CN205856476U - The bacteriological incubator cultivated for variable streptomycete - Google Patents

Abstract

This utility model discloses a kind of bacteriological incubator cultivated for variable streptomycete, including casing, semiconductor cooler, refrigeration air chamber, heat air chamber, first air pump, second air pump, heat exchanging pipe, Temperature Humidity Sensor, control panel and damping device, canyon and culturing room it is provided with in described casing, described semiconductor cooler, described refrigeration air chamber, described heat air chamber, described first air pump, described second air pump and described damping device are respectively provided in described canyon, described heat exchanging pipe and described Temperature Humidity Sensor are respectively provided in described culturing room, described control panel is located on the outer wall of described casing.Humiture in culturing room can be regulated and controled by this utility model, Temperature Humidity Sensor is utilized to monitor in real time cultivating indoor temperature and humidity, and the gas after being heated by air pump or freeze pumps into heat exchanging pipe and realizes temperature adjusting, and utilize damping device that the humidity in culturing room is regulated and controled.

Description

The bacteriological incubator cultivated for variable streptomycete

Technical field

This utility model relates to antibacterial culturing field, more particularly, to a kind of antibacterial cultivated for variable streptomycete Incubator.

Background technology

Bacteriological incubator is that a kind of Experiment on Microbiology indoor are commonly used, and is mainly used in antibacterial culturing.Antibacterial culturing needs Certain temperature humidity range is carried out, and in order to ensure being smoothed out of experiment, need in the culturing room of bacteriological incubator is warm and humid Degree accurately controls.And existing bacteriological incubator, typically just temperature is controlled, and temperature easily occurs bigger model The fluctuation enclosed, the temperature in needing experimenter constantly to check the culturing room of bacteriological incubator, and humidity cannot be carried out Regulation and control.

Utility model content

Because in this, this utility model purpose is that offer is a kind of and can regulate and control the humiture in culturing room The bacteriological incubator cultivated for variable streptomycete, utilize Temperature Humidity Sensor to supervise in real time cultivating indoor temperature and humidity Control, and by air pump, heating or the gas after freezing is pumped into heat exchanging pipe realize temperature adjusting, and utilize damping device to training Support indoor humidity to regulate and control.

For reaching above-mentioned purpose, this utility model uses following technical proposals: the antibacterial cultivated for variable streptomycete is trained Support case, including casing, semiconductor cooler, refrigeration air chamber, heat air chamber, the first air pump, the second air pump, heat exchanging pipe, warm and humid Degree sensor, control panel and damping device, be provided with canyon and culturing room, described semiconductor cooler, institute in described casing State refrigeration air chamber, described in heat air chamber, described first air pump, described second air pump and described damping device be respectively provided at described in set Standby indoor, described heat exchanging pipe and described Temperature Humidity Sensor are respectively provided in described culturing room, and described control panel is located at institute State on the outer wall of casing；Described refrigeration air chamber inlet end is located on the outer wall of described casing, the outlet side of described refrigeration air chamber with The inlet end fluid communication of described first air pump connects, the outlet side of described first air pump and the inlet end stream of described heat exchanging pipe Body conducting connects, and the outlet side of described heat exchanging pipe is located on the outer wall of described casing, the outlet side of described refrigeration air chamber and institute State and be provided with the first electromagnetic valve between the first air pump inlet end；The described inlet end heating air chamber is located on the outer wall of described casing, The inlet end fluid communication of the described outlet side and described first air pump heating air chamber is connected, described in heat the outlet side of air chamber with It is provided with the second electromagnetic valve between described first air pump inlet end；The outlet side of described refrigeration air chamber and described heat giving vent to anger of air chamber End inlet end fluid communication with described second air pump respectively is connected, and the outlet side of described second air pump is located at outside described casing On wall, between outlet side and the inlet end of described second air pump of described refrigeration air chamber, be provided with the 3rd electromagnetic valve, described in heat gas It is provided with the 4th electromagnetic valve between outlet side and the near-end of described second air pump of room；The refrigeration end of described semiconductor cooler is located at In described refrigeration air chamber, described semiconductor cooler heat end be located at described in heat in air chamber；Giving vent to anger of described damping device End is located in described culturing room, and the inlet end of described damping device is located on the outer wall of described casing；Described semiconductor cooler, Described first air pump, described second air pump, described Temperature Humidity Sensor, described damping device, described first electromagnetic valve, described Two electromagnetic valves, described 3rd electromagnetic valve and described 4th electromagnetic valve communicate to connect with described control panel respectively.

The above-mentioned bacteriological incubator cultivated for variable streptomycete, the inlet end of described refrigeration air chamber, described in heat air chamber Inlet end and the inlet end of described damping device be respectively equipped with dedusting film.

The above-mentioned bacteriological incubator cultivated for variable streptomycete, the outlet side of described heat exchanging pipe is provided with bactericidal device, Described bactericidal device communicates to connect with described control panel.

The above-mentioned bacteriological incubator cultivated for variable streptomycete, the outlet side of described refrigeration air chamber and described heat air chamber Outlet side be equipped with temperature sensor, described temperature sensor communicates to connect with described control panel.

The above-mentioned bacteriological incubator cultivated for variable streptomycete, the inlet end of described refrigeration air chamber heats air chamber with described Inlet end fluid communication connect, the inlet end of described refrigeration air chamber is connected with the inlet end fluid communication of described damping device.

The beneficial effects of the utility model are as follows:

1. air is freezed by the refrigeration end utilizing semiconductor cooler, and utilize semiconductor cooler heat end right Air heats, and uses floride-free refrigerating plant, beneficially environmental protection, and utilizes semiconductor cooler realize refrigeration and heat double merit Can, equipment occupation space can be saved.

2. utilize the moisture stable that Temperature Humidity Sensor and damping device can realize in culturing room within the scope of one, Avoid the occurrence of that humidity is too low or the appearance of the most high damp condition being unfavorable for antibacterial culturing, improve the accuracy of experiment.

Accompanying drawing explanation

Fig. 1 is the structural representation of the bacteriological incubator that this utility model is cultivated for variable streptomycete；

Fig. 2 is the fundamental diagram of the bacteriological incubator that this utility model is cultivated for variable streptomycete.

In figure: 1-freezes air chamber；2-heats air chamber；3-semiconductor cooler；4-temperature sensor；5-the 3rd electromagnetic valve； 6-the first electromagnetic valve；7-the second electromagnetic valve；8-the 4th electromagnetic valve；9-the first air pump；10-the second air pump；11-damping device；12- Culturing room；13-heat exchanging pipe；14-Temperature Humidity Sensor；15-bactericidal device；16-dedusting film.

Detailed description of the invention

In order to be illustrated more clearly that this utility model, below in conjunction with preferred embodiments and drawings, this utility model is done into one The explanation of step.Parts similar in accompanying drawing are indicated with identical reference.It will be appreciated by those skilled in the art that following Specifically described content is illustrative and be not restrictive, and should not limit protection domain of the present utility model with this.

As illustrated in fig. 1 and 2, the bacteriological incubator that this utility model is cultivated for variable streptomycete, including casing, quasiconductor Refrigerator 3, refrigeration air chamber 1, heat air chamber the 2, first air pump the 9, second air pump 10, heat exchanging pipe 13, Temperature Humidity Sensor 14, control Panel processed and damping device 11, be provided with canyon and culturing room 12, described semiconductor cooler 3, described refrigeration in described casing Air chamber 1, described in heat air chamber 2, described first air pump 9, described second air pump 10 and described damping device 11 and be respectively provided at described In canyon, described heat exchanging pipe 13 and described Temperature Humidity Sensor 14 are respectively provided in described culturing room 12, described chain of command Plate is located on the outer wall of described casing；Described refrigeration air chamber 1 inlet end is located on the outer wall of described casing, described refrigeration air chamber 1 Outlet side be connected with the inlet end fluid communication of described first air pump 9, the outlet side of described first air pump 9 and described heat exchanger tube The inlet end fluid communication on road 13 connects, and the outlet side of described heat exchanging pipe 13 is located on the outer wall of described casing, described refrigeration It is provided with the first electromagnetic valve 6 between outlet side and described first air pump 9 inlet end of air chamber 1；The described inlet end heating air chamber 2 sets On the outer wall of described casing, described in heat air chamber 2 the inlet end fluid communication of outlet side and described first air pump 9 be connected, It is provided with the second electromagnetic valve 7 between the described outlet side heating air chamber 2 and described first air pump 9 inlet end；Described refrigeration air chamber 1 Outlet side and the described outlet side heating air chamber 2 inlet end fluid communication with described second air pump 10 respectively is connected, and described The outlet side of two air pumps 10 is located on the outer wall of described casing, the outlet side of described refrigeration air chamber 1 and described second air pump 10 Be provided with the 3rd electromagnetic valve 5 between inlet end, described in heat and be provided with between the outlet side of air chamber 2 and the near-end of described second air pump 10 4th electromagnetic valve 8；The refrigeration end of described semiconductor cooler 3 is located in described refrigeration air chamber 1, described semiconductor cooler 3 Heat end be located at described in heat in air chamber 2；The outlet side of described damping device 11 is located in described culturing room 12, described humidification dress Put the inlet end of 11 to be located on the outer wall of described casing；Described semiconductor cooler 3, described first air pump 9, described second air pump 10, described Temperature Humidity Sensor 14, described damping device 11, described first electromagnetic valve 6, described second electromagnetic valve 7, the described 3rd Electromagnetic valve 5 and described 4th electromagnetic valve 8 communicate to connect with described control panel respectively.

Wherein for the taking up room of pipeline in minimizing equipment, the inlet end of described refrigeration air chamber 1 is heated gas with described The inlet end fluid communication of room 2 connects, and by the inlet end fluid of the inlet end of described refrigeration air chamber 1 Yu described damping device 11 Conducting connects, the most described refrigeration air chamber 1, described in heat air chamber 2 and described heater shares an inlet end, and such as Fig. 1 institute Showing, this inlet end is provided with dedusting film 1616.

For the ease of to the control of ambient temperature in described culturing room 12, need described refrigeration air chamber 1 cooling air Temperature or described in heat air chamber 2 and add the temperature of hot-air and control accurately, therefore to described refrigeration air chamber 1 or described The air themperature of the outlet side heating air chamber 2 is monitored, in the present embodiment, in the outlet side of described refrigeration air chamber 1 and described The outlet side heating air chamber 2 is equipped with temperature sensor 4, and described temperature sensor 4 communicates to connect with described control panel.

In order to avoid the gas that carries disease germs in described culturing room 12 is heated or cooling air-flow is blown into laboratory through heat exchanging pipe 13 In inner or outer boundary air, in the present embodiment, it is provided with bactericidal device 15, described bactericidal device in the outlet side of described heat exchanging pipe 13 15 communicate to connect with described control panel, and by the outlet side of the outlet side of described heat exchanging pipe 13 Yu described second air pump 10 It is merged into an outlet side, thus reduces pipeline and take up room, beneficially the miniaturization of equipment.

When utilizing this utility model to carry out antibacterial culturing, when the temperature of described culturing room 12 is on the low side, by described control Panel starts described semiconductor cooler 3, and closes described first electromagnetic valve 6 and described 4th electromagnetism by described control panel Valve 8, and open described second electromagnetic valve 7 and described 3rd electromagnetic valve 5, it is then turned on described first air pump 9 and described second gas Pump 10, the described air heating the interior heating of air chamber 2 is pumped into described heat exchange pipeline to described culturing room by the most described first air pump 9 12 heating, so that the temperature in described culturing room 12 raises.And described in being positioned at, heat the temperature sensor 4 of air chamber 2 outlet side The air themperature that air chamber 2 flows out is heated, such that it is able to need to adjust the width of temperature according to described culturing room 12 described in can monitoring Degree heats in air chamber 2 temperature after air heating described in adjusting, and then makes to adjust to enter to temperature in described culturing room 12 Row accurately adjusts, it is to avoid the rapid heating and cooling impact on antibacterial culturing.When the temperature of described culturing room 12 is higher, then by described Control panel starts described semiconductor cooler 3, and opens described first electromagnetic valve 6 and the described 4th by described control panel Electromagnetic valve 8, simultaneously closes off described second electromagnetic valve 7 and described 3rd electromagnetic valve 5, is then turned on described first air pump 9 and described Second air pump 10, the air after described refrigeration air chamber 1 can be freezed by the most described first air pump 9 pumps into described heat exchange pipeline to institute State culturing room 12 to lower the temperature.

Above-described embodiment of the present utility model is only for clearly demonstrating this utility model example, and is not Restriction to embodiment of the present utility model, for those of ordinary skill in the field, on the basis of described above On can also make other changes in different forms, cannot all of embodiment be given exhaustive here, every genus Obviously changed in what the technical solution of the utility model extended out or change still in protection model of the present utility model The row enclosed.

Claims (5)

1. the bacteriological incubator cultivated for variable streptomycete, it is characterised in that include casing, semiconductor cooler (3), refrigeration Air chamber (1), heat air chamber (2), the first air pump (9), the second air pump (10), heat exchanging pipe (13), Temperature Humidity Sensor (14), control Panel processed and damping device (11), be provided with canyon and culturing room (12), described semiconductor cooler (3), institute in described casing State refrigeration air chamber (1), described in heat air chamber (2), described first air pump (9), described second air pump (10) and described damping device (11) being respectively provided in described canyon, described heat exchanging pipe (13) and described Temperature Humidity Sensor (14) are respectively provided at described training Supporting in room (12), described control panel is located on the outer wall of described casing；Described refrigeration air chamber (1) inlet end is located at described casing Outer wall on, the outlet side of described refrigeration air chamber (1) is connected with the inlet end fluid communication of described first air pump (9), described The outlet side of one air pump (9) is connected with the inlet end fluid communication of described heat exchanging pipe (13), going out of described heat exchanging pipe (13) Gas end is located on the outer wall of described casing, sets between outlet side and described first air pump (9) inlet end of described refrigeration air chamber (1) There is the first electromagnetic valve (6)；The described inlet end heating air chamber (2) is located on the outer wall of described casing, described in heat air chamber (2) Outlet side is connected with the inlet end fluid communication of described first air pump (9), described in heat the outlet side and described first of air chamber (2) The second electromagnetic valve (7) it is provided with between air pump (9) inlet end；The outlet side of described refrigeration air chamber (1) and the described air chamber (2) that heats Outlet side inlet end fluid communication with described second air pump (10) respectively is connected, and the outlet side of described second air pump (10) is located at On the outer wall of described casing, between outlet side and the inlet end of described second air pump (10) of described refrigeration air chamber (1), it is provided with Three electromagnetic valves (5), described in heat and be provided with the 4th electromagnetic valve between the outlet side of air chamber (2) and the near-end of described second air pump (10) (8)；The refrigeration end of described semiconductor cooler (3) is located in described refrigeration air chamber (1), the system of described semiconductor cooler (3) Hot junction heats in air chamber (2) described in being located at；In the outlet side of described damping device (11) is located at described culturing room (12), described in add The inlet end of wet device (11) is located on the outer wall of described casing；Described semiconductor cooler (3), described first air pump (9), institute State the second air pump (10), described Temperature Humidity Sensor (14), described damping device (11), described first electromagnetic valve (6), described Two electromagnetic valves (7), described 3rd electromagnetic valve (5) and described 4th electromagnetic valve (8) communicate to connect with described control panel respectively.

The bacteriological incubator cultivated for variable streptomycete the most according to claim 1, it is characterised in that described refrigeration gas The inlet end of room (1), described in heat air chamber (2) the inlet end of inlet end and described damping device (11) be respectively equipped with dedusting film (16)。

The bacteriological incubator cultivated for variable streptomycete the most according to claim 2, it is characterised in that described heat exchanger tube The outlet side on road (13) is provided with bactericidal device (15), and described bactericidal device (15) communicates to connect with described control panel.

The bacteriological incubator cultivated for variable streptomycete the most according to claim 3, it is characterised in that described refrigeration gas The outlet side of room (1) and the described outlet side heating air chamber (2) are equipped with temperature sensor (4), described temperature sensor (4) with Described control panel communicates to connect.

5. according to the arbitrary described bacteriological incubator cultivated for variable streptomycete of Claims 1 to 4, it is characterised in that institute The inlet end stating refrigeration air chamber (1) is connected with the described inlet end fluid communication heating air chamber (2), described refrigeration air chamber (1) Inlet end is connected with the inlet end fluid communication of described damping device (11).