阅读说明：本技术 一种微生物快速检测装置 (Quick detection device of microorganism ) 是由 曾燕丽 于 2021-07-20 设计创作，主要内容包括：本发明公开了一种微生物快速检测装置,其结构包括检测装置、电源开关、上盖板,工作人员检测时,将废料样品进行分装,再存储至检测装置的样品存储盒内,待检测仪机构检测时,先在检测板做上记号,将检测板放置于载物台上固定,将消杀机构的挡板关上,通过镜筒调整机构进行调整工作台机构,经目镜透过物镜观察废料的微生物数量,在检测完毕时,打开电源开关,运行消杀机构,供给回收装置内的供给泵会向上水管进行输送消杀液,经喷射器进行喷射消杀,再由供给回收装置内部的回收泵进行回收存储,待喷射完成,风扇机构和紫外线灯同时进行风干和紫外线杀菌作业,使消杀机构内部的微生物进行消灭,始终保持干燥无菌,而不影响下次作业。(The invention discloses a microorganism rapid detection device, which comprises a detection device, a power switch and an upper cover plate, wherein when a worker detects, a waste sample is separately packaged and stored in a sample storage box of the detection device, when a mechanism of a detector is detected, a mark is firstly made on a detection plate, the detection plate is placed on an objective table to be fixed, a baffle plate of a sterilization mechanism is closed, the worktable mechanism is adjusted through a lens barrel adjusting mechanism, the number of microorganisms of the waste is observed through an eyepiece lens and an objective lens, when the detection is finished, the power switch is turned on, the sterilization mechanism is operated, a supply pump in a supply and recovery device can convey sterilization liquid to an upper water pipe, the sterilization liquid is sprayed and sterilized through an injector, the recovery pump in the supply and recovery device is used for recovery and storage, when the spraying is finished, the fan mechanism and an ultraviolet lamp simultaneously perform air drying and ultraviolet sterilization operations, the microorganisms in the sterilizing mechanism are killed, and the sterilizing mechanism is always kept dry and sterile without influencing the next operation.)

1. The utility model provides a quick detection device of microorganism, its structure includes detection device (1), switch (2), upper cover plate (3), detection device (1) front end upper portion is equipped with switch (2), detection device (1) upper end and upper cover plate (3) lower extreme bolted connection, its characterized in that:

detection device (1) comprises detector mechanism (11), killing mechanism (12), supplies for recovery unit (13), sample storage box (14), detector mechanism (11) and killing mechanism (12) clearance fit, killing mechanism (12) are located and are supplied for recovery unit (13) right side, sample storage box (14) and killing mechanism (12) left side upper end mechanical connection.

2. The rapid microorganism detection device according to claim 1, wherein: the detector mechanism (11) is composed of an ocular lens (111), a lens barrel adjusting mechanism (112) and an objective lens (113), the bottom end of the ocular lens (111) is mechanically connected with the inner part of the upper end of the lens barrel adjusting mechanism (112), the upper end of the objective lens (113) is mechanically connected with the lower end of the lens barrel adjusting mechanism (112), and the lens barrel adjusting mechanism (112) is in clearance fit with a killing mechanism (12).

3. The rapid microorganism detection device according to claim 1, wherein: the sterilizing mechanism (12) is composed of a worktable mechanism (21), an ultraviolet lamp (22), a conveying pipe mechanism (23) and a fan mechanism (24), the worktable mechanism (21) is connected with the conveying pipe mechanism (23) in a clamping mode, the ultraviolet lamp (22) is arranged at the upper end inside the conveying pipe mechanism (23), the fan mechanism (24) is arranged on the left side of the worktable mechanism (21) and in clearance fit with the conveying pipe mechanism, and a pipeline of the conveying pipe mechanism (23) is connected with the pump body inside the supply recovery device (13) in a clamping mode.

4. The rapid microorganism detection device according to claim 3, wherein: the working table mechanism (21) is composed of a mirror base (21a), a light chopper (21b), an objective table (21c), a detection plate (21d) and balls (21e), the middle of the upper end of the mirror base (21a) is mechanically connected with the bottom of the light chopper (21b), the upper end of the objective table (21c) is connected with the bottom of the detection plate (21d) in a clamping mode, the bottom end of the objective table (21c) is connected with the balls (21e) in a surface sliding mode, and the mirror base (21a) is connected with a conveying pipe mechanism (23) in a clamping mode.

5. The rapid microorganism detection device according to claim 3, wherein: the conveying pipe mechanism (23) is composed of a lower water pipe (23a), an upper water pipe (23b) and an ejector (23c), the middle part of the lower water pipe (23a) is connected with the middle part of the upper water pipe (23b) through a buckle, the ejector (23c) is arranged at the bottom of the upper water pipe (23b), and an ultraviolet lamp (22) is arranged at the bottom of the upper water pipe (23 b).

6. The rapid microorganism detection device according to claim 3, wherein: fan mechanism (24) comprise fan (24a), motor (24b), bracing piece (24c), rolling ware (24d), fan (24a) back middle part is equipped with motor (24b), motor (24b) surface and bracing piece (24c) bottom welded connection, rolling ware (24d) are connected with fan (24a) block, inside conveyer pipe mechanism (23) upper end was located in rolling ware (24 d).

Technical Field

The invention relates to the technical field of biological detection, in particular to a microorganism rapid detection device.

Background

Microorganisms including bacteria, viruses, fungi, some small protozoa and the like are a large group of organisms, individuals are tiny, the organisms are closely related to human life, the organisms widely relate to a plurality of fields such as health, medicine, industry and agriculture, environmental protection and the like, and the research on the microorganisms plays a positive role in the daily life of people.

Sewage detection mainly refers to the process that detects production and the process of discharging waste water and sewage among the life process, and it has a lot of processes to detect waste water and sewage in-process, and sewage microorganism quantity detects also one of them, but current detection device, can not help quick detection device to carry out microorganism washing calibration after the waste material detects, can lead to operational environment to be polluted by the waste material, and then is unfavorable for subsequent detection operation, influences testing result and detection speed.

Disclosure of Invention

The technical scheme adopted by the invention for realizing the technical purpose is as follows: the utility model provides a quick detection device of microorganism, its structure includes detection device, switch, upper cover plate, detection device front end upper portion is equipped with switch, detection device upper end and upper cover plate lower extreme bolted connection, detection device comprises detector mechanism, the mechanism that kills, supplies with recovery unit, sample storage box, detector mechanism and the mechanism clearance fit that kills, the mechanism that kills is located and is supplied with the recovery unit right side, sample storage box and the mechanism left side upper end mechanical connection that kills.

As a further improvement of the invention, the detector mechanism consists of an ocular lens, a lens cone adjusting mechanism and an objective lens, wherein the bottom end of the ocular lens is mechanically connected with the inside of the upper end of the lens cone adjusting mechanism, the upper end of the objective lens is mechanically connected with the lower end of the lens cone adjusting mechanism, the lens cone adjusting mechanism is in clearance fit with the killing mechanism, and the side surface of the lens cone adjusting mechanism is provided with a large spiral adjusting wheel and a small spiral adjusting wheel.

As a further improvement of the invention, the sterilizing mechanism consists of a worktable mechanism, an ultraviolet lamp, a conveying pipe mechanism and a fan mechanism, wherein the worktable mechanism is connected with the conveying pipe mechanism in a clamping manner, the ultraviolet lamp is arranged at the upper end inside the conveying pipe mechanism, the fan mechanism is arranged at the left side of the worktable mechanism and is in clearance fit with the conveying pipe mechanism, the pipeline of the conveying pipe mechanism is connected with the pump body inside the supply and recovery device in a clamping manner, and the two ultraviolet lamps are arranged and are arranged at the left side and the right side of the upper end inside the sterilizing mechanism in a long strip shape.

As a further improvement of the invention, the worktable mechanism consists of a microscope base, a light chopper, an objective table, a detection plate and balls, wherein the middle part of the upper end of the microscope base is mechanically connected with the bottom of the light chopper, the upper end of the objective table is connected with the bottom of the detection plate in a clamping manner, the bottom end of the objective table is connected with the surfaces of the balls in a sliding manner, the microscope base is connected with the conveying pipe mechanism in a clamping manner, and three balls are arranged and are in a right triangular opposite shape.

As a further improvement of the invention, the conveying pipe mechanism consists of a lower water pipe, an upper water pipe and injectors, the middle part of the lower water pipe is connected with the middle part of the upper water pipe through a buckle, the bottom of the upper water pipe is arranged on the injectors, the bottom of the upper water pipe is provided with ultraviolet lamps, and the four injectors are respectively arranged at four corners at the upper end in the sterilizing mechanism.

As a further improvement of the invention, the fan mechanism comprises a fan, a motor, a supporting rod and a winder, wherein the motor is arranged in the middle of the back of the fan, the surface of the motor is welded and connected with the bottom end of the supporting rod, the winder is clamped and connected with the fan, the winder is arranged inside the upper end of the conveying pipe mechanism, a shielding curtain is arranged in the middle of the winder, and the shielding curtain is pulled open during killing operation.

Advantageous effects

The invention relates to a microorganism rapid detection device, when a worker detects, a waste sample is subpackaged and stored in a sample storage box of the detection device, when a mechanism of an instrument to be detected detects, firstly a mark is made on a detection plate, then a dropper is used for extracting waste, the waste is dripped on the detection plate, the detection plate is placed on an objective table for fixing, a baffle plate of a killing mechanism is closed, the worktable mechanism is adjusted through a lens barrel adjusting mechanism, the objective table on a lens base slides on a ball to an optimal observation visual angle, a light chopper can assist in shading, the number of microorganisms of the waste is observed through an objective lens through an eyepiece, when the detection is finished, a power switch is turned on, the killing mechanism is operated, a killing liquid supplied into a recovery device is conveyed through a conveying pipe mechanism for killing, when a fan mechanism and an ultraviolet lamp are sprayed to simultaneously carry out air drying and ultraviolet sterilization operation, so that the microorganisms in the killing mechanism are killed, without affecting the next operation.

Compared with the prior art, the invention has the following beneficial effects:

when the mechanism that disappears kills disappears, the feed pump in the feed recovery unit can carry the liquid that disappears to the upper hose, spray through the sprayer and disappear, wait to spray and accomplish, pull open the shielding curtain of winder, the motor transmits under the fixed of bracing piece, the motor drives the fan and carries out the inside air-dry processing of the mechanism that disappears, the liquid that disappears and kills of the inside of mechanism can flow out through the inverted triangle guiding gutter of downcomer, retrieve the storage by the recovery pump of feed recovery unit inside again, in order to guarantee to disappear and kill the inside ability of mechanism after the disinfection, remain dry aseptic throughout.

Drawings

FIG. 1 is a schematic structural diagram of a rapid microorganism detection device according to the present invention.

FIG. 2 is a schematic structural diagram of a detecting device according to the present invention.

FIG. 3 is a schematic view of the structure of the detector mechanism of the present invention.

Fig. 4 is a schematic structural view of the killing mechanism of the present invention.

FIG. 5 is a schematic structural diagram of a worktable mechanism of the present invention.

Fig. 6 is a schematic structural diagram of a conveying pipe mechanism of the invention.

FIG. 7 is a schematic structural diagram of a fan mechanism according to the present invention.

In the figure: the device comprises a detection device-1, a power switch-2, an upper cover plate-3, a detector mechanism-11, a sterilizing mechanism-12, a supply and recovery device-13, a sample storage box-14, an ocular lens-111, a lens barrel adjusting mechanism-112, an objective lens-113, a worktable mechanism-21, an ultraviolet lamp-22, a conveying pipe mechanism-23, a fan mechanism-24, a microscope base-21 a, a light chopper-21 b, an objective table-21 c, a detection plate-21 d, a ball-21 e, a sewer pipe-23 a, a water feeding pipe-23 b, an ejector-23 c, a fan-24 a, a motor-24 b, a support rod-24 c and a winder-24 d.

Detailed Description

In order to make the technical means, the original characteristics, the achieved purposes and the effects of the invention easy to understand, the following description and the accompanying drawings further illustrate the preferred embodiments of the invention.

Example 1

As shown in figures 1 to 5:

the invention provides a microorganism rapid detection device which structurally comprises a detection device 1, a power switch 2 and an upper cover plate 3, wherein the power switch 2 is arranged at the upper part of the front end of the detection device 1, the upper end of the detection device 1 is in bolt connection with the lower end of the upper cover plate 3, the detection device 1 consists of a detector mechanism 11, a killing mechanism 12, a supply and recovery device 13 and a sample storage box 14, the detector mechanism 11 is in clearance fit with the killing mechanism 12, the killing mechanism 12 is arranged on the right side of the supply and recovery device 13, and the sample storage box 14 is mechanically connected with the upper end of the left side of the killing mechanism 12.

The detector mechanism 11 is composed of an ocular lens 111, a lens barrel adjusting mechanism 112 and an objective lens 113, the bottom end of the ocular lens 111 is mechanically connected with the inner part of the upper end of the lens barrel adjusting mechanism 112, the upper end of the objective lens 113 is mechanically connected with the lower end of the lens barrel adjusting mechanism 112, the lens barrel adjusting mechanism 112 is in clearance fit with the killing mechanism 12, and two spiral adjusting wheels of large and small sizes are arranged on the side surface of the lens barrel adjusting mechanism 112 and used for adjusting the movement of a microscope stage in the vertical direction.

Wherein, the killing mechanism 12 comprises worktable mechanism 21, ultraviolet lamp 22, conveyer pipe mechanism 23, fan mechanism 24, worktable mechanism 21 is connected with conveyer pipe mechanism 23 block, ultraviolet lamp 22 locates the inside upper end of conveyer pipe mechanism 23, fan mechanism 24 locates worktable mechanism 21 left side and clearance fit between, conveyer pipe mechanism 23 pipeline is connected with the inside pump body block of supply recovery unit 13, ultraviolet lamp 22 is equipped with two, is rectangular form and installs in the inside upper end left and right sides of killing mechanism 12 for the supplementary sterilization of killing in-process.

The worktable mechanism 21 comprises a mirror base 21a, a light chopper 21b, an objective table 21c, a detection plate 21d and balls 21e, wherein the middle part of the upper end of the mirror base 21a is mechanically connected with the bottom of the light chopper 21b, the upper end of the objective table 21c is connected with the bottom of the detection plate 21d in a clamping manner, the bottom end of the objective table 21c is connected with the surfaces of the balls 21e in a sliding manner, the mirror base 21a is connected with a conveying pipe mechanism 23 in a clamping manner, three balls 21e are arranged and are in a right triangular opposite vertical shape, and the auxiliary objective table 21c rotates.

The specific use mode and function of the embodiment are as follows:

in the invention, when a worker detects, the waste sample is subpackaged and stored in the sample storage box 14 of the detection device 1, when the mechanism 11 of the instrument to be detected is detected, firstly, a mark is made on the detection plate 21d, then, the dropper is used for extracting the waste material and dripping the waste material on the detection plate 21d, the detection plate 21d is placed on the objective table 21c for fixing, the baffle of the sterilizing mechanism 12 is closed, the objective table mechanism 21 is adjusted through the lens cone adjusting mechanism 112, the objective table 21c on the lens base 21a slides on the ball 21e to the optimal observation visual angle, the light chopper 21b can assist in shading, the microbial count of the waste material is observed through the objective lens 113 through the eyepiece lens 111, when the detection is finished, the power switch 2 is opened, the sterilizing mechanism 12 is operated, the sterilizing liquid supplied to the recovery device 13 is conveyed and sterilized through the conveying pipe mechanism 23, and the fan mechanism 24 and the ultraviolet lamp 22 are simultaneously used for air drying and ultraviolet sterilization after the injection is finished, the microorganisms in the sterilizing mechanism 12 are killed without affecting the next operation.

Example 2

As shown in fig. 6 to 7:

the conveying pipe mechanism 23 comprises a lower pipe 23a, an upper pipe 23b and ejectors 23c, the middle of the lower pipe 23a is connected with the middle of the upper pipe 23b through a buckle, the bottom of the upper pipe 23b is arranged on the ejectors 23c, the bottom of the upper pipe 23b is provided with ultraviolet lamps 22, the number of the ejectors 23c is four, the ejectors are respectively arranged on four corners at the upper end inside the sterilizing mechanism 12, and during sterilizing operation, full-coverage type spraying sterilization can be carried out.

Wherein, fan mechanism 24 comprises fan 24a, motor 24b, bracing piece 24c, rolling ware 24d, fan 24a back middle part is equipped with motor 24b, motor 24b surface and bracing piece 24c bottom welded connection, rolling ware 24d and fan 24a block are connected, rolling ware 24d is located inside 23 upper ends of conveyer pipe mechanisms, rolling ware 24d middle part is equipped with a shielding curtain, and when killing the operation, pull open shielding curtain, let fan 24a can help killing the inside quick air-dry of mechanism 12.

The specific use mode and function of the embodiment are as follows:

in the invention, when the sterilizing mechanism 12 is used for sterilizing, a supply pump in the supply recovery device 13 can convey sterilizing liquid to the water feeding pipe 23b, the sterilizing liquid is sprayed by the sprayer 23c for sterilizing, after the spraying is finished, the shielding curtain of the winder 24d is pulled open, the motor 24b is driven by the fixing of the supporting rod 24c, the motor 24b drives the fan 24a to carry out air drying treatment on the inside of the sterilizing mechanism 12, the sterilizing liquid in the sterilizing mechanism 12 can flow out through the inverted triangular diversion trench of the water discharging pipe 23a, and then the recovering pump in the supply recovery device 13 is used for recovering and storing, so that the inside of the sterilizing mechanism 12 can be kept dry and sterile all the time after the sterilizing.

While there have been shown and described what are at present considered the fundamental principles of the invention, the essential features and advantages thereof, it will be understood by those skilled in the art that the present invention is not limited by the embodiments described above, which are merely illustrative of the principles of the invention, but rather, is capable of numerous changes and modifications in various forms without departing from the spirit or essential characteristics thereof, and it is intended that the invention be limited not by the foregoing descriptions, but rather by the appended claims and their equivalents.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.