KR102507297B1 - Purified air supply device and method that is automatically adjusted according to the cage quantity change of the breeding device - Google Patents

Abstract

The present invention relates to a purified air supplying apparatus which is automatically adjusted according to changes in cage numbers in a big breeding device capable of individual ventilation, and a supplying method. To this end, for a breeding device containing an air conditioning device, the air conditioning device comprises: a main controller which performs suction and exhaust depending on suction and exhaust and measuring values of various sensors; and a differential pressure sensor which measures a pressure supplied to multiple cages and a pressure of air emitted from multiple cages to transmit a pressure difference to the main controller. The air conditioning device has a display window, displayed to the outside, installed therein, and displays a differential pressure measured by the differential pressure sensor in the display window, and then understands the number of cages calculated according to the differential pressure, and displays a current number of cages in a control window.

Description

Purified air supply device and supply method that is automatically adjusted according to the change in cage quantity of the breeding device{.}

The present invention relates to a supplying device and method for supplying purified air that is automatically adjusted according to a change in cage quantity in a large-capacity breeding apparatus capable of individual ventilation.

Experimental animals are inevitable in the field of life science for research in modern cutting-edge science.

Experimental animals are bred for as short as a few days or as long as several years or decades, and their biological changes are tested.

In the process of breeding in this way, breeding and management of laboratory animals according to the experimental conditions (feed feeding, drinking water feeding, cleaning of feed bowls and drinking bowls, cleaning of excrement, different temperature control depending on the experimental conditions and types of experimental animals, animal behavior observation, etc.), and scientists desperately want experiments to be conducted under optimal environmental conditions.

Despite these requirements, animals that require different specification conditions due to defects in existing breeding cages and economic reasons, breeding groups of laboratory animals that require different specification conditions in the same breeding room space where research conditions are poor. are often doing

As a well-known example, Korean Patent Registration No. 10-1482648 discloses an individual ventilation cage breeding equipment for culturing a plurality of mice individually managed in an animal breeding room, etc. through a server computer screen connected to the outside of the animal breeding room, etc. Provides an integrated management method for individual ventilation cage breeding equipment for mouse culture that can be managed accurately, conveniently, and integratedly.

However, the above known example focuses on the management of breeding equipment, and there is a problem in that there is room for improvement in the improvement and system of individual breeding equipment.

Republic of Korea Patent No. 10-1482648

The present invention for solving the above-mentioned problems,

One of the problems of the individual ventilation system of breeding equipment that is normally applied is that purified air supplied in a fixed amount does not respond to the change in cage quantity, so it automatically detects the quantity change in the cage to solve the problem of excessive or insufficient quantity of purified air at all times. It is intended to provide

In the breeding apparatus including an air conditioner,

The air conditioner includes a main controller that performs intake and exhaust according to measurement values of intake and exhaust and various sensors;

A differential pressure sensor for measuring the pressure of the intake air supplied to the plurality of cages and the pressure of the air exhausted from the plurality of cages and transmitting the pressure difference to the main controller,

The air conditioner is provided with a display window that is displayed to the outside, and the display window displays the differential pressure measured through the differential pressure sensor, determines the cage quantity calculated according to the differential pressure, and then displays the current cage quantity on the control window. do.

In addition, the display window applied to the present invention is characterized by further displaying a quantity capable of increasing or decreasing the current cage quantity.

In addition, the present invention is characterized in that a blower for intake and exhaust of air is installed, and the blower adjusts the air volume under the control of the main controller.

In addition, the present invention is a method for supplying purified air to a breeding apparatus including an air conditioner,

Supplying and maintaining air suitable for the quantity of the plurality of cages installed in the breeding apparatus;

Changing the installation state of the cage by additionally installing or removing the cage;

detecting a pressure difference between supplied air and discharged air when the installation state of the cage changes;

and controlling a supply air volume and a discharge air volume through a sensed pressure difference.

The present invention eliminates the need to install various types of sensors installed in a plurality of cages, resulting in an effect of securing price competitiveness.

In addition, when washing various parts including the cage, the electrical device must be separated, but the present invention uses the differential pressure of the intake and exhaust and the rotational speed of the blower, so there is no need to install the electrical device on the rack on the storage frame where the cage is installed. There is an effect of increasing the maintenance and maintenance efficiency of the equipment.

Furthermore, the present invention can automatically determine the number of cages that fluctuate and then determine the current quantity of cages, and automatically adjust the intake and exhaust air volumes to supply purified air suitable for the current quantity of cages, thereby increasing operator convenience and It is economical because it can drastically reduce facility management costs.

1 is a view showing a purified air supply device that is automatically adjusted according to a change in cage quantity of a breeding device according to the present invention.
2 is a view showing the operation of a purified air supply device that is automatically adjusted according to the change in cage quantity of the breeding device according to the present invention.
3 is a view showing the rotational state of the blower when the quantity of the cage is changed according to the present invention.
4 and 5 are views showing cage quantity variation according to the rotational state of the blower.

Hereinafter, one preferred embodiment according to the present invention will be described in detail.

First, FIG. 1 is a view showing a purified air supply device that is automatically adjusted according to the cage quantity change of the breeding apparatus according to the present invention, and FIG. 2 is a purified air supply apparatus that is automatically adjusted according to the cage quantity change of the breeding apparatus according to the present invention. 3 is a view showing the rotational state of the blower when the cage quantity is changed according to the present invention, and FIGS. 4 and 5 are views showing the cage quantity variation according to the rotational state of the blower.

Specifically, the present invention provides a cage 10 for breeding mice, a storage frame in which the cage 10 is installed vertically and horizontally in multiple stages and rows, and pipes for supplying water or ventilation to the inside of the cage 10 are installed. 20, and an air conditioner 30 connected to a pipe for ventilation.

Inside the cage 10, intake and exhaust nozzles and water supply nozzles connected to the air conditioner 30 are installed to supply air and moisture necessary for the survival of mice.

The air conditioner 30 applied to the present invention includes a main controller 32 that performs intake and exhaust according to measurement values of intake and exhaust and various sensors, and a pressure and a plurality of cages 10. It includes a differential pressure sensor 34 that measures the pressure of air exhausted from the cage 10 and transmits the pressure difference to the main controller 32, and the air conditioner 30 is provided with a view window 36 that is displayed to the outside. And, the display window 36 displays the differential pressure measured through the differential pressure sensor 34, and displays the current quantity of cages 10 obtained by determining the quantity of cages 10 calculated according to the differential pressure.

The main controller 32 is installed inside the air conditioner 30, and grasps the state of the air measured by various sensors such as the wind speed measuring device 31 and the exhaust component measurement sensor 33, and in particular, the differential pressure sensor 34 measures the measurement. The differential pressure is calculated and the speed of the blowers 40 and 42 to be described later is controlled to adjust intake and exhaust amounts.

In particular, the exhaust component measurement sensor 33 measures carbon dioxide, ammonia, and temperature/humidity to determine when to replace various filters and to determine the internal state of the cage 10.

The differential pressure sensor 34 is installed on the intake and exhaust pipes, and transmits the difference between the pressure measured during intake and the exhaust pressure to the main controller 32 .

In addition, the differential pressure sensor 34 applied to the present invention can be installed in representative intake and exhaust nozzles installed in the representative cage 10, which is the standard, and the differential pressure between the air intake and the exhaust air in the representative cage 10, which is the standard. may be measured and transmitted to the main controller 32.

The display window 36 serves to show the information calculated through the main controller 32 to the outside, and various display screens are applied.

The display window 36 displays the current quantity of the cage 10 and the quantity that can be increased or decreased, the state of differential pressure, the state of rotation of the blowers 40 and 42, the state of carbon dioxide, ammonia, and temperature/humidity.

In the blowers 40 and 42 applied to the present invention, an intake blower 40 and an exhaust blower 42 are installed to intake air from the outside and exhaust air inside the cage 10, and within the cage 10 Purified air is supplied and retained, and the retained air is circulated and exhausted to maintain fresh air at all times.

In the present invention, filters are provided to supply fresh purified air into the cage (10).

As for the filters, at least one of a pre-filter and a HEPA filter may be applied, and are separately applied during exhaust to prevent the discharge of harmful air, and the blowers 40 and 42 are installed between the pre-filter and the HEPA filter.

The present invention having the above configuration describes a method of supplying purified air to a breeding apparatus including an air conditioner.

First, the present invention provides and maintains air suitable for the quantity of a plurality of cages installed in the breeding apparatus; Changing the installation state of the cage by additionally installing or removing the cage; detecting a pressure difference between supplied air and discharged air when the installation state of the cage changes; and controlling the supply air volume and the discharge air volume through the sensed pressure difference.

In the step of supplying and maintaining air suitable for the quantity of the plurality of cages installed in the breeding apparatus, air is always supplied at a constant pressure, for example, 3Pa, and the supplied air is supplied through an intake blower 40 for intake.

The intake blower 40 is controlled by the main controller 32 and adjusts the speed of the blower 40, and FIG. 3 shows the rotational state of the blower 40 according to the increase in the number of cages 10.

That is, the rotational speed is increased or decreased according to the increase or decrease in the number of cages 10, and the air supplied to the cage 10 is supplied while maintaining a constant pressure due to this rotational speed.

The number of cages 10 is also varied according to the addition or subtraction of animals to be reared. Accordingly, the present invention performs a step of changing the installation state of the cage 10 by additionally installing or removing the cage 10 .

For example, when the cage 10 is further installed or removed, the air volume of the supplied air increases or decreases, and the rotation speed of the blowers 40 and 42 increases and decreases, and the increase and decrease are intake and exhaust. The rotational speed of the blowers 40 and 42 is determined by the differential pressure of intake and exhaust detected by the differential pressure sensor 34 installed on the pipe.

The rotational speed of the blowers 40 and 42 is determined by detecting the pressure difference between the supplied air and the discharged air when the installation state of the cage 10 changes, and the supplied air volume and the discharge air volume through the detected pressure difference. This is achieved by performing control steps.

Specifically, in the present invention, when the cage 10 is removed from the storage frame 20, the volume of the entire cage 10 decreases and the pressure Pa rises, and at this time, the differential pressure detected by the differential pressure sensor 34 In order to fill it, the main controller 32 calculates a compensation value for the differential pressure, and then discharges air to the outside by increasing the number of revolutions (RPM) to maintain a constant pressure (Pa) set through the exhaust blower 42.

By the operation of the main controller 32, the number of revolutions increased is confirmed on the display window 36, and the quantity of the case 10 is automatically displayed in a downward state.

In addition, when the cage 10 is added to the storage frame 20, the volume of the entire cage 10 increases and the pressure Pa decreases. At this time, the main controller (32) calculates a compensation value for the differential pressure, and then discharges air to the outside by lowering the number of revolutions (RPM) to maintain a constant pressure (Pa) set through the exhaust blower (42).

By the operation of the main controller 32, the number of revolutions increased on the display window 36 is checked and the quantity of the case 10 is automatically displayed in an increased state.

As shown in FIGS. 4 and 5, the above operation shows the change in the quantity of the cage 10 through the window 36 according to the rotational state of the blowers 40 and 42, so that the operator can easily manage the breeding device. will do

10: cage 20: storage frame
30: air conditioner

Claims (4)

In the breeding apparatus including an air conditioner,
The air conditioner includes a main controller that performs intake and exhaust according to measurement values of intake and exhaust and various sensors;
It includes a differential pressure sensor that measures the pressure of the intake air supplied to the plurality of cages and the pressure of the air exhausted from the plurality of cages and transmits the pressure difference to the main controller. The differential pressure measured through the differential pressure sensor is displayed on the display window, the calculated cage quantity is determined according to the differential pressure, and the current cage quantity is displayed on the control window. When a cage is added to the storage frame, the volume of the entire cage increases and the pressure (Pa) decreases. In order to fill the differential pressure detected by the differential pressure sensor, the main controller compensates for the differential pressure. After calculating, the number of revolutions (RPM) is lowered to maintain the set constant pressure (Pa) through the exhaust blower to discharge air to the outside. Purified air supply device that is automatically adjusted according to the cage quantity variation of the breeding apparatus, characterized in that the quantity of is automatically displayed in an upward state, and the quantity that can be added or subtracted from the current cage quantity is further displayed in the display window.
delete According to claim 1,
A blower for intake and exhaust of the air is installed, and the blower adjusts the air volume under the control of the main controller.
In the method of supplying purified air to a breeding apparatus including an air conditioner,
Supplying and maintaining air suitable for the quantity of the plurality of cages installed in the breeding apparatus;
Changing the installation state of the cage by additionally installing or removing the cage;
detecting a pressure difference between supplied air and discharged air when the installation state of the cage changes;
Controlling the supply air volume and the discharge air volume through the sensed pressure difference; including,
Each of the steps above displays the number of cases by checking the number of revolutions raised on the display window by the operation of the main controller, and when a cage is added in the storage frame, the volume of the entire cage increases and the pressure (Pa) decreases. In order to fill the differential pressure detected by the sensor, the main controller calculates a compensation value for the differential pressure and then lowers the number of revolutions (RPM) to maintain the set constant pressure (Pa) through the exhaust blower to discharge air to the outside. , By the operation of the main controller, the number of revolutions that have been raised is confirmed on the display window and the quantity of the case is automatically displayed in an increased state, and the display window further displays the quantity that can increase or decrease the current cage quantity. A method of supplying purified air that is automatically adjusted according to the change in cage quantity of the breeding device.

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