CN210438737U

CN210438737U - Pet disease detector capable of automatically sucking and ejecting test paper

Info

Publication number: CN210438737U
Application number: CN201920607629.0U
Authority: CN
Inventors: 蒋胜均; 唐薇; 何政栋
Original assignee: Chengdu Laifu Technology Co ltd
Current assignee: Chengdu Laifu Technology Co ltd
Priority date: 2019-04-29
Filing date: 2019-04-29
Publication date: 2020-05-01
Anticipated expiration: 2029-04-29

Abstract

The utility model discloses a pet disease detector capable of automatically sucking and ejecting test paper, which comprises a shell, wherein the shell comprises an upper shell and a lower shell, and the upper shell is covered on the lower shell and is fixed with the lower shell in a bolt fixing way; a window is arranged on the front side wall of the upper shell; the internal removal subassembly and the optical signal acquisition conversion subassembly of being provided with of inferior valve, it includes step motor, synchronous pulley drive mechanism and guide rail mechanism to remove the subassembly, the optical signal acquisition conversion subassembly is including setting up in the optics box of fixed guide rail upper surface and setting up in the illumination intensity detection module at last casing top. The utility model discloses simple structure accomplishes inhaling, popping out and the testing process of test paper strip through removing subassembly and light signal acquisition conversion subassembly, whole journey only need the manual work put into the test paper strip and take out can, improved the efficiency that pet test paper strip detected greatly.

Description

Pet disease detector capable of automatically sucking and ejecting test paper

Technical Field

The utility model relates to a biological detection equipment technical field, especially an automatic pet disease detector who inhales, pop out the test paper.

Background

Pet detection is a method used to determine whether a pet has a disease. Generally, the disease detection method of pets is divided into the following methods: the detection technology of the PCR fluorescent test paper comprises the steps of irradiating the fluorescent test paper by a laser emitter, projecting light outwards after the fluorescent material absorbs the light, and analyzing the illumination intensity of the fluorescence by a fluorescence microscope or a light intensity detection mechanism to obtain a detection result. The existing fluorescent test paper detection process is complex in operation and low in efficiency, the fluorescent test paper strip is manually operated, the test paper strip is damaged due to operation error, an instrument for detecting the test paper through a light intensity detection mechanism also appears at present, but the problems of low efficiency, low automation degree and complex structure exist.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to overcome prior art's not enough, provide an automatic pet disease detector who inhales, pop out the test paper.

The purpose of the utility model is realized through the following technical scheme:

a pet disease detector capable of automatically sucking and ejecting test paper comprises a shell, wherein the shell comprises an upper shell and a lower shell, and the upper shell is covered on the lower shell and is fixed with the lower shell in a bolt fixing mode; and a window is arranged on the front side wall of the upper shell.

The lower shell is internally provided with a moving assembly and an optical signal acquisition and conversion assembly.

The movable assembly comprises a stepping motor, a synchronous belt wheel transmission mechanism and a guide rail mechanism, the stepping motor is fixed on the inner wall of the lower shell bottom plate, the synchronous belt wheel transmission mechanism comprises a main synchronous belt wheel, a toothed synchronous belt, an auxiliary synchronous belt wheel and a fixed hinge support, the fixed hinge support is fixed on the inner wall of the lower shell bottom plate, the main synchronous belt wheel is sleeved on an output shaft of the stepping motor, one end of the toothed synchronous belt is sleeved on the main synchronous belt wheel, the other end of the toothed synchronous belt is sleeved on the auxiliary synchronous belt wheel, and the auxiliary synchronous belt wheel is fixed with the fixed hinge support through a hinged shaft.

The guide rail mechanism comprises a synchronous slide block, a fixed guide rail and a movable guide rail, a groove for the tooth-shaped synchronous belt to pass through is formed in the synchronous slide block, a plurality of fixed blocks are further arranged below the groove, a fixed bolt is arranged on each fixed block, and the fixed bolts penetrate through the fixed blocks and are abutted against and fixed with tooth grooves of the tooth-shaped synchronous belt to fix the synchronous slide block and the tooth-shaped synchronous belt; the fixed guide rail is matched with the inner wall of the bottom plate of the lower shell through a threaded sleeve and a bolt to fix the fixed guide rail, the bottom of a track of the fixed guide rail is also provided with a sliding groove, the movable guide rail is arranged in the track of the fixed guide rail, the top of the synchronous sliding block is provided with a convex block, and the convex block penetrates through the sliding groove and is fixed with the bottom of the movable guide rail; a dragging plate for placing test paper is arranged in the track of the movable guide rail, and the dragging plate is fixed with the movable guide rail in a bolt fixing mode; the carriage, the movable guide rail and the synchronous slide block move along the track of the fixed guide rail under the driving of the synchronous belt wheel transmission mechanism.

The optical signal acquisition and conversion assembly comprises an optical box arranged on the upper surface of a fixed guide rail and an illumination intensity detection module arranged at the top of an upper shell, the optical box is connected with the fixed guide rail through a fixed support arranged at the bottom of the optical box, a convex lens and an optical filter are arranged from top to bottom inside the optical box, a laser transmitter is further arranged on the front side wall of the optical box, the irradiation direction of the laser transmitter is perpendicular to the fixed guide rail, the laser transmitter irradiates a test strip on a planker, a fluorescent substance on the test strip absorbs light and projects the filtered light in the shell through the optical filter and the convex lens in the optical box in sequence, and the illumination intensity detection module is used for detecting the illumination intensity of the projected light in the shell.

The sealing device is characterized in that a sealing support is arranged in the shell and comprises a sealing plate, an arc-shaped rotating frame and a base, the sealing plate is located in the window, one end of the arc-shaped rotating frame is fixed to the sealing plate, the other end of the arc-shaped rotating frame is hinged to a rotating shaft arranged at the upper end of the base, the rotating shaft is connected with a rotating motor, and the sealing plate rotates under the driving of the arc-shaped rotating frame.

The shell is also internally provided with a processor and an analog-to-digital conversion module, the light intensity detection module is a illuminance sensor, and the output end of the illuminance sensor is connected with the input end of the processor through the analog-to-digital conversion module.

The tail end of the fixed guide rail is also provided with a stop block.

The utility model has the advantages that:

the utility model discloses simple structure accomplishes inhaling, popping out and the testing process of test paper strip through removing subassembly and light signal acquisition conversion subassembly, whole journey only need the manual work put into the test paper strip and take out can, improved the efficiency that pet test paper strip detected greatly.

Drawings

Fig. 1 is a schematic view of the housing of the present invention;

FIG. 2 is a schematic structural diagram of a moving assembly;

FIG. 3 is a left side view of the moving assembly;

FIG. 4 is a right side view of the moving assembly;

FIG. 5 is a top view of the moving assembly;

FIG. 6 is a schematic structural view of a seal holder;

FIG. 7 is a schematic view of a synchronizing slide and a synchronizing pulley drive;

in the figure, 1-an upper shell, 2-a lower shell, 3-a window, 4-a stepping motor, 5-a primary synchronous pulley, 6-a toothed synchronous belt, 7-a secondary synchronous pulley, 8-a fixed hinged support, 9-a synchronous slide block, 10-a fixed guide rail, 11-a moving guide rail, 12-a groove, 13-a fixed block, 14-a sliding chute, 15-a carriage, 16-an optical box, 17-an illumination intensity detection module, 18-a sealing plate, 19-an arc rotating frame, 20-a base, 21-a stop block and 22-a guide rail mechanism.

Detailed Description

The technical solution of the present invention is described in further detail below with reference to the accompanying drawings, but the scope of the present invention is not limited to the following description.

As shown in fig. 1 to 7, an automatic suction and ejection test paper pet disease detector is composed of an upper shell 1, a lower shell 2, a window 3, a stepping motor 4, a primary synchronous pulley 5, a toothed synchronous belt 6, a secondary synchronous pulley 7, a fixed hinge support 8, a synchronous slider 9, a fixed guide rail 10, a movable guide rail 11, a groove 12, a fixed block 13, a chute 14, a carriage 15, an optical box 16, an illumination intensity detection module 17, a sealing plate 18, an arc-shaped rotating frame 19, a base 20, a stopper 21 and a guide rail mechanism 22.

A pet disease detector with automatic suction and ejection test paper is connected in the following way:

the utility model provides an automatic pet disease detector who inhales, pop out test paper, includes the casing, the casing includes casing 1 and casing 2 down, its characterized in that: the upper shell 1 is covered on the lower shell 2 and is fixed with the lower shell 2 in a bolt fixing mode; the front side wall of the upper shell 1 is provided with a window 3.

And a moving assembly and an optical signal acquisition and conversion assembly are arranged in the lower shell 2.

The movable assembly comprises a stepping motor 4, a synchronous pulley transmission mechanism and a guide rail mechanism 22, the stepping motor 4 is fixed on the inner wall of the bottom plate of the lower shell 2, the synchronous pulley transmission mechanism comprises a main synchronous pulley 5, a toothed synchronous belt 6, an auxiliary synchronous pulley 7 and a fixed hinge support 8, the fixed hinge support 8 is fixed on the inner wall of the bottom plate of the lower shell 2, the main synchronous pulley 5 is sleeved on an output shaft of the stepping motor 4, one end of the toothed synchronous belt 6 is sleeved on the main synchronous pulley 5, the other end of the toothed synchronous belt 6 is sleeved on the auxiliary synchronous pulley 7, and the auxiliary synchronous pulley 7 is fixed with the fixed hinge support 8 through a hinge shaft.

The guide rail mechanism 22 comprises a synchronous slide block 9, a fixed guide rail 10 and a movable guide rail 11, a groove 12 for the tooth-shaped synchronous belt 6 to pass through is formed in the synchronous slide block 9, a plurality of fixed blocks 13 are further arranged below the groove 12, a fixed bolt is arranged on each fixed block 13, the fixed bolts penetrate through the fixed blocks 13 and are abutted against tooth grooves of the tooth-shaped synchronous belt 6 to be fixed, and the synchronous slide block 9 and the tooth-shaped synchronous belt 6 are fixed; the fixed guide rail 10 is matched with a bolt through a threaded sleeve to fix the fixed guide rail 10 with the inner wall of the bottom plate of the lower shell 2, the bottom of the track of the fixed guide rail 10 is also provided with a sliding groove 14, the movable guide rail 11 is arranged in the track of the fixed guide rail 10, the top of the synchronous sliding block 9 is provided with a convex block, and the convex block penetrates through the sliding groove 14 and is fixed with the bottom of the movable guide rail 11; a carriage 15 for placing test paper is arranged in the track of the movable guide rail 11, and the carriage 15 is fixed with the movable guide rail 11 in a bolt fixing mode; the carriage 15, the movable guide rail 11 and the synchronous slide block 9 move along the track of the fixed guide rail 10 under the driving of the synchronous belt pulley transmission mechanism.

The optical signal acquisition and conversion assembly comprises an optical box 16 arranged on the upper surface of a fixed guide rail 10 and an illumination intensity detection module 17 arranged at the top of an upper shell 1, the optical box 16 is connected with the fixed guide rail 10 through a fixed support arranged at the bottom of the optical box 16 in a bolt manner, a convex lens and an optical filter are arranged inside the optical box 16 from top to bottom, a laser emitter is further arranged on the front side wall of the optical box 16, the irradiation direction of the laser emitter is perpendicular to the fixed guide rail 10, the laser emitter irradiates a test strip on a carriage 15, a fluorescent substance on the test strip absorbs light and projects the filtered light into the shell through the optical filter and the convex lens in the optical box 11 in sequence, and the illumination intensity detection module 17 is used for detecting the illumination intensity of the projected light in.

Be provided with sealing support in the casing, sealing support includes closing plate 18, arc swivel mount 19 and base 20, closing plate 18 is located windowing 3, the one end and the closing plate 18 of arc swivel mount 19 are fixed, and the other end and the swivel spindle that sets up in the base 20 upper end of arc swivel mount 19 are articulated, the swivel spindle is connected with rotating electrical machines, closing plate 18 is rotatory under arc swivel mount 19's drive.

The shell is also internally provided with a processor and an analog-to-digital conversion module, the light intensity detection module 17 is a illuminance sensor, and the output end of the illuminance sensor is connected with the input end of the processor through the analog-to-digital conversion module.

The end of the fixed guide rail 10 is also provided with a stopper 21.

The pet disease detector capable of automatically sucking and ejecting test paper works as follows:

firstly, a control button is pressed down, the control button is arranged on a shell, the output end of the control button is connected with the input end of a processor, the output end of the processor is connected with a rotating motor on a rotating shaft of an arc-shaped rotating frame 19, the processor controls the rotating motor to work so as to drive a sealing plate to rotate, a fluorescent test paper with fluorescent substances is placed on a planker 15, after a correlation type photoelectric sensor arranged at the two ends of a moving track detects that the test paper is in place, a signal is output to the processor, the processor controls a moving assembly to start working, the output end of the correlation type photoelectric sensor is connected with the input end of the processor, the processor adopted by the utility model can be a PLC processor or a singlechip, the positive and negative rotation time of a stepping motor 4 is calculated according to the length of a fixed guide rail and the motor power, and the stepping motor 4 controls a synchronous belt wheel transmission, the synchronous slide block fixed on the tooth-shaped synchronous belt 6 drives the movable guide rail 11 and the carriage 15 to move along the track direction of the fixed guide rail 10, when the carriage 15 and the movable guide rail 10 carry the test paper to reach the optical box 16, the laser emitter arranged on the front side wall of the optical box 16 irradiates the test paper, the fluorescent substance on the test paper absorbs light, the fluorescent substance on the test paper projects light outwards, the optical filter arranged in the optical box 16 is used for screening the light emitted by the fluorescent substance and projecting the light into the shell through the lens, because the detector works, the upper shell 1 and the lower shell 2 are in a fixed connection state, the shell is in a dark and dark environment, the illumination intensity detection module 17 arranged at the top of the upper shell 1 is a light intensity sensor which detects the light intensity projected by the optical box 16, and converts an analog signal into a digital signal through the analog-to-digital conversion module and transmits, the processor sends the received digital signals to a cloud end or an external display through a communication module connected with the processor, and the communication module can be a Bluetooth communication module or a WIFI communication module or a 4G communication module.

When the movable guide rail 11 and the carriage 15 drive the test strip to be transported to the tail end of the fixed guide rail 10, the movable guide rail 11 is in contact with a stop block 21 arranged at the tail end of the fixed guide rail 10, the stepping motor 4 rotates reversely to drive the synchronous slide block 9, the movable guide rail 11 and the carriage 15 to return to an initial state, the movable guide rail 11 and the carriage 15 drive the test strip to pass through the window 3 and complete the detection process of the whole test strip, and finally the test strip is manually taken down.

Finally, it should be noted that the above is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, a plurality of improvements and decorations can be made without departing from the principle of the present invention, and these improvements and decorations should also be regarded as the protection scope of the present invention.

Claims

1. The utility model provides an automatic pet disease detector who inhales, pop out test paper, includes the casing, the casing includes casing (1) and casing (2) down, its characterized in that: the upper shell (1) is covered on the lower shell (2) and is fixed with the lower shell (2) in a bolt fixing mode; a window (3) is arranged on the front side wall of the upper shell (1);

a moving assembly and an optical signal acquisition and conversion assembly are arranged in the lower shell (2);

the moving assembly comprises a stepping motor (4), a synchronous pulley transmission mechanism and a guide rail mechanism (22), the stepping motor (4) is fixed on the inner wall of the bottom plate of the lower shell (2), the synchronous pulley transmission mechanism comprises a main synchronous pulley (5), a toothed synchronous belt (6), an auxiliary synchronous pulley (7) and a fixed hinged support (8), the fixed hinged support (8) is fixed on the inner wall of the bottom plate of the lower shell (2), the main synchronous pulley (5) is sleeved on an output shaft of the stepping motor (4), one end of the toothed synchronous belt (6) is sleeved on the main synchronous pulley (5), the other end of the toothed synchronous belt (6) is sleeved on the auxiliary synchronous pulley (7), and the auxiliary synchronous pulley (7) is fixed with the fixed hinged support (8) through a hinged shaft;

the guide rail mechanism (22) comprises a synchronous slide block (9), a fixed guide rail (10) and a movable guide rail (11), a groove (12) for the tooth-shaped synchronous belt (6) to pass through is formed in the synchronous slide block (9), a plurality of fixed blocks (13) are further arranged below the groove (12), a fixed bolt is arranged on each fixed block (13), the fixed bolts penetrate through the fixed blocks (13) and are abutted and fixed with tooth grooves of the tooth-shaped synchronous belt (6) to fix the synchronous slide block (9) and the tooth-shaped synchronous belt (6); the fixed guide rail (10) is matched with a bolt through a threaded sleeve to fix the fixed guide rail (10) and the inner wall of the bottom plate of the lower shell (2), the bottom of a track of the fixed guide rail (10) is also provided with a sliding groove (14), the movable guide rail (11) is arranged in the track of the fixed guide rail (10), the top of the synchronous sliding block (9) is provided with a convex block, and the convex block penetrates through the sliding groove (14) and is fixed with the bottom of the movable guide rail (11); a carriage (15) for placing test paper is arranged in the track of the movable guide rail (11), and the carriage (15) is fixed with the movable guide rail (11) in a bolt fixing mode; the carriage (15), the movable guide rail (11) and the synchronous slide block (9) move along the track of the fixed guide rail (10) under the driving of the synchronous belt pulley transmission mechanism;

the optical signal acquisition and conversion assembly comprises an optical box (16) arranged on the upper surface of the fixed guide rail (10) and an illumination intensity detection module (17) arranged on the top of the upper shell (1), the optical box (16) is connected with the fixed guide rail (10) through a fixed support arranged at the bottom of the optical box (16) by bolts, a convex lens and an optical filter are arranged in the optical box (16) from top to bottom, a laser emitter is also arranged on the front side wall of the optical box (16), the irradiation direction of the laser emitter is vertical to the fixed guide rail (10), the laser emitter irradiates the test strip on the carriage (15), the fluorescent substance on the test strip absorbs light and projects the filtered light into the shell through the optical filter and the convex lens in the optical box (16) in sequence, the illumination intensity detection module (17) is used for detecting the illumination intensity of the projection light in the shell.

2. The pet disease detector of claim 1, wherein the test strip is automatically aspirated and ejected, and the pet disease detector further comprises: the improved window-opening type sealing device is characterized in that a sealing support is arranged in the shell and comprises a sealing plate (18), an arc-shaped rotating frame (19) and a base (20), the sealing plate (18) is located in the window-opening (3), one end of the arc-shaped rotating frame (19) is fixed to the sealing plate (18), the other end of the arc-shaped rotating frame (19) is hinged to a rotating shaft arranged at the upper end of the base (20), the rotating shaft is connected with a rotating motor, and the sealing plate (18) rotates under the driving of the arc-shaped rotating frame (19).

3. The pet disease detector of claim 1, wherein the test strip is automatically aspirated and ejected, and the pet disease detector further comprises: the shell is also internally provided with a processor and an analog-to-digital conversion module, the illumination intensity detection module (17) is an illumination sensor, and the output end of the illumination sensor is connected with the input end of the processor through the analog-to-digital conversion module.

4. The pet disease detector of claim 1, wherein the test strip is automatically aspirated and ejected, and the pet disease detector further comprises: the tail end of the fixed guide rail (10) is also provided with a stop block (21).