CN214844034U - Incubation module assembly detection device of microbial cultivation detector - Google Patents

Abstract

The utility model discloses a microbial cultivation detector's module assembly detection device that hatches, include: the medical power supply, the heater, the communication gateway module, the upper computer, the signal adapter plate and the data acquisition control module; the medical power supply is connected with the heater, the upper computer and the signal adapter plate respectively, the upper computer is electrically connected with the heater and the communication gateway module respectively, the communication gateway module is electrically connected with the signal adapter plate, the signal adapter plate is electrically connected with the data acquisition control module, and the data acquisition control module is connected with the incubation module assembly. The utility model discloses in, this detection device adopts audio-visual test interface, can clearly and clearly observe test data to can hatch the assembly module to the multiunit simultaneously and carry out the synchronous test, the effectual detection efficiency who improves detection device, the operating condition that can the efficient imitate microorganism and cultivate the detector carries out accurate test, has ensured the authenticity and the reliability of detection data.

Description

Incubation module assembly detection device of microbial cultivation detector

Technical Field

The utility model relates to a detection technical field is hatched to the microorganism, especially relates to a module assembly detection device is hatched to microbial cultivation detector.

Background

The microbial cultivation detector incubation module assembly is the most critical part in the microbial cultivation detector, and is composed of an incubator (20 holes), 20 light-emitting sources, light, colors, an electric conversion plate, 10 light-gathering hoods, a light-transmitting plate, 20 light-reflecting plates, 20 culture bottle clamps and the like, and the main task of completion is as follows: the state information of the microorganisms in the culture bottle is collected, the state information is converted into a standard electric signal which can be received by a computer monitoring system through a light sensor and a color sensor, and a control command from the computer monitoring system is executed.

SUMMERY OF THE UTILITY MODEL

The utility model aims at solving the shortcoming that exists among the prior art, and propose can detect a plurality of module assemblies of hatching simultaneously by quick and efficient, improve the module assembly detection device that hatches of a microorganism cultivation detector of detection data authenticity and reliability.

In order to achieve the above purpose, the utility model adopts the following technical scheme: a microbial cultivation detector incubation module assembly detection device, comprising: the medical power supply, the heater, the communication gateway module, the upper computer, the signal adapter plate and the data acquisition control module;

the medical power supply is respectively connected with the heater, the upper computer and the signal adapter plate;

the upper computer is electrically connected with the heater and the communication gateway module respectively, and the communication gateway module is electrically connected with the signal adapter plate;

the signal adapter plate is electrically connected with the data acquisition control module;

the data acquisition control module is connected with the incubation module assembly.

As a further description of the above technical solution:

the data acquisition control module is consistent with the incubation module assemblies in number, and the data acquisition control module corresponds to the incubation module assemblies one to one.

As a further description of the above technical solution:

the incubation module assembly comprises an assembly base, wherein the assembly base is provided with 20 culture bottle hole sites, 20 culture bottle hole site indicator lamps and a 9001-18481C interface terminal.

As a further description of the above technical solution:

and a green calibration rod is embedded in the hole of the culture bottle of the assembly base.

As a further description of the above technical solution:

the data acquisition control module comprises a module shell, wherein a 9001-18481C interface terminal and an IDC-10 interface terminal which are matched with the incubation module assembly are arranged on the module shell.

As a further description of the above technical solution:

the heater comprises a heater shell, wherein a temperature sensor interface terminal, a communication port connected with an upper computer and a power switch are arranged on the heater shell.

The utility model provides a microbial cultivation detector's module assembly detection device that hatches. The method has the following beneficial effects:

the detection device adopts an intuitive test interface, can clearly and clearly observe test data, can synchronously test a plurality of groups of incubation assembly modules, effectively improves the detection efficiency of the detection device, can efficiently simulate the working state of a microorganism culture detector to carry out accurate test, and ensures the authenticity and reliability of the detection data.

Drawings

Fig. 1 is a schematic structural view of an incubation module assembly detection device of a microbial cultivation detector provided by the utility model.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments.

As shown in fig. 1, an incubation module assembly detection device of a microbial culture detector comprises: the medical power supply, the heater, the communication gateway module, the upper computer, the signal adapter plate and the data acquisition control module;

the medical power supply is respectively connected with the heater, the upper computer and the signal adapter plate;

the upper computer is electrically connected with the heater and the communication gateway module respectively, and the communication gateway module is electrically connected with the signal adapter plate;

the signal adapter plate is electrically connected with the data acquisition control module;

the data acquisition control module is connected with the incubation module assembly.

The detection device adopts an intuitive test interface, can clearly and clearly observe test data, can synchronously test a plurality of groups of incubation assembly modules, effectively improves the detection efficiency of the detection device, can efficiently simulate the working state of a microorganism culture detector to carry out accurate test, and ensures the authenticity and reliability of the detection data.

The number of the data acquisition control modules is consistent with that of the incubation module assemblies, the number of the data acquisition control modules is three, and the data acquisition control modules correspond to the incubation module assemblies one to one.

The incubation module assembly comprises an assembly base, wherein the assembly base is provided with 20 culture bottle hole sites, 20 culture bottle hole site indicator lamps and a 9001-18481C interface terminal.

A green calibration rod is embedded in the hole of the culture bottle of the assembly base.

The data acquisition control module comprises a module shell, wherein a 9001-18481C interface terminal and an IDC-10 interface terminal which are matched with the incubation module assembly are arranged on the module shell.

The heater comprises a heater shell, wherein a temperature sensor interface terminal, a communication port connected with an upper computer and a power switch are arranged on the heater shell.

Connecting a medical power supply input end with a 220V/6A power line, connecting the power line with a wall socket, and connecting a medical power supply DY interface terminal with a power plug of an upper computer; a DY interface terminal of a medical power supply is connected with a signal adapter plate, an RS232DB9 communication interface terminal of an ANGATEWAY V2.0.0 communication gateway module is connected with a COM1 port of an upper computer, a CAN JP5 communication interface terminal of a ANGATEWAY V2.0.0 communication gateway module is connected with a J2 interface terminal of the signal adapter plate, and a heater communication port is connected with a COM2 port of the upper computer; the heater temperature sensor interface terminal is connected with a temperature sensor, the three ACQ V2.0 type data acquisition control modules are connected with the J1 interface terminal of the signal transfer board through a CAN bus communication cable XS1, the 9001-shaped 18481C interface terminal of the three tested incubation module assemblies is correspondingly connected with the 9001-shaped 18481C interface terminal of the three ACQ V2.0 type data acquisition control modules (directly inserted along the upper positioning slide way of the incubation module assembly), and the test software WJYFY V1.0 is installed below a D:/disk of an upper computer;

the working principle is as follows: the incubation module assembly detection device of the microbial culture detector is powered on and started;

under WIN7 interface, test software WJYFY V1.0 of 'microbial culture detector' is operated: clicking a YUNHUI icon to enter a first display picture of an upper computer in D \ WJYFY V1.0;

clicking a 'function setting' button in the first display picture to obtain second display picture information;

and checking and judging the test result after continuously running for 4 hours.

Setting a software interface:

A. entering a second display screen interface, and only needing to print the green button of the calibration bar selection button in the volume of V;

B. the rest of the work can be automatically carried out: after the 'calibration bar' is inserted, the device can automatically display 'hole site light intensity value data', automatically search 'hole site number' position, automatically calculate 'deviation' value and automatically read the state of 'hole site indicator light';

selecting a calibration bar: selecting a green calibration bar for calibration;

operation/determination:

A. detection of the "incubation Module Assembly" 1 to be detected:

opening the cabin door, inserting the green end of the calibration rod into the hole #1, reading that the deviation value in the second display picture interface is less than or equal to 500 to be qualified, otherwise, being unqualified; the hole site indicator lamp of hole site #1 is flashing to be qualified, otherwise, it is not qualified.

Repeating the following operations in 1-20 hole sites: all the 20 holes are qualified, the tested 'incubation module assembly' 1 can be judged to be qualified, and otherwise, the tested 'incubation module assembly' is unqualified;

B. detection of the "incubation module assembly" 2 to be detected:

opening the hatch door, inserting the green end of the calibration rod into the hole #21, reading that the deviation value in the second display picture interface is less than or equal to 500 to be qualified, otherwise, being unqualified; the hole site indicator lamp of hole site #21 is blinked to be qualified, otherwise, the hole site indicator lamp is unqualified;

the above operations are repeated in 21-40 holes: all the 20 holes are qualified, the tested 'incubation module assembly' 2 can be judged to be qualified, and otherwise, the tested 'incubation module assembly' is unqualified;

C. detection of the "incubation Module Assembly" 3 to be detected:

opening the hatch door, inserting the green end of the calibration rod into the hole #41, reading that the deviation value in the second display picture interface is less than or equal to 500 to be qualified, otherwise, being unqualified; the hole site indicator lamp of hole site #41 is blinked to be qualified, otherwise, the hole site indicator lamp is unqualified;

repeating the following operations on holes 41-60: all the 20 holes are qualified, the tested 'incubation module assembly' 3 can be judged to be qualified, and otherwise, the tested 'incubation module assembly' is not qualified;

clicking the icon of the main interface and then clicking the button of the exit; exiting WIN 7; turning off a power switch of a data acquisition/control detection device of the microbial culture detector;

taking down the tested ACQ V2.0 data acquisition control module; pasting a qualification certificate; and packaging, registering and warehousing.

In the description herein, references to the description of "one embodiment," "an example," "a specific example," etc., mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The above, only be the concrete implementation of the preferred embodiment of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art is in the technical scope of the present invention, according to the technical solution of the present invention and the utility model, the concept of which is equivalent to replace or change, should be covered within the protection scope of the present invention.

Claims (6)

1. A microbial cultivation detector incubate module assembly detection device which characterized in that includes: the medical power supply, the heater, the communication gateway module, the upper computer, the signal adapter plate and the data acquisition control module;

the medical power supply is respectively connected with the heater, the upper computer and the signal adapter plate;

the upper computer is electrically connected with the heater and the communication gateway module respectively, and the communication gateway module is electrically connected with the signal adapter plate;

the signal adapter plate is electrically connected with the data acquisition control module;

the data acquisition control module is connected with the incubation module assembly.

2. The apparatus of claim 1, wherein the apparatus comprises: the data acquisition control module is consistent with the incubation module assemblies in number, and the data acquisition control module corresponds to the incubation module assemblies one to one.

3. The apparatus of claim 1, wherein the apparatus comprises: the incubation module assembly comprises an assembly base, wherein the assembly base is provided with 20 culture bottle hole sites, 20 culture bottle hole site indicator lamps and a 9001-18481C interface terminal.

4. The apparatus of claim 3, wherein the apparatus further comprises: and a green calibration rod is embedded in the hole of the culture bottle of the assembly base.

5. The apparatus of claim 1, wherein the apparatus comprises: the data acquisition control module comprises a module shell, wherein a 9001-18481C interface terminal and an IDC-10 interface terminal which are matched with the incubation module assembly are arranged on the module shell.

6. The apparatus of claim 1, wherein the apparatus comprises: the heater comprises a heater shell, wherein a temperature sensor interface terminal, a communication port connected with an upper computer and a power switch are arranged on the heater shell.

Images