CN105594609B

CN105594609B - Modularization SPF experimental animals raises room

Info

Publication number: CN105594609B
Application number: CN201610059570.7A
Authority: CN
Inventors: 刘春花
Original assignee: Zhejiang Ocean University ZJOU
Current assignee: Zhejiang Ocean University ZJOU
Priority date: 2016-01-29
Filing date: 2016-01-29
Publication date: 2020-08-28
Anticipated expiration: 2036-01-29
Also published as: CN105594609A

Abstract

A modularized SPF experimental animal feeding room belongs to the technical field of house construction and comprises a support, a first motor, idler wheels, a pedal, an electric valve, an outlet, a controller, an impeller, a second motor, a moving block, a linear motor, a first fisheye bearing, a second cylinder, a third cylinder, a vibration motor, a third motor, a support rod, a nut, a second fisheye bearing, a fourth cylinder, a lead screw, a support column, a third fisheye bearing, a support plate, a first cylinder, a house, a belt, a connecting rod, a fifth cylinder, an air purifier, a first sliding block, a second sliding rail, a second sliding block, a first sliding rail, a spring and a fourth motor, wherein the outlet is arranged on the left side of the house, the electric valve is arranged on the outlet, the pedal is hinged to the left side in the house, the two third fisheye bearings are arranged on the right side of the pedal, and a piston rod of the fourth cylinder is arranged on the third fisheye bearing; the invention has the advantages that: the air purifier can move.

Description

Modularization SPF experimental animals raises room

Technical Field

The invention relates to a modular SPF laboratory animal feeding room, and belongs to the technical field of house construction.

Background

The SPF experimental animal feeding environment control mainly comprises room environment control and feeding equipment (cages and boxes). Currently, the air purification degree of an SPF (specific pathogen free) experimental animal house is required to reach at least 10000 levels according to the standard, and the ammonia concentration is less than or equal to 14 mg/m³The temperature is 18-29 ℃, the daily temperature difference is less than or equal to 3 ℃, the relative humidity is 40-70%, the air flow speed is less than or equal to 0.18m/s, and the air pressure difference gradient of a room is 20-50 Pa. In order to ensure the normal growth of experimental animals, the temperature and humidity are strictly regulated, fresh air is supplied, and harmful gases, pathogenic microorganisms and dust particles are removed. To avoid cross-contamination, the air pressure at various locations in the room must be strictly set and controlled. The air purifier in the SPF experimental animal feeding room in the prior art is fixedly arranged on the wall, and the purifying effect is poor. In order to solve the above difficulties, it is necessary to develop a modular SPF laboratory animal keeping room in which an air purifier can be moved.

Disclosure of Invention

The invention aims to provide a modular SPF laboratory animal feeding room.

The invention aims to solve the problem that the air purifier of the SPF laboratory animal feeding room in the prior art is fixedly arranged on the wall.

In order to realize the purpose of the invention, the technical scheme adopted by the invention is as follows:

a modularized SPF experimental animal feeding room comprises a support, a first motor, a roller, a pedal, an electric valve, an outlet, a controller, an impeller, a second motor, a moving block, a linear motor, a first fisheye bearing, a second cylinder, a third cylinder, a vibration motor, a third motor, a support rod, a screw nut, a second fisheye bearing, a fourth cylinder, a lead screw, a support column, a third fisheye bearing, a support plate, a first cylinder, a house, a belt, a connecting rod, a fifth cylinder, an air purifier, a first sliding block, a second sliding block, a first sliding rail, a spring and a fourth motor, wherein the outlet is arranged on the left side of the house, the electric valve is arranged on the outlet, the pedal is hinged on the left side in the house, the two third fisheye bearings are arranged on the right side of the pedal, a piston rod of the fourth cylinder is arranged on the third fisheye bearing, the fourth cylinder is arranged on the second fisheye bearing, and the second fisheye bearing is arranged on the support, the support rod is arranged on the screw, the screw is arranged on the screw, the upper side and the lower side of the screw are respectively arranged on the support columns, the support columns are arranged on the inner side wall of the house, the lower end of the screw is connected with a third motor through a coupler, the third motor is arranged in the house, more than one first fisheye bearing is arranged under the pedal plate, the piston rod of the second cylinder is arranged on the first fisheye bearing, the second cylinder is arranged at the bottom in the house, more than one linear motor is arranged at the bottom in the house, the movable block is arranged on the linear motor, the second motor is arranged on the movable block, the impeller is arranged on the second motor, the impeller is positioned under the pedal plate, the vibration motor is hinged and arranged under the pedal plate, the vibration motor is arranged on the third cylinder, the third cylinder is arranged at the bottom in the house, the belt is arranged on two rollers, the rollers are arranged on the support, the shaft of the roller, the support mounting is at the top in the house, two first cylinders of installation under the belt, install the extension board under the piston rod of first cylinder, install the fourth motor under the extension board, install four connecting rods on the output shaft of fourth motor, install the fifth cylinder on the connecting rod, install first slider on the piston rod of fifth cylinder, first slider is installed on first slide rail, install air purifier on the first slider, first slide rail is installed on the second slider, the second slider is installed on the second slide rail, the second slide rail is installed under the extension board, link to each other and install the spring between two first slide rails, the controller is installed on the house inside wall, the controller passes through the wire respectively with first motor, the second motor, the third motor, the fourth motor, linear electric motor, air purifier, motorised valve and shock dynamo link to each other.

A first electromagnetic valve is arranged in the first air cylinder and connected with a controller through a lead.

And a second electromagnetic valve is arranged in the second cylinder and is connected with the controller through a lead.

And a third electromagnetic valve is arranged in the third cylinder and is connected with the controller through a lead.

And a fourth electromagnetic valve is arranged in the fourth cylinder and is connected with the controller through a lead.

And a fifth electromagnetic valve is arranged in the fifth cylinder and is connected with the controller through a lead.

The invention has the advantages that: the controller controls the third motor to start, so that the screw rod rotates, the screw nut moves up and down, and the right end of the pedal moves upwards; the controller controls the second electromagnetic valve to be powered on or powered off, so that a piston rod of the second cylinder makes telescopic motion, the right end of the pedal moves upwards, the left end of the pedal inclines downwards, and the right end of the pedal tilts upwards, and waste on the pedal conveniently slides downwards to an outlet; the controller controls the electric valve to open the outlet; the controller controls the third cylinder to do telescopic motion so as to enable the vibration motor to move upwards; the controller controls the vibration motor to start, so that the pedal plate vibrates, and the waste on the pedal plate slides down in an accelerated manner; the controller controls the second motor to start, so that the impeller rotates and the ventilation of the pedal is accelerated; the controller controls the linear motor to start, so that the moving block moves left and right, and the impeller moves left and right; the controller controls the first motor to start, so that the roller rotates, the belt rotates, and the support plate moves left and right; the controller controls the fourth motor to start, so that the connecting rod rotates, the first sliding block drives the air purifier to rotate on the first sliding rail, and the air purifier moves; the controller controls the fifth cylinder to do telescopic motion, so that the first sliding block moves outwards, the second sliding block is pushed to move on the second sliding rail, the air purifier is moved, and the purifying effect in the house is better.

Drawings

FIG. 1 is an overall block diagram of a modular SPF laboratory animal keeping room according to the present invention;

FIG. 2 is a bottom view of the structure under the plate;

FIG. 3 is a front view of the structure of section a;

in the figure: 1. the device comprises a support 2, a first motor 3, a roller 4, a pedal 5, an electric valve 6, an outlet 7, a controller 8, an impeller 9, a second motor 10, a moving block 11, a linear motor 12, a first fisheye bearing 13, a second cylinder 14, a third cylinder 15, a vibration motor 16, a third motor 17, a support rod 18, a nut 19, a second fisheye bearing 20, a fourth cylinder 21, a lead screw 22, a support column 23, a third fisheye bearing 24, a support plate 25, a first cylinder 26, a house 27, a belt 28, a connecting rod 29, a fifth cylinder 30, an air purifier 31, a first sliding block 32, a second sliding rail 33, a second sliding block 34, a first sliding rail 35, a spring 36 and a fourth motor.

Detailed Description

The invention is further described with reference to the following figures and examples.

The invention discloses a modularized SPF experimental animal feeding room, which comprises a bracket 1, a first motor 2, a roller 3, a pedal 4, an electric valve 5, an outlet 6, a controller 7, an impeller 8, a second motor 9, a moving block 10, a linear motor 11, a first fisheye bearing 12, a second cylinder 13, a third cylinder 14, a vibration motor 15, a third motor 16, a support rod 17, a screw nut 18, a second fisheye bearing 19, a fourth cylinder 20, a screw rod 21, a support column 22, a third fisheye bearing 23, a support plate 24, a first cylinder 25, a house 26, a belt 27, a connecting rod 28, a fifth cylinder 29, an air purifier 30, a first slide block 31, a second slide rail 32, a second slide block 33, a first slide rail 34, a spring 35 and a fourth motor 36, an outlet 6 is arranged at the left side of the house 26, an electric valve 5 is arranged on the outlet 6, and the controller 7 controls the electric valve 5 to be opened to open the outlet 6; the left side in a house 26 is hinged with a pedal 4, the right side of the pedal 4 is provided with two third fisheye bearings 23, a piston rod of a fourth air cylinder 20 is arranged on the third fisheye bearings 23, the fourth air cylinder 20 is arranged on a second fisheye bearing 19, a fourth electromagnetic valve is arranged in the fourth air cylinder 20 and is connected with a controller 7 through a lead, the second fisheye bearing 19 is arranged on a support rod 17, the support rod 17 is arranged on a nut 18, the nut 18 is arranged on a lead screw 21, the upper side and the lower side of the lead screw 21 are respectively arranged on a support column 22, the support column 22 is arranged on the inner side wall of the house 26, the lower end of the lead screw 21 is connected with a third motor 16 through a coupling, the third motor 16 is arranged in the house 26, the controller 7 controls the third motor 16 to be started, the lead screw 21 to rotate, the nut 18 is driven to move up and; the step plate 4 is provided with more than one first fisheye bearing 12, a piston rod of a second cylinder 13 is arranged on the first fisheye bearing 12, the second cylinder 13 is arranged at the bottom in the house 26, a second electromagnetic valve is arranged in the second cylinder 13 and is connected with the controller 7 through a lead, the controller 7 controls the power on or off of the second electromagnetic valve, so that the piston rod of the second cylinder 13 makes telescopic motion, the right end of the step plate 4 moves upwards, the left end of the step plate 4 inclines downwards and the right end tilts upwards, and waste on the step plate 4 conveniently slides downwards to the outlet 6; the bottom in the house 26 is provided with more than one linear motor 11, the linear motor 11 is provided with a moving block 10, and the controller 7 controls the linear motor 11 to start, so that the moving block 10 moves left and right, and the impeller 8 moves left and right; a second motor 9 is installed on the moving block 10, and the controller 7 controls the second motor 9 to start, so that the impeller 8 rotates, and air circulation under the pedal 4 is accelerated; an impeller 8 is arranged on the second motor 9, the impeller 8 is positioned below the pedal 4, a vibration motor 15 is hinged below the pedal 4, the vibration motor 15 is arranged on a third air cylinder 14, and the controller 7 controls the vibration motor 15 to start, so that the pedal 4 vibrates, and waste on the pedal 4 is accelerated to slide down; the third cylinder 14 is arranged at the bottom in the house 26, a third electromagnetic valve is arranged in the third cylinder 14 and connected with the controller 7 through a lead, and the controller 7 controls the third cylinder 14 to do telescopic motion to enable the vibration motor 15 to move upwards; the belt 27 is installed on the two rollers 3, the rollers 3 are installed on the bracket 1, the shaft of the roller 3 positioned on the left side is connected with the first motor 2 through the coupler, the first motor 2 is installed on the bracket 1, the controller 7 controls the first motor 2 to be started, the rollers 3 are rotated, the belt 27 is rotated, and the support plate 24 moves left and right; the support 1 is installed at the top in a house 26, two first air cylinders 25 are installed below a belt 27, first electromagnetic valves are arranged in the first air cylinders 25, the first electromagnetic valves are connected with a controller 7 through leads, a support plate 24 is installed below a piston rod of each first air cylinder 25, a fourth motor 36 is installed below the support plate 24, the controller 7 controls the fourth motor 36 to be started, the connecting rod 28 is made to rotate, the first sliding block 31 drives the air purifier 30 to rotate on a first sliding rail 34, and the air purifier 30 moves; four connecting rods 28 are installed on an output shaft of a fourth motor 36, a fifth air cylinder 29 is installed on the connecting rods 28, a fifth electromagnetic valve is arranged in the fifth air cylinder 29, the fifth electromagnetic valve is connected with the controller 7 through a lead, the controller 7 controls the fifth air cylinder 29 to do telescopic motion, so that a first sliding block 31 moves outwards, a second sliding block 33 is pushed to move on a second sliding rail 32, so that the air purifier 30 is moved, the purifying effect in the house 26 is better, a first sliding block 31 is installed on a piston rod of the fifth air cylinder 29, the first sliding block 31 is installed on a first sliding rail 34, an air purifier 30 is installed on the first sliding block 31, the first sliding rail 34 is installed on the second sliding block 33, the second sliding block 33 is installed on the second sliding rail 32, the second sliding rail 32 is installed under the support plate 24, a spring 35 is installed between the two connected first sliding rails 34, the controller 7 is installed on the inner side wall of the house 26, and the controller 7 is respectively connected with the first, The second motor 9, the third motor 16, the fourth motor 36, the linear motor 11, the air purifier 30, the electric valve 5 and the vibration motor 15 are connected.

The use method of the invention comprises the following steps: the controller 7 controls the third motor 16 to start, so that the screw 21 rotates, the screw nut 18 moves up and down, and the right end of the pedal 4 moves upwards; the controller 7 controls the second electromagnetic valve to be powered on or powered off, so that a piston rod of the second air cylinder 13 makes telescopic motion, the right end of the pedal 4 moves upwards, the left end of the pedal 4 inclines downwards, and the right end tilts upwards, and waste on the pedal 4 conveniently slides downwards to fall to the outlet 6; the controller 7 controls the electric valve 5 to open the outlet 6; the controller 7 controls the third cylinder 14 to do telescopic motion, so that the vibration motor 15 moves upwards; the controller 7 controls the vibration motor 15 to start, so that the pedal 4 vibrates, and the waste on the pedal 4 is accelerated to slide down; the controller 7 controls the second motor 9 to start, so that the impeller 8 rotates, and the air circulation under the pedal 4 is accelerated; the controller 7 controls the linear motor 11 to start, so that the moving block 10 moves left and right, and the impeller 8 moves left and right; the controller 7 controls the first motor 2 to start, so that the roller 3 rotates, the belt 27 rotates, and the support plate 24 moves left and right; the controller 7 controls the fourth motor 36 to start, so that the connecting rod 28 rotates, the first sliding block 31 drives the air purifier 30 to rotate on the first sliding rail 34, and the air purifier 30 moves; the controller 7 controls the fifth cylinder 29 to perform telescopic motion, so that the first sliding block 31 moves outwards, the second sliding block 33 is pushed to move on the second sliding rail 32, the air purifier 30 is moved, and the purifying effect in the house 26 is better.

Claims

1. The utility model provides a modularization SPF laboratory animal feeding room, including support (1), first motor (2), gyro wheel (3), step board (4), motorised valve (5), export (6), controller (7), impeller (8), second motor (9), movable block (10), linear electric motor (11), first flake bearing (12), second cylinder (13), third cylinder (14), shock dynamo (15), third motor (16), branch (17), screw (18), second flake bearing (19), fourth cylinder (20), lead screw (21), pillar (22), third flake bearing (23), extension board (24), first cylinder (25), room (26), belt (27), connecting rod (28), fifth cylinder (29), air purifier (30), first slider (31), second slide rail (32), second slider (33), First slide rail (34), spring (35) and fourth motor (36), characterized by: an outlet (6) is arranged on the left side of the house (26), an electric valve (5) is arranged on the outlet (6), a pedal (4) is hinged on the left side in the house (26), two third fisheye bearings (23) are arranged on the right side of the pedal (4), a piston rod of a fourth cylinder (20) is arranged on the third fisheye bearings (23), the fourth cylinder (20) is arranged on a second fisheye bearing (19), the second fisheye bearing (19) is arranged on a support rod (17), the support rod (17) is arranged on a screw nut (18), the screw nut (18) is arranged on a lead screw (21), the upper side and the lower side of the lead screw (21) are respectively arranged on support columns (22), the support columns (22) are arranged on the inner side wall of the house (26), the lower end of the lead screw (21) is connected with a third motor (16) through a coupler, the third motor (16) is arranged in the house (26), more than one first fisheye bearing (12) is arranged below the pedal (4), a piston rod of a second cylinder (13) is arranged on a first fisheye bearing (12), the second cylinder (13) is arranged at the bottom in a house (26), more than one linear motor (11) is arranged at the bottom in the house (26), a moving block (10) is arranged on the linear motor (11), a second motor (9) is arranged on the moving block (10), an impeller (8) is arranged on the second motor (9), the impeller (8) is positioned under a pedal (4), a vibration motor (15) is hinged under the pedal (4), the vibration motor (15) is arranged on a third cylinder (14), the third cylinder (14) is arranged at the bottom in the house (26), a belt (27) is arranged on two rollers (3), the rollers (3) are arranged on a support (1), the shaft of the roller (3) positioned at the left side is connected with a first motor (2) through a coupler, the first motor (2) is arranged on the support (1), the support (1) is arranged at the top in a house (26), two first cylinders (25) are arranged below a belt (27), a support plate (24) is arranged below a piston rod of each first cylinder (25), a fourth motor (36) is arranged below the support plate (24), four connecting rods (28) are arranged on an output shaft of each fourth motor (36), a fifth cylinder (29) is arranged on each connecting rod (28), a first sliding block (31) is arranged on a piston rod of each fifth cylinder (29), the first sliding block (31) is arranged on a first sliding rail (34), each first sliding rail (34) is an approximate circle suitable for rotation and formed by 4 arc-shaped rail connecting springs (35), an air purifier (30) is arranged on each first sliding block (31), each first sliding rail (34) is arranged on a second sliding block (33), each second sliding block (33) is arranged on each second sliding rail (32), each second sliding rail (32) is a linear rail, each second sliding rail (32) is arranged below the support plate (24), install spring (35) between two consecutive first slide rails (34), install on house (26) inside wall controller (7), controller (7) pass through the wire and link to each other with first motor (2), second motor (9), third motor (16), fourth motor (36), linear electric motor (11), air purifier (30), motorised valve (5) and shock dynamo (15) respectively.

2. A modular SPF laboratory animal keeping room according to claim 1, characterized in that: a first electromagnetic valve is arranged in the first air cylinder (25) and is connected with the controller (7) through a lead.

3. A modular SPF laboratory animal keeping room according to claim 1, characterized in that: and a second electromagnetic valve is arranged in the second cylinder (13) and is connected with the controller (7) through a lead.

4. A modular SPF laboratory animal keeping room according to claim 1, characterized in that: and a third electromagnetic valve is arranged in the third cylinder (14) and is connected with the controller (7) through a lead.

5. A modular SPF laboratory animal keeping room according to claim 1, characterized in that: and a fourth electromagnetic valve is arranged in the fourth cylinder (20) and is connected with the controller (7) through a lead.

6. A modular SPF laboratory animal keeping room according to claim 1, characterized in that: and a fifth electromagnetic valve is arranged in the fifth cylinder (29) and is connected with the controller (7) through a lead.