stirring barrel 84, a spiral vane lever 85, a liquid level sensor 86, a spherical solenoid valve 87, a liquid transport tube 88, a sealed spring plug tube 89, a filter cartridge 810, a floating plate 811 and a liquid transport tube 812, the vertical transmission shaft 82 is rotatably disposed on the left side of the rear portion of the casing 1 of the detector, the first transmission assembly 81 is connected between the lower circumferential direction of the second fixed rotation shaft 68 and the lower circumferential direction of the vertical transmission shaft 82, the stirring barrel 84 is disposed in the middle of the upper side of the rear portion of the casing 1 of the detector, the spiral vane lever 85 is rotatably disposed at the center of the stirring barrel 84, the second transmission assembly 83 is connected between the upper circumferential direction of the spiral vane lever 85 and the upper circumferential direction of the vertical transmission shaft 82, the upper side of the right portion of the stirring barrel 84 is disposed with the liquid level sensor 86, detector shell 1 rear portion left side upper portion is equipped with spherical solenoid valve 87, spherical solenoid valve 87 and agitator 84 cooperation, the interval is equipped with transfer line 88 and intercommunication on the agitator 84, the interval slidingtype sealing spring stopper 89 that is equipped with in detector shell 1 upper portion right side rear portion, sealing spring stopper 89 and transfer line 88 cooperation, cartridge filter 810 has been placed on detector shell 1 rear portion left side upper portion, the gliding type is equipped with floating plate 811 on cartridge filter 810, be equipped with fluid transmission pipe 812 and communicate on the cartridge filter 810, fluid transmission pipe 812 and agitator 84 and communicate.

The automatic detection device comprises an automatic detection mechanism 9, wherein the automatic detection mechanism 9 comprises a second gear 91, a grooved transmission shaft 92, a gear reversing assembly 93, a driven gear 94, a cylindrical disc 95, an I-shaped transmission frame 96, a guide rod 97, a lifting moving block 98, a supporting spring 99, a wave guide plate 910, a fixed clamping block 911, an electric push rod 912, a reset push block 913, a positioning slider 914, a contraction spring 915, a positioning clamping jaw 916, a dropping stop lever 917 and a second pressure sensor 918, the second gear 91 is fixedly connected to the left part of the driving shaft 62 in the circumferential direction, the grooved transmission shaft 92 is rotatably arranged on the lower left part of the rear part of the detector housing 1, the grooved transmission shaft 92 is matched with the second gear 91, the gear reversing assembly 93 is arranged between the left part of the grooved transmission shaft 92 and the lower left part of the rear part of the detector housing 1, the cylindrical disc 95 is rotatably arranged in the middle of the rear part of the left side surface in the detector housing 1, a driven gear 94 is fixedly connected to the left part of the belt column disc 95 in the circumferential direction, the driven gear 94 is engaged with a gear reversing assembly 93, guide rods 97 are symmetrically arranged at the upper and lower parts of the left part in the detector housing 1 in an up-and-down manner, an I-shaped transmission frame 96 is slidably arranged between the guide rods 97 at the upper and lower sides, the I-shaped transmission frame 96 is sleeved at the right part of the belt column disc 95 and is slidably matched with the belt column disc 95, a lifting moving block 98 is slidably arranged at the front part of the I-shaped transmission frame 96, a supporting spring 99 is connected between the inner side surface of the I-shaped transmission frame 96 and the lifting moving block 98 in a winding manner, a wave guide plate 910 is arranged at the left part in the detector housing 1, a fixed clamping block 911 is slidably arranged on the wave guide plate 910, the fixed clamping block 911 is fixedly connected with the lifting moving block 98, an electric push rod 912 is arranged at the rear side of the left part in the fixed clamping block 911, a reset push rod 913 is slidably arranged on the sliding manner, the reset push rod 913 is fixedly connected with the electric push rod 912, positioning sliders 914 is symmetrically arranged at the front and back on the fixed clamping block 911, a contracting spring 915 is connected between the positioning slide block 914 and the fixed clamping block 911 in a winding way, a positioning clamping jaw 916 is hinged between the positioning slide blocks 914 on the front side and the rear side, a dripping blocking rod 917 is arranged at the lower part of the right side surface of the wave guide plate 910 at intervals, and a second pressure sensor 918 is arranged on the upper side of the front part of the right side surface of the wave guide plate 910.

The test paper feeding mechanism 10 comprises a storage bin cylinder 101, a second bevel gear assembly 102, a transmission long shaft 103, a third transmission assembly 104, a column-carrying material poking rotary cylinder 105, a slotted belt assembly 106, a spring baffle 107, a positioning clamping plate 108, a guide inclined tube 109, a blanking column 1010, a roller inclined block 1011 and a water absorption material receiving box 1012, wherein the storage bin cylinder 101 is arranged on the right side of the front part of the detector shell 1, the transmission long shaft 103 is symmetrically and rotatably arranged on the right side of the front part of the detector shell 1, the second bevel gear assembly 102 is connected between the circumferential direction of the rear part of the right transmission long shaft 103 and the circumferential direction of the lower part of the front first fixed rotary shaft 67, the column-carrying material poking rotary cylinder 105 is rotatably arranged on the lower part of the storage bin cylinder 101, the third transmission assembly 104 is connected between the circumferential direction of the rear part of the column-carrying material poking rotary cylinder 105 and the circumferential direction of the rear part of the right transmission long shaft 103, the slotted belt assembly 106 is connected between the circumferential directions of the left and right transmission long shaft 103, the front part of the right side of the outer top of the detector shell 1 is symmetrically and fixedly connected with positioning clamping plates 108 in a front-back mode, a spring baffle 107 is arranged between the positioning clamping plates 108 on the front side and the back side in a sliding mode, a guide inclined tube 109 is arranged on the left side of the inner front part of the detector shell 1, a blanking column 1010 is arranged on the front side of the outer bottom of the guide inclined tube 109, a roller inclined block 1011 is arranged on the lower portion of the inner front part of the detector shell 1 on the left side, and a water absorption and material receiving box 1012 is arranged on the lower portion of the front part of the detector shell 1 on the left side in a sliding mode.

People press a power supply main switch to electrify the equipment, the liquid level sensor 86 starts to work, firstly, an operator pours a proper amount of urine into the filter cylinder 810, the urine enables the floating plate 811 to move upwards, the floating plate 811 moves upwards to limit the lower part in the filter cylinder 810, people continue to pour the urine, the urine flows into the stirring barrel 84 through the liquid transfer pipe 812, the detection button 5 is pressed once, the detection button 5 sends a signal, the control module receives the signal and controls the servo motor 61 to work for 4 seconds, the second fixed rotating shaft 68 rotates forwards to drive the first transmission component 81 to rotate forwards, the first transmission component 81 rotates forwards to drive the vertical transmission shaft 82 to rotate forwards, the vertical transmission shaft 82 rotates forwards to drive the second transmission component 83 to rotate forwards, the second transmission component 83 rotates forwards to drive the spiral fan blade rod 85 to rotate forwards, the spiral fan blade rod 85 rotates forwards to stir the urine, after 4 seconds, the control module controls the servo motor 61 to be closed, the spiral fan blade rod 85 stops positively rotating to stir urine, the unlocking button 75 is pressed, the unlocking button 75 sends a signal, the control module receives the signal and then controls the electromagnetic lock 72 to open, then people respectively put the storage test tubes 610 back to the positions between the front and rear feeding belt assemblies 69 at intervals, the sealing baffle 71 is pulled to swing downwards to reset, the electromagnetic lock 72 limits the sealing baffle 71, the sealing baffle 71 swings downwards to reset so that the sealing spring plug tube 89 moves backwards to be sleeved on the infusion tube 88 and communicated with the infusion tube 88, then a proper amount of urine is added into the filter cartridge 810, the urine flows into the agitation barrel 84 through the infusion tube 812, when the liquid level sensor 86 detects that the urine in the agitation barrel 84 is larger than a rated value in the control module, the liquid level sensor 86 sends a signal, the control module receives the signal and then controls the spherical electromagnetic valve 87 to open, and the spherical electromagnetic valve 87 stops limiting the infusion tube 88, urine also flows into in the storage test tube 610 through transfer line 88 and sealing spring stopper pipe 89, when level sensor 86 detected that the interior urine of agitator 84 is less than the rating in the control module, level sensor 86 signals again, control spherical solenoid valve 87 closes behind the control module received signal, then takes down cartridge filter 810 and biography liquid pipe 812 and carries out subsequent processing, installs on new cartridge filter 810 and pass liquid pipe 812 to detector shell 1, so, can sieve out the anterior portion of urine.

When the device is powered on, the second pressure sensor 918 starts to work, when urine is loaded into the storage test tube 610, a piece of test paper is placed under the fixed clamping block 911, the detection button 5 is pressed once, the detection button 5 sends a signal, the control module receives the signal and controls the servo motor 61 to work for 4 seconds, the front and rear feeding belt assemblies 69 rotate forward and backward to drive the storage test tube 610 to move leftward for a certain distance, the leftmost storage test tube 610 moves leftward to be in contact with the positioning clamping jaw 916, the storage test tube 610 drives the positioning clamping jaw 916 to move leftward, the positioning clamping jaw 916 also limits the storage test tube 610, meanwhile, the driving shaft 62 rotates backward to drive the second missing gear 91 to rotate backward, the second missing gear 91 rotates backward to drive the grooved transmission shaft 92 to rotate forward, the grooved transmission shaft 92 rotates forward to drive the driven gear 94 to rotate forward through the gear reversing assembly 93, the driven gear 94 rotates forward to drive the belt column disc 95, the belt column disc 95 rotates forwards to drive the I-shaped transmission frame 96 to move forwards and backwards once, the I-shaped transmission frame 96 moves forwards to drive the lifting moving block 98 to move forwards, the lifting moving block 98 moves forwards to drive the fixed clamping block 911 to move forwards, the fixed clamping block 911 moves forwards through the wave guide plate 910 repeatedly, the fixed clamping block 911 moves upwards and downwards to drive the storage test tube 610 to move upwards and downwards, the storage test tube 610 moves downwards to contact with the dripping stop lever 917, the material blocking plug 611 stops limiting the storage test tube 610, a proper amount of urine drips onto the test paper, when the fixed clamping block 911 moves forwards to a maximum stroke, the fixed clamping block 911 contacts with the second pressure sensor 918, the second pressure sensor 918 sends out a signal, the control module controls the electric push rod 912 to work for 2 seconds after receiving the signal, the electric push rod 912 drives the reset push block 913 to move rightwards, the reset push block 913 drives the positioning slider 914 to move rightwards, the positioning sliding block 914 moves rightwards to drive the positioning clamping jaw 916 to move rightwards, the positioning clamping jaw 916 moves rightwards at a certain distance and is opened to stop limiting the material storage test tube 610, the material storage test tube 610 is taken down for subsequent processing, the test paper is taken up for subsequent processing, after 2 seconds, the electric push rod 912 drives the reset push block 913 to move leftwards for resetting, the lifting moving block 98 also drives the fixed clamping block 911 to move backwards for resetting, after 4 seconds, the control module controls the servo motor 61 to be turned off, and therefore urine does not need to be dropped onto urine manually.

When the device is powered on, firstly, the spring baffle 107 is pulled to move leftwards, a proper amount of test paper is added into the storage bin 101, the spring baffle 107 is pulled to move rightwards to reset, the detection button 5 is pressed once, the detection button 5 sends a signal, the control module receives the signal and then controls the servo motor 61 to work for 4 seconds, the first fixed rotating shaft 67 in front reversely rotates and drives the right transmission long shaft 103 to reversely rotate through the second bevel gear assembly 102, the right transmission long shaft 103 reversely rotates and drives the third transmission assembly 104 to reversely rotate, the third transmission assembly 104 reversely rotates and drives the column stirring drum 105 to reversely rotate, the column stirring drum 105 reversely rotates and stirs one test paper to the slotted belt assembly 106, meanwhile, the transmission long shafts 103 on the left side and the right side reversely rotate the slotted belt assembly 106, the slotted belt assembly 106 reversely rotates and drives the test paper to move leftwards, the test paper moves leftwards to the water absorption receiving bin 1012 through the blanking column 1010 and the guide inclined tube 109, the oblique piece 1011 of gyro wheel plays the guide effect, and 4 seconds back, control module control servo motor 61 closes, and on the right amount urine just also dropped into the test paper, take out and absorb water and connect workbin 1012 to carry out subsequent processing to the test paper, and then will absorb water and connect workbin 1012 to put back on detector shell 1. Thus, the test paper does not need to be repeatedly placed by people.

Example 3

On the basis of embodiment 1 and embodiment 2, as shown in fig. 13, 17 and 18, the detecting device further comprises a material receiving mechanism 11, wherein the material receiving mechanism 11 comprises a material receiving inclined plate 111, a material clamping box 112 and a buffering sponge plate 113, the material receiving inclined plate 111 is arranged on the lower side of the front part of the wave guide plate 910, the material clamping box 112 is slidably placed on the lower side of the front part of the detector housing 1, and the buffering sponge plate 113 is arranged at the bottom inside the material clamping box 112.

Still including reagent infiltration mechanism 12, reagent infiltration mechanism 12 is including shading disc 121, photoelectric sensor 122, medicine storage chamber 123 and spraying apparatus 124, the circumference rigid coupling in grooved transmission shaft 92 right part has shading disc 121, detector shell 1 rear portion downside left part is equipped with photoelectric sensor 122, photoelectric sensor 122 and shading disc 121 cooperation, detector shell 1 right part upside front portion is equipped with medicine storage chamber 123, be equipped with spraying apparatus 124 between medicine storage chamber 123 and the storage silo section of thick bamboo 101 and communicate.

When location clamping jaw 916 opened and stops to spacing storage test tube 610, storage test tube 610 also drops to pressing from both sides on the workbin 112 through connecing material swash plate 111, and buffering sponge board 113 plays the cushioning effect, presss from both sides after the workbin 112 is equipped with appropriate amount of storage test tube 610 in, takes up and presss from both sides workbin 112 and carry out subsequent processing to storage test tube 610, and then will press from both sides workbin 112 and put back to detector shell 1 on, so, can make things convenient for people to collect storage test tube 610.

When the device is powered on, the photoelectric sensor 122 starts to work, the detection button 5 is pressed once, the detection button 5 sends a signal, the control module receives the signal and then controls the servo motor 61 to work for 4 seconds, the driving shaft 62 rotates reversely to drive the shading disc 121 to rotate reversely, when the shading disc 121 rotates reversely to the rear side, the photoelectric sensor 122 sends a signal, the control module receives the signal and then controls the spraying device 124 to work, the spraying device 124 sprays liquid medicine on the uppermost test paper of the storage bin 101, the shading disc 121 continues to rotate reversely to the front side, after 4 seconds, the control module also controls the servo motor 61 to close, the photoelectric sensor 122 sends a signal again, the control module receives the signal and then controls the spraying device 124 to close, and therefore the liquid medicine can be conveniently sprayed on the test paper.

As shown in fig. 1, 19 and 20, the electric control box 4 is further included, the electric control box 4 is installed at the right part of the upper side of the front part of the detector housing 1 in an embedded manner, the electric control box 4 includes a switching power supply, a power supply module and a control module, the switching power supply supplies power to the whole device, the power supply module is connected with a power supply main switch through a circuit, the control module is electrically connected with the power supply module, and the control module is connected with a DS1302 clock circuit and a 24C02 circuit; the liquid level sensor 86, the photoelectric sensor 122, the detection button 5, the unlocking button 75, the first pressure sensor 74 and the second pressure sensor 918 are electrically connected with the control module; the electric push rod 912, the servo motor 61, the spherical solenoid valve 87, the electromagnetic lock 72 and the spraying device 124 are connected with the control module through peripheral circuits.

It should be understood by those skilled in the art that the above embodiments do not limit the present invention in any way, and all technical solutions obtained by using equivalent alternatives or equivalent variations fall within the scope of the present invention.

Claims

1. A uropoiesis is urine analysis auxiliary device for surgery detection, characterized by, including:

the detector comprises a heat dissipation base (2), wherein a detector shell (1) is arranged on the heat dissipation base (2); the air permeable baffle (3), the air permeable baffle (3) is installed on the detector shell (1); the detection button (5), the detection button (5) is installed on the detector shell (1); the conveying mechanism (6) is arranged on the detector shell (1) and used for conveying; and the sealing mechanism (7) is arranged on the detector shell (1) and is used for sealing.

2. The uro logical procedure examination urinalysis aid as claimed in claim 1, wherein the drive mechanism comprises:

the servo motor (61), the servo motor (61) is installed on the shell (1) of the detector; a drive shaft (62), the drive shaft (62) being mounted on an output shaft of the servo motor (61); a first missing gear (63), wherein the first missing gear (63) is arranged on the driving shaft (62); the driven worm assembly (64), the driven worm assembly (64) is rotatably installed on the detector shell (1), and the driven worm assembly (64) is matched with the first gear (63); the toothed wheel rotating shaft (65), the toothed wheel rotating shaft (65) is rotatably arranged on the detector shell (1); the first fixed rotating shaft (67), the first fixed rotating shaft (67) is symmetrically and rotatably arranged on the detector shell (1); a first bevel gear assembly (66), the first bevel gear assembly (66) being mounted between one of the first fixed rotating shafts (67) and the toothed wheel rotating shaft (65); the second fixed rotating shaft (68), the second fixed rotating shaft (68) is symmetrically and rotatably arranged on the detector shell (1); the feeding belt component (69), the feeding belt component (69) is installed between the first fixed rotating shaft (67) and the second fixed rotating shaft (68) on the same side; the storage test tubes (610), the storage test tubes (610) are arranged on the feeding belt assembly (69) at intervals; the material blocking plug (611), the material blocking plug (611) is installed on the material storage test tube (610) in a sliding mode; the downward pressing spring (612), the downward pressing spring (612) is symmetrically installed between the material storage test tube (610) and the material blocking plug (611); and the gear transmission assembly (613), the gear transmission assembly (613) is arranged between the two first fixed rotating shafts (67).

3. The uro-surgical examination urinalysis aid as claimed in claim 2, wherein the sealing mechanism (7) comprises:

the sealing baffle (71), the sealing baffle (71) is hinged on the detector shell (1); the electromagnetic lock (72) is mounted on the detector shell (1), and the electromagnetic lock (72) is matched with the sealing baffle (71); the positioning clip (73), the positioning clip (73) is installed on the detector shell (1), and the positioning clip (73) is matched with the sealing baffle (71); a first pressure sensor (74), the first pressure sensor (74) being mounted on the detector housing (1); and the unlocking button (75), wherein the unlocking button (75) is arranged on the detector shell (1).

4. The uro logical test urinalysis aid of claim 3 further comprising a filter mechanism (8), wherein the filter mechanism (8) comprises:

the vertical transmission shaft (82), the vertical transmission shaft (82) is installed on the detector shell (1) in a rotating mode; the first transmission assembly (81), the first transmission assembly (81) is installed between the second fixed rotating shaft (68) and the vertical transmission shaft (82); the stirring barrel (84), the stirring barrel (84) is arranged on the detector shell (1); the spiral fan blade rod (85), the spiral fan blade rod (85) is rotatably arranged on the stirring barrel (84); the second transmission assembly (83), the second transmission assembly (83) is installed between the vertical transmission shaft (82) and the helical fan blade rod (85); the liquid level sensor (86), the liquid level sensor (86) is installed on the mixing tank (84); the spherical electromagnetic valve (87), the spherical electromagnetic valve (87) is installed on the detector shell (1), and the spherical electromagnetic valve (87) is matched with the stirring barrel (84); the infusion tubes (88), the infusion tubes (88) are arranged in the stirring barrel (84) at intervals and are communicated with each other; the sealing spring plug tube (89) is arranged on the detector shell (1) in a sliding mode at intervals, and the sealing spring plug tube (89) is matched with the infusion tube (88); the filter cartridge (810), the filter cartridge (810) is installed on the detector shell (1); the floating plate (811), the floating plate (811) is installed on the filter cartridge (810) in a sliding way; and the liquid conveying pipe (812), the liquid conveying pipe (812) is arranged on the stirring barrel (84) and is communicated with the stirring barrel (84), and the liquid conveying pipe (812) is communicated with the stirring barrel (84).

5. The uro logical test urinalysis aid of claim 4 further comprising an automatic test mechanism (9), wherein the automatic test mechanism (9) comprises:

the second gear (91) is arranged on the driving shaft (62); the transmission shaft (92) with the groove is rotatably arranged on the detector shell (1), and the transmission shaft (92) with the groove is matched with the second gear (91); the gear reversing assembly (93), the gear reversing assembly (93) is installed between the grooved transmission shaft (92) and the detector shell (1); a disc (95) with a column, wherein a transmission shaft (92) with a groove and a second gear (91) are matched and rotatably arranged on the detector shell (1); the driven gear (94), the driven gear (94) is installed on disc (95) with column, the driven gear (94) engages with gear reversing assembly (93); the guide rod (97), the guide rod (97) is installed on the shell (1) of the detector symmetrically; the I-shaped transmission frame (96), the I-shaped transmission frame (96) is slidably mounted between two guide rods (97), and the I-shaped transmission frame (96) is sleeved on the right part of the disc (95) with the column and is in sliding fit with the disc; the lifting moving block (98), the lifting moving block (98) is installed on the I-shaped transmission frame (96) in a sliding mode; the supporting spring (99), the supporting spring (99) is installed between the I-shaped transmission frame (96) and the lifting moving block (98); the wave guide plate (910), the wave guide plate (910) is installed on the detector shell (1); the fixed clamping block (911), the fixed clamping block (911) is slidably mounted on the wave guide plate (910), and the fixed clamping block (911) is fixedly connected with the lifting moving block (98); the electric push rod (912), the electric push rod (912) is installed on the fixed clamping block (911); the resetting push block (913), the resetting push block (913) is slidably mounted on the fixed clamping block (911), and the resetting push block (913) is fixedly connected with the electric push rod (912); the positioning sliding block (914), the positioning sliding block (914) is symmetrically and slidably arranged on the fixed clamping block (911); the contraction spring (915), the contraction spring (915) is arranged between the positioning slide block (914) and the fixed clamping block (911); the positioning clamping jaw (916), the positioning clamping jaw (916) is installed between the two positioning sliding blocks (914); the dripping blocking rods (917) are arranged on the wave guide plate (910) at intervals; and the second pressure sensor (918), wherein the second pressure sensor (918) is installed on the wave guide plate (910).

6. The urinalysis aid device for urological testing according to claim 5, further comprising a strip loading mechanism (10), wherein the strip loading mechanism (10) comprises:

the storage bin barrel (101), the storage bin barrel (101) is installed on the detector shell (1); the transmission long shaft (103), the transmission long shaft (103) is symmetrically and rotatably arranged on the detector shell (1); a second bevel gear assembly (102), the second bevel gear assembly (102) being mounted between one of the drive shafts (103) and one of the first fixed rotating shafts (67); the material shifting rotary drum (105) with columns is rotatably arranged on the material storage bin barrel (101); the third transmission assembly (104), the third transmission assembly (104) is installed between the column-carrying kick-out rotary drum (105) and one of the transmission long shafts (103); the slotted belt assembly (106), the slotted belt assembly (106) is installed between the two long transmission shafts (103); the positioning clamping plates (108), the positioning clamping plates (108) are symmetrically arranged on the detector shell (1); the spring baffle (107), the spring baffle (107) is installed between the two positioning clamping plates (108) in a sliding way; the guide inclined tube (109), the guide inclined tube (109) is installed on the detector shell (1); the roller inclined block (1011), the roller inclined block (1011) is arranged on the detector shell (1); the blanking column (1010), the blanking column (1010) is installed on the guide inclined pipe (109); the water absorption material receiving box (1012) is arranged on the detector shell (1) in a sliding way.

7. The urinary surgery examination urine analysis auxiliary device as claimed in claim 6, further comprising a receiving mechanism (11), wherein the receiving mechanism (11) comprises:

the material receiving sloping plate (111), the material receiving sloping plate (111) is slidably mounted on the detector shell (1); the material clamping box (112), the material clamping box (112) is placed on the detector shell (1) in a sliding manner; the buffer sponge plate (113), the buffer sponge plate (113) is installed on the material clamping box (112).

8. The urinalysis assisting device for urological testing according to claim 7, further comprising a reagent infiltration mechanism (12), wherein the reagent infiltration mechanism (12) comprises:

the shading disc (121), the shading disc (121) is installed on the transmission shaft (92) with the groove; the photoelectric sensor (122), the photoelectric sensor (122) is installed on the detector shell (1); the medicine storage cavity (123), the medicine storage cavity (123) is arranged on the detector shell (1); and the spraying equipment (124) is arranged between the medicine storage cavity (123) and the storage bin barrel (101) and is communicated with the medicine storage cavity (124).

9. The urological detection urine analysis auxiliary device according to claim 8, further comprising an electric cabinet (4), wherein the electric cabinet (4) is embedded in one side of the detector housing (1), the electric cabinet (4) includes a switching power supply, a power supply module and a control module, the switching power supply supplies power to the whole device, the power supply module is connected with a power main switch through a circuit, the control module is electrically connected with the power supply module, and the control module is connected with a DS1302 clock circuit and a 24C02 circuit; the liquid level sensor (86), the photoelectric sensor (122), the detection button (5), the unlocking button (75), the first pressure sensor (74) and the second pressure sensor (918) are electrically connected with the control module; the electric push rod (912), the servo motor (61), the spherical electromagnetic valve (87), the electromagnetic lock (72) and the spraying equipment (124) are all connected with the control module through a peripheral circuit.