CN216718465U - Automatic evaluation system for vaginal microecology - Google Patents

Abstract

The utility model discloses an automatic evaluation system for vaginal microecology, which comprises a shell, wherein a microscope body, a housing and a dyeing component are fixedly arranged in the shell, a mounting plate is fixedly arranged at the bottom of the housing, a peristaltic pump is fixedly arranged on the surface of the mounting plate, a slide belt and a transmission component for driving the slide belt are arranged in the housing, a dyeing slide box for holding a dyeing slide is arranged in the housing, a water outlet pipe is fixedly arranged on the top wall in the housing, an overturning component is arranged in a chute formed in the mounting plate corresponding to the slide belt, the water outlet pipe is matched with the slide belt to clean the dyeing slide box, and the overturning component is matched with the slide belt to discharge dyeing drainage in the dyeing slide box; realize the self-cleaning to dyeing slide glass box through outlet pipe and slide area cooperation, prevent to medical personnel's infection and reduce medical personnel's operation, the dyeing flowing back discharge in the upset subassembly now will dyeing slide glass box with slide area cooperation prevents the pollution of dyeing flowing back to the environment.

Description

Vaginal microecological automatic evaluation system

technical field

The utility model relates to the technical field of parasite detection, in particular to an automatic evaluation system for vaginal microecology.

Background technique

Vaginitis is a common gynecological disease. In the past, the pathogenesis of vaginitis was only caused by pathogenic bacteria. With the deepening of research, the fundamental pathogenesis of vaginitis has been gradually recognized, that is, all kinds of vaginitis have a common pathogenesis. The mechanism is the imbalance of vaginal flora, also known as the imbalance of vaginal microecology. Although there is a vaginal microecological evaluation system on the market, it has the following defects:

The morphological analysis of vaginal flora remains in manual staining, which is inefficient; in some automatic staining equipment, the discharge of staining solution is not specially collected, resulting in the risk of environmental pollution; Contaminated, there are certain limitations in the use of the device.

Therefore, it is necessary to provide an automatic vaginal microecological evaluation system to solve the above-mentioned technical problems.

Utility model content

The purpose of this utility model is to provide an automatic evaluation system for vaginal microecology, in order to solve the problem that the work efficiency is low in the above-mentioned background technology, and in some automatic dyeing equipment, the dyeing liquid discharge is not specially collected, resulting in the risk of environmental pollution; Stained slide boxes for slides need to be cleaned each time to prevent contamination and other issues.

In order to achieve the above-mentioned purpose, the solution of the present utility model to the above-mentioned technical problems is as follows: an automatic vaginal microecological evaluation system, including an outer shell, the interior of the outer shell is fixedly installed with a microscope body, a cover shell and a dyeing assembly, and the bottom of the cover shell is fixedly installed with a an installation plate, a peristaltic pump is fixedly installed on the surface of the installation plate, a glass slide tape and a transmission component for driving the glass slide tape are arranged inside the cover, and a stained slide box for holding the stained glass slides is arranged in the cover. The stained glass slide box is attached to the slide tape, the inner top wall of the cover is fixedly installed with a water outlet pipe, and the chute corresponding to the glass slide tape is provided with a flipping component on the mounting plate. After cleaning, the inversion component cooperates with the slide tape to discharge the stained liquid in the stained slide box and collect it through the chute.

As a further solution of the present invention, a computer is fixedly installed inside the casing, a touch screen and a display screen are fixedly installed on the surface of the casing, and the microscope body, the touch screen and the display screen are all electrically connected to the computer.

As a further solution of the present invention, the transmission assembly includes a motor, a transmission shaft and a transmission wheel, the motor is fixedly installed on the side of the mounting plate close to the microscope body or away from the microscope body, and the transmission shaft is rotatably arranged on the mounting plate close to the microscope body and away from the microscope body. One side of the microscope body, and one of the transmission shafts is fixedly connected to the output end of the motor. The outer side of the transmission shaft is sleeved with a transmission wheel, and the glass strip is sleeved with the outer side of the transmission wheel. Opposite sides of the tape form a combination slot for accommodating stained slide cassettes.

As a further solution of the present invention, the bottom of the mounting plate is provided with a sliding groove corresponding to the sliding groove, the groove depth of the sliding groove is smaller than the groove depth of the sliding groove, and the glass strip is slidably arranged on the top of the sliding groove and in the sliding groove, The front side of the mounting plate is provided with a liquid collecting trough which communicates with the chute.

As a further solution of the present invention, the dyeing assembly includes a dyeing tube fixedly installed on the inner top wall of the housing, and the dyeing tube is arranged above the slide tape.

As a further solution of the present invention, the turning assembly includes a blocking plate, a sliding rod, a fixed seat, a sliding seat, an L-shaped frame, a support rod, a rotating rod and an electric telescopic rod; the blocking board is fixedly installed on the bottom wall of the chute , the blocking plate is arranged at both ends of the chute and is attached to the wall of the chute, and the side of the blocking plate away from the bottom wall of the chute is attached to the side wall of the glass strip extending into the chute, and the two blocking plates are fixed between A sliding rod is connected, the fixed seat is fixedly installed in the bottom wall of the chute, and the height of the fixed seat is lower than the blocking plate, the top of the fixed seat is rotatably connected with a rotating rod, and the side of the fixed seat close to the dyeing tube is slidably provided with a sliding seat, Both the fixed seat and the sliding seat are provided with a sliding rod, the top of the sliding seat is rotatably connected with a support rod, and the end of the support rod far away from the sliding seat and the end of the rotating rod away from the fixed seat are connected together with an L-shaped frame through a hinge, and the L-shaped frame is close to the One end of the fixed seat is arranged at the bottom of the combination slot, and one end of the L-shaped frame away from the fixed seat is perpendicular to the combination slot. The side of the baffle plate away from the fixed seat is fixedly connected with an electric telescopic rod, and the end of the electric telescopic rod away from the baffle plate is fixedly connected to the The sliding seat is away from the side end face of the fixed seat.

The vaginal microecological automatic evaluation system of the utility model automatically scans and analyzes the stained glass slides through the microscope body, stains the to-be-measured glass slides through the staining component, and realizes the dyeing glass slide box through the cooperation of the water outlet pipe and the glass slide belt. Automatic cleaning to prevent the infection of medical staff and reduce the operation of medical staff, the flip component and the slide tape cooperate to discharge the dyeing liquid in the stained slide box, and collect it through the chute to prevent the dyeing liquid from affecting the environment. Pollution.

Description of drawings

Below in conjunction with accompanying drawing and embodiment, the present invention is further described:

Fig. 1 is the overall structure schematic diagram of vaginal microecological automatic evaluation system proposed by the utility model;

Fig. 2 is the overall structure front view of the vaginal microecological automatic evaluation system proposed by the utility model;

3 is a schematic diagram of the structure between the mounting plate and the slide tape of the vaginal microecological automatic evaluation system proposed by the utility model;

4 is a schematic diagram of the structure between the slide tape and the flipping component of the vaginal microecological automatic evaluation system proposed by the present invention;

FIG. 5 is a schematic structural diagram of the flipping component of the vaginal microecological automatic evaluation system proposed by the present invention.

In the accompanying drawings, the list of components represented by each number is as follows:

11. Housing; 12. Microscope body; 13. Cover; 14. Mounting plate; 15. Peristaltic pump; 16. Slide tape; 17. Outlet pipe; 18. Stained slide box; 21. Computer; 22. Touch screen; 23, display screen; 31, motor; 32, transmission shaft; 33, transmission wheel; 41, dyeing tube; 61, baffle plate; 62, sliding rod; 63, fixed seat; 64, sliding seat; 65, L-shaped frame; 66, strut; 67, rotary rod; 68, electric telescopic rod.

Detailed ways

The vaginal microecological automatic evaluation system includes a housing 11, the interior of the housing 11 is fixedly mounted with a microscope body 12, a cover 13 and a dyeing assembly, a mounting plate 14 is fixedly mounted on the bottom of the cover 13, and the surface of the mounting plate 14 is fixedly mounted There is a peristaltic pump 15, a glass slide tape 16 and a transmission assembly for driving the glass slide tape 16 are arranged inside the housing 13, and a stained slide box 18 for holding the stained glass slides is arranged in the housing 13. The box 18 is attached to the glass strip 16 , the inner top wall of the housing 13 is fixedly installed with a water outlet pipe 17 , the mounting plate 14 corresponding to the slide groove of the glass strip 16 is provided with a flip component, and the water outlet pipe 17 is matched with the glass strip 16 . The cleaning of the stained slide box 18 is realized, and the inversion component cooperates with the slide tape 16 to discharge the dyeing liquid in the stained slide box 18 and collect it through the chute.

During the specific work, the stained glass slides are automatically scanned and analyzed by the microscope body 12, and the test glass slides are stained by the dyeing component. 16 is slidably arranged above the mounting plate 14, and the glass to be tested is taken out from the stained slide box 18 after being dyed. , the water outlet pipe 17 can be communicated with the water source through a water pump, etc., and the stained glass slide box 18 is washed and cleaned by the water sprayed from the water outlet pipe 17. After the water flow fills the stained glass slide box 18, the cleaned stained glass slide box 18 is in the flip assembly. Under the action of the dyeing slide box 18, the dyeing liquid is discharged, and it flows into the chute for collection following the water flow.

As a further solution of the present invention, a computer 21 is fixedly installed inside the casing 11 , a touch screen 22 and a display screen 23 are fixedly installed on the surface of the casing 11 , and the microscope body 12 , the touch screen 22 and the display screen 23 are all connected with the The computer 21 is electrically connected.

In production and life, the microscope body 12 , the computer 21 , the touch screen 22 and the display screen 23 are existing mature technologies, which will not be described in detail here.

As a further solution of the present invention, the transmission assembly includes a motor 31, a transmission shaft 32 and a transmission wheel 33. The motor 31 is fixedly installed on the side of the mounting plate 14 close to the microscope body 12 or away from the microscope body 12, and the transmission shaft 32 is rotated to set On the side of the mounting plate 14 close to the microscope body 12 and away from the microscope body 12, and one of the transmission shafts 32 is fixedly connected to the output end of the motor 31, the transmission shaft 32 is sleeved with a transmission wheel 33, and the glass slide 16 is sleeved with the On the outside of the transmission wheel 33 , there are two glass slide belts 16 , and the opposite sides of the two glass slide belts 16 form a combination groove for accommodating the stained glass slide box 18 .

During specific operation, the motor 31 drives the transmission wheel 33 to rotate through the transmission shaft 32 , and then drives the slide tape 16 to form a conveyor belt, and then makes the stained slide cassette 18 slide along with the slide tape 16 through the combination slot for accommodating the stained slide cassette 18 .

As a further solution of the present invention, the bottom of the mounting plate 14 is provided with a sliding groove corresponding to the sliding groove, the groove depth of the sliding groove is smaller than that of the sliding groove, and the glass strip 16 is slidably arranged on the top of the sliding groove and the sliding groove Inside, the front side of the mounting plate 14 is provided with a liquid collecting groove communicating with the chute.

During specific work, the slide grooves and the slide grooves are used to limit the position of the glass slides 16, so that the slides 16 can only slide along the slide grooves and the slide grooves, so that the stained slide box 18 can only slide in the slide grooves. The dyeing drainage in the tank is discharged through the sump, and then collected to prevent pollution.

As a further solution of the present invention, the dyeing assembly includes a dyeing tube 41 fixedly installed on the inner top wall of the housing 13 , and the dyeing tube 41 is arranged above the slide tape 16 .

During specific operation, the peristaltic pump 15 is communicated with the staining tube 41, so that when the staining slide box 18 slides to the bottom of the staining tube 41 following the slide tape 16, the slide to be tested is stained.

As a further solution of the present invention, the turning assembly includes a blocking plate 61, a sliding rod 62, a fixed seat 63, a sliding seat 64, an L-shaped frame 65, a support rod 66, a rotating rod 67 and an electric telescopic rod 68; the blocking The plate 61 is fixedly installed on the bottom wall of the chute, the blocking plate 61 is arranged at both ends of the chute and is attached to the wall of the chute, and the side of the blocking plate 61 away from the bottom wall of the chute and the glass strip 16 extending into the chute. The side walls are close to each other, a sliding rod 62 is fixedly connected between the two blocking plates 61 , the fixed seat 63 is fixedly installed in the bottom wall of the chute, and the height of the fixed seat 63 is lower than that of the blocking plate 61 , and the top of the fixed seat 63 is rotatably connected There is a rotating rod 67, a sliding seat 64 is slidably provided on the side of the fixed seat 63 close to the dyeing tube 41, the fixed seat 63 and the sliding seat 64 are both provided with a sliding rod 62, and the top of the sliding seat 64 is rotatably connected with a support rod 66, which supports The end of the rod 66 away from the sliding seat 64 and the end of the rotating rod 67 away from the fixed seat 63 are jointly connected with an L-shaped frame 65 through a hinge. One end of the seat 63 is perpendicular to the combination groove, and the side of the baffle plate 61 away from the fixed seat 63 is fixedly connected with an electric telescopic rod 68 , and one end of the electric telescopic rod 68 away from the baffle plate 61 is fixedly connected to the side of the sliding seat 64 away from the fixed seat 63 end face.

During specific work, when the cleaned stained slide box 18 is attached to the L-shaped frame 65, the electric telescopic rod 68 drives the sliding seat 64 to move in the opposite direction of the sliding direction of the slide tape 16, so that the sliding seat 64 moves along the slide tape 16 Swipe in the reverse direction. Then, the support rod 66 is driven to rotate, and then the L-shaped frame 65 is driven to rotate 90 degrees under the action of the fixed seat 63, so that the stained slide box 18 is turned over, and the dyeing liquid in the stained slide box 18 is poured out. The liquid flows into the chute and collects through the sump.

Claims (6)

1. vaginal microecology automatic evaluation system, comprises shell, it is characterized in that: the interior of described shell is fixedly installed with microscope body, cover and dyeing assembly, the bottom of cover is fixedly installed with mounting plate, and the surface of the mounting plate is fixedly installed with The peristaltic pump is provided with a glass slide tape and a transmission component for driving the slide tape to slide inside the cover, and a stained slide box for holding the stained glass slides is arranged in the cover. The inner top wall of the cover is fixedly installed with a water outlet pipe, and the chute opened on the mounting plate corresponding to the glass slide is provided with a flipping component. 2. The vaginal microecological automatic evaluation system according to claim 1 is characterized in that: a computer is fixedly installed in the interior of the casing, a touch screen and a display screen are fixedly installed on the surface of the casing, and the microscope body, the touch screen and the The display screens are all electrically connected to the computer. 3. vaginal microecology automatic evaluation system according to claim 2 is characterized in that: described transmission assembly comprises motor, transmission shaft and transmission wheel, and the motor is fixedly installed on the side of the mounting plate close to the microscope body or away from the microscope body, The transmission shaft is rotatably arranged on the side of the mounting plate close to the microscope body and away from the microscope body, and one of the transmission shafts is fixedly connected to the output end of the motor. There are two glass slide strips, and the opposite sides of the glass slide strips on both sides form a combination groove for accommodating the stained slide box. 4. The vaginal microecological automatic evaluation system according to claim 3, characterized in that: the bottom of the mounting plate is provided with a sliding groove corresponding to the sliding groove, the groove depth of the sliding groove is less than the groove depth of the sliding groove, and the glass slide is It is slidably arranged on the top of the chute and in the sliding slot, and the front side of the mounting plate is provided with a liquid collecting trough which communicates with the chute. 5 . The vaginal microecology automatic evaluation system according to claim 4 , wherein the dyeing assembly comprises a dyeing tube fixedly installed on the inner top wall of the housing, and the dyeing tube is arranged above the slide tape. 6 . 6 . The vaginal microecological automatic evaluation system according to claim 5 , wherein the inversion component comprises a blocking plate, a sliding rod, a fixed seat, a sliding seat, an L-shaped frame, a support rod, a rotating rod and an electric telescopic rod. 7 . ; The blocking plate is fixedly installed on the bottom wall of the chute, the blocking plate is arranged at both ends of the chute and is attached to the wall of the chute, and the side of the blocking plate far away from the bottom wall of the chute and the glass strip extending into the chute The side walls are attached to each other, a sliding rod is fixedly connected between the two blocking plates, the fixed seat is fixedly installed in the bottom wall of the chute, and the height of the fixed seat is lower than that of the blocking plate, the top of the fixed seat is rotatably connected with a rotating rod, and the fixed seat A sliding seat is slidably arranged on the side close to the dyeing tube, the fixed seat and the sliding seat are both provided with sliding rods, the top of the sliding seat is rotatably connected with a support rod, and the end of the support rod away from the sliding seat and the end of the rotating rod away from the fixed seat are common. An L-shaped frame is connected by a hinge, one end of the L-shaped frame close to the fixed seat is arranged at the bottom of the combination groove, and one end of the L-shaped frame away from the fixed seat is perpendicular to the combination groove, and the side of the baffle plate away from the fixed seat is fixedly connected with an electric telescopic rod. And one end of the electric telescopic rod away from the blocking plate is fixedly connected to the side end surface of the sliding seat away from the fixed seat.

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