KR102547826B1 - Breeding cage with individual ventilation - Google Patents

Abstract

The present invention relates to a breeding cage capable of individual ventilation, and more particularly, to a breeding cage for mice and rats used for experiments in the field of life science.
A storage frame composed of an outer frame and a fixed frame, a water supply pipe for supplying water installed at the rear of the storage frame, an air supply pipe for ventilation, and a discharge pipe for ventilation are installed. As a breeding cage,
The cage is made in a rectangular shape, and supply and exhaust air nozzles connected to the air supply pipe and discharge pipe are installed at intervals at the rear upper end of the cage, and the lower end of the supply and exhaust air nozzles leads to the inside of the cage. The water supply nozzle for supplying water is connected to the water supply pipe,
Fixed knobs are integrally formed on both left and right sides of the cage, and coupling rails are installed as fixed knobs.

Description

Breeding cage with individual ventilation{.}

The present invention relates to a breeding cage capable of individual ventilation, and more particularly, to a breeding cage for mice and rats used for experiments in the field of life science.

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

For this purpose, the present invention has been made to solve the conventional problems, and breeding cages capable of separately breeding animals in breeding cages while breeding laboratory animals, etc., and installing a plurality of them in a storage frame. provides

A storage frame composed of an outer frame and a fixed frame, a water supply pipe for supplying water installed at the rear of the storage frame, an air supply pipe for ventilation, and a discharge pipe for ventilation are installed. As a breeding cage,

The cage is made in a rectangular shape, and supply and exhaust air nozzles connected to the air supply pipe and discharge pipe are installed at intervals at the rear upper end of the cage, and the lower end of the supply and exhaust air nozzles leads to the inside of the cage. The water supply nozzle for supplying water is connected to the water supply pipe,

Fixed knobs are integrally formed on both left and right sides of the cage, and coupling rails are installed as fixed knobs.

In addition, the fixed knob applied to the present invention is integrally formed on both sides of the cage, the first knob is formed with the second knob interposed at the rear of the cage, and the first knob and the second knob are formed with a stepped portion, , It is characterized in that a fixing protrusion is formed at the lower end of the stepped portion.

In addition, the water supply piping applied to the present invention is characterized in that an electric field unit and a filter are installed to remove various bacteria in the water flowing inside the piping.

According to the present invention, fresh water is always supplied to the cage through a water supply pipe to keep the raised mice or rats in a healthy state required for the experiment.

In addition, the cage applied to the present invention can be easily separated to maintain a comfortable environment through cleaning and disinfection of the cage, and since fresh air can be breathed in a pleasant environment, mice and the like can be maintained in a healthy state.

Second, each cage can independently ventilate air and supply moisture to prevent disease transmission between individuals due to group breeding in breeding facilities in the same place, and it is economical because it can significantly reduce facility management costs. .

1 is a view showing a large-capacity mouse breeding apparatus capable of individual ventilation according to the present invention.
2 is a view showing a cage applied to the present invention.
3 to 5 are partially enlarged views of FIG. 2 .

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

First, FIG. 1 is a view showing a large-capacity mouse breeding apparatus capable of individual ventilation according to the present invention, and FIGS. 2 to 4 are partial enlarged views of each part of FIG. 1 .

Specifically, the present invention relates to a cage 10 for breeding mice, the cage 10 installed vertically and horizontally in multiple stages and rows, and pipes 20a for supplying water or ventilation to the inside of the cage 10 (20b) includes a storage frame 30 in which (20c) is installed, and includes an air conditioner 40 connected to a pipe 20b for ventilation.

The cage 10 applied to the present invention has a space in which mice live for survival, and has a rectangular shape as a whole.

Inside the cage 10, intake and exhaust nozzles 12 and 14 and water supply nozzles 16 connected to the outside are installed to supply air and moisture necessary for the survival of mice.

The intake and exhaust nozzles 12 and 14 are connected to the intake and exhaust pipes 20b and 20c, and the water supply nozzle 16 is connected to the water supply pipe 20a.

Meanwhile, fixing knobs 19 are integrally formed on both left and right sides of the cage 10, and coupling rails 18 to be described later are installed on the fixing knobs 19.

Specifically, the fixing knob 19 is integrally formed on both sides of the cage 10, and a first knob 19a is formed at the rear of the cage 10 with the second knob 19b interposed therebetween, The first knob 19a and the second knob 19b are formed with a stepped portion 19c, and a fixing protrusion 19d is formed at the lower end of the stepped portion 19c.

The storage frame 30 applied to the present invention is a lattice structure and is composed of an outer frame 32 and a fixed frame 34.

The outer frame 32 includes a support plate 32a installed on the bottom and top, and for example, two outer frames 32 applied to the present invention are installed on both left and right sides at intervals in the vertical direction from the floor, , The cage 10 is installed in multiple stages and multiple rows to the inside of the outer frame 32.

Inside the outer frame 32, a plurality of fixed frames 34 are installed at intervals, and specifically, the cage 10 is installed between the fixed frames 34.

Between the fixed frames 34 installed at intervals, the cage 10 is installed at intervals in multiple stages, and the cage 10 is fixed to the fixed frame 34.

The cage 10 has coupling rails 18 installed on both sides and has a structure in which the coupling rails 18 are coupled to the fixed frame 34.

The coupling rail 18 applied to the present invention is rotatably assembled and installed on the side of the cage 10, and when the cage 10 is installed by rotating upward from the side of the cage 10, the vertical of the cage 10 It stops rotation while forming 90 degrees with the side, and is fixed to the fixed frame 34 in a stopped state.

A fixing groove 18a is formed on the side of the coupling rail 18 for this purpose, and the fixing groove 18a is inserted from the vertical side of the coupling rail 18 to be positioned, and the fixing groove 18a Since the protruding button 18b is operably formed, the protruding button 18b is inserted into the coupling rail 18 to firmly fix the cage 10.

In addition, as the coupling rail 18, coupling grooves not shown are installed at intervals in the vertical and horizontal directions, and the protruding button 18b is inserted into the coupling groove formed in the fixing frame 34.

In particular, one coupling groove is usually formed on the inside of the outer frame 32, that is, in the direction in which the cage 10 is installed, and is formed on both left and right sides of the fixing frame 34.

On the other hand, the upper surface of the coupling rail 18 is seated on the fixed knob 19, in particular, the first knob 19a, and the fixing protrusion 19d formed on the stepped portion 19c allows the coupling rail 18 to be caught. play a role

As described above, in the present invention, the air conditioner 40 and a water tank (not shown) are installed by supplying water or performing ventilation to the inside of the cage 10, and the water tank is supplied by the water supply pipe 20a.

First, the water supply pipe 20a connected to the water tank and the cage 10 is located at the rear of the storage frame 30 .

The water supply pipe 20a is connected to the water supply nozzle 16 installed in the cage 10, and supplies a certain amount of moisture to breeding mice and the like.

Conventionally, conventional water treatment devices have been used simply for the purpose of preventing rust and removing scale inside pipes, but the current market demand requires products capable of suppressing and killing the propagation of bacteria inside pipes.

The present invention applies rust prevention and scale removal technology by electromagnetic induction to the inside of the pipe to suppress and kill the growth of bacteria inside the pipe so that clean water can always be supplied, and the conditions in which bacteria can propagate are fundamentally By preventing it, it is possible to supply clean water like raw water.

In the present invention, the water supply pipe 20a is composed of a filter part responsible for suppressing the growth of biological microorganisms and an electric field part responsible for inhibiting rust generation and scale removal inside the pipe by electromagnetic induction action for the above-mentioned effect.

The electric field is installed on the outer wall of the water supply pipe (20a) without cutting the existing pipe, and by designing and installing a filter housing at the pipe joint connecting the pipe to the pipe, scale removal and inhibition of microbial propagation can be implemented at the same time.

The electric field applied to the present invention optimizes the performance according to the installation position of the pipe and the arrangement characteristics of each named pipe according to the magnetic force distribution and the installation position of the filter. In particular, it is a complex water treatment device that combines an electromagnetic device and a filter that form an electric field. The electronic device removes/prevents rust and scale inside the pipe, and the filter removes various bacteria such as general bacteria, E. coli, and legionella in the water flowing inside the pipe. have

The magnetic force line distribution of the electric field applied to the present invention increases the magnetic force line transmittance at the center of the pipe (increases by more than 70%), selects and applies rare earth neodymium magnets (Nd+Fe+B) with excellent magnetic force line density, and applies the magnetic force line to the center of the pipe. A magnetic line of force booster not shown is added.

In addition, the filter applied to the present invention is an oxide of iron, zinc, and calcium based on ferrite nanoparticles (CaOZnOFeO2), which is a ferromagnetic material, and is harmless to the human body or the environment and is stable.

In addition, the filter is completed by applying Ferrite particle powder, which is a ferromagnetic material of about 10 nm, 1,800 Gauss/g ultra-fine particles, to a non-woven fabric.

This filter is installed inside the water supply pipe 20a, and the electric field unit is installed on the outside of the water supply pipe 20a in a structure surrounding the pipe.

In addition, the intake and exhaust pipes 20b and 20c for ventilation in which the air conditioner 40 is installed are connected to the intake and exhaust nozzles 12 and 14 installed at the rear of the cage 10 to continuously supply fresh air to mice and the like. will supply

In the present invention, a filter (not shown) is installed inside the intake pipe 20b to supply fresh air.

The air supplied by the air conditioner is filtered through a filter, and is double filtered by the filter as well as the air conditioner 40 to provide more fresh air.

The present invention can be implemented in various other forms without departing from the spirit or main characteristics thereof. Therefore, the above-mentioned embodiment is only a mere illustration in all respects, and should not be interpreted limitedly. The scope of the present invention is indicated by the scope of the claims, and is not constrained in any way by the text of the specification. Again, all variations and changes that fall within the scope of the claims are within the scope of the present invention.

10: cage 20a, 20b, 20c: pipes
30: storage frame 40: air conditioner

Claims (3)

A storage frame composed of an outer frame and a fixed frame, a water supply pipe for supplying water installed at the rear of the storage frame, an air supply pipe for ventilation, and a discharge pipe for ventilation are installed. As a breeding cage,
The cage is made in a rectangular shape, and supply and exhaust air nozzles connected to the air supply pipe and discharge pipe are installed at intervals at the rear upper end of the cage, and the lower end of the supply and exhaust air nozzles leads to the inside of the cage. A water supply nozzle for supplying water is connected to the water supply pipe, fixed knobs are integrally formed on both left and right sides of the cage, and a coupling rail is installed as the fixed knob, and the water supply pipe is a power transmission unit. And a filter is installed to remove various bacteria in the water flowing inside the pipe. The electric field part is mounted on the outer wall of the water supply pipe, so that the magnetic force line distribution of the electric field part increases the magnetic force line transmittance in the center of the pipe, and rare earth neodymium magnets (Nd+Fe +B) is selected and applied, and a magnetic line booster is added so that the magnetic line of force is transmitted to the center of the pipe, and the filter is applied to nonwoven fabric with Ferrite particle powder, a ferromagnetic material of 10 nm, 1,800 Gauss / g ultrafine particles. Breeding cage with ventilation.
According to claim 1,
The fixing knob is integrally formed on both sides of the cage, and a first knob is formed at the rear of the cage with the second knob interposed therebetween, the first knob and the second knob are formed with a stepped portion, and the lower end of the stepped portion As a breeding cage capable of individual ventilation, characterized in that the fixed protrusion is formed.
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