CN208427077U - A kind of bioengineering Reagent Tube storage cabinet - Google Patents

Abstract

The utility model discloses a kind of bioengineering Reagent Tube storage cabinets, including storage cabinet ontology, Reagent Tube and controller, the storage cabinet body interior is equipped with partition, and partition upper surface is equipped with foam-rubber cushion, the storage cabinet body interior, which is located above partition, installs abacus, the Reagent Tube passes through orifice plate and is placed on foam-rubber cushion upper surface, the partition lower surface is equipped with locker, and locker front surface is equipped with cabinet lock, evaporator is installed in the storage cabinet inner body wall, and storage cabinet body interior bottom end is equipped with compressor, the compressor upper surface is connect by connecting tube with evaporator, and compressor side is connected with cooling cylinder by connecting tube, condenser pipe is installed inside the cooling cylinder, the cooling cylinder upper surface is equipped with capillary, the controller is mounted on the side inner wall of storage cabinet ontology, it is described Storage cabinet ontology rear surface corresponds to cooling cylinder position and is equipped with radiator-grid.The utility model temperature is adjustable, and universality is more preferable.

Description

A kind of bioengineering Reagent Tube storage cabinet

Technical field

The utility model relates to bioengineering reagent Techniques of preserving field, specially a kind of bioengineering is saved with Reagent Tube Cabinet.

Background technique

Bioengineering is an emerging comprehensive application branch of learning for starting early 1970s to rise, the birth nineties The bioengineering based on systematology, the i.e. concept of system biological engineering, so-called bioengineering are given birth to, it is considered that be with biology Based on the theory and technology of (microbiology, science of heredity, biochemistry and cytology especially therein), in conjunction with chemical industry, machine The modern engineering technologies such as tool, electronic computer sufficiently use the last word of molecular biology, consciously manipulate inhereditary material, Directionally transformation biology or its function create the new species with super remote edge character in a short time, then anti-by suitable biology Device is answered to cultivate this kind of " engineering bacteria " or " engineering cell strain " on a large scale, to produce a large amount of desirable metabolites or performance Their one emerging technologies of unique physiological function, bioengineering are needed using a large amount of Reagent Tubes, present Reagent Tube storage cabinet Reagent Tube is put in a jumble, and collision is easy to happen between Reagent Tube to be caused to be crushed, and the storage temperature that different biological samples needs Difference, present storage cabinet temperature can not be adjusted, and universality is too poor.

Utility model content

The purpose of this utility model is to provide a kind of bioengineering Reagent Tube storage cabinets, and it is adjustable excellent to have temperature Point solves the different biological reagents of preservation and needs to prepare multiple storage cabinets, and cost is excessively high, problem inconvenient for use.

To achieve the above object, the utility model provides the following technical solutions: a kind of bioengineering Reagent Tube storage cabinet, Including storage cabinet ontology, Reagent Tube and controller, the storage cabinet body interior is equipped with partition, and partition upper surface is equipped with Foam-rubber cushion, the storage cabinet body interior, which is located above partition, installs abacus, and the Reagent Tube passes through orifice plate and is placed on sponge Upper surface is padded, the partition lower surface is equipped with locker, and locker front surface is equipped with cabinet and locks, in the storage cabinet ontology Evaporator is installed, and storage cabinet body interior bottom end is equipped with compressor on wall, the compressor upper surface passes through connecting tube It is connect with evaporator, and compressor side is connected with cooling cylinder by connecting tube, condenser pipe is installed inside the cooling cylinder, and Semiconductor refrigerating agent is installed, the cooling cylinder upper surface is equipped with capillary, and capillary and evaporator connect inside condenser pipe It connects, temperature sensor is installed on the inner wall of storage cabinet ontology side, the controller is mounted on the side of storage cabinet ontology On inner wall, the storage cabinet ontology has been connected by hinge cabinet door, and this body front surface of storage cabinet and cabinet door rear surface are respectively mounted There is sealing strip, the storage cabinet ontology rear surface corresponds to cooling cylinder position and is equipped with radiator-grid, and radiator-grid rear surface is equipped with Strainer, the cabinet door front surface are equipped with control panel, and control panel front surface is equipped with display screen, before the control panel Surface, which is located at below display screen, is equipped with numeric keypad, and control panel front surface is located at numeric keypad side and is equipped with control and opens It closes, the control switch is electrically connected with compressor, semiconductor refrigerating agent, evaporator, the temperature sensor and numeric keypad Output end is electrically connected with the input terminal of controller, the output end and temperature sensor, display screen and control switch of the controller Input terminal electrical connection.

Preferably, the Reagent Tube is equipped with 40 altogether, and 40 Reagent Tube every ten are one group, and every group reagent pipe exists Foam-rubber cushion upper surface is equally spaced.

Preferably, there are four the orifice plate is set altogether, and four orifice plates are equally spaced in storage cabinet body interior.

Preferably, there are two the locker is set altogether, and two lockers are symmetrical about storage cabinet ontology.

Preferably, the semiconductor refrigerating agent is equipped with 14 altogether, and 14 semiconductor refrigerating agent are inside condenser pipe It is equally spaced.

Preferably, the cabinet door front surface is welded with handle.

Preferably, the aperture of the strainer is less than 2.5 microns.

Compared with prior art, the beneficial effects of the utility model are as follows:

1, the utility model has reached the biology according to preservation by setting numeric keypad, controller and temperature sensor Reagent adjusts the effect of temperature, and temperature required for different biological reagents saves is different, is saved in numeric keypad input The temperature that biological reagent needs, numeric keypad transmit signals to controller, and controller transmits signals to temperature sensor, works as temperature When sensor sensing reaches set temperature to storage cabinet ontology, controller is transmitted signals to, controller transmits signals to control and opens It closes, control switch close compressor, semiconductor refrigerating agent and evaporator, use is more convenient, and universality is more preferable.

2, the utility model has achieved the effect that refrigeration by setting compressor, cooling cylinder, capillary and evaporator, will Compressor, semiconductor refrigerating agent and evaporator connect external power supply, open compressor, semiconductor refrigerating agent and evaporator, compression Machine draws the air in storage cabinet ontology, and air enters cooling cylinder by connecting tube, after semiconductor refrigerating agent condensation, passes through hair Tubule enters evaporator, and evaporator evaporates Cryogenic air in storage cabinet body interior, and the decline of storage cabinet body interior temperature makes With more convenient, and refrigeration effect is more preferable.

3, the utility model has achieved the effect that fixating reagent pipe, Reagent Tube pass through hole by setting orifice plate and foam-rubber cushion Plate is placed on foam-rubber cushion, and Reagent Tube can be fixed and put Reagent Tube neatly by orifice plate, will not be piled up, foam-rubber cushion Can be shockproof, reagent bottom of the tube is protected, prevents Reagent Tube broken, preservation effect is more preferable.

4, for the utility model by setting strainer, having reached prevents impurity from entering the examination of storage cabinet bulk contamination by radiator-grid The effect of agent, radiator-grid can shed the high temperature of storage cabinet body interior, and radiator-grid rear surface installs strainer, and aperture of filter screen Less than 2.5 microns, it can prevent impurity from entering storage cabinet bulk contamination reagent by radiator-grid, preservation effect is more preferable.

Detailed description of the invention

Fig. 1 is the schematic view of the front view of the utility model；

Fig. 2 is the backsight schematic cross-sectional view of the utility model；

Fig. 3 is the schematic view of the front view of the utility model；

Fig. 4 is the electrical structure schematic diagram of the utility model.

In figure: 1- storage cabinet ontology；2- foam-rubber cushion；3- Reagent Tube；4- orifice plate；5- partition；6- sealing strip；7- locker； 8- cabinet lock；9- capillary；10- temperature sensor；11- controller；12- cooling cylinder；13- semiconductor refrigerating agent；14- condenser pipe； 15- connecting tube；16- compressor；17- hinge；18- cabinet door；19- handle；20- evaporator；21- radiator-grid；22- strainer；23- control Panel processed；24- display screen；25- numeric keypad；26- control switch.

Specific embodiment

The following will be combined with the drawings in the embodiments of the present invention, carries out the technical scheme in the embodiment of the utility model Clearly and completely describe, it is clear that the described embodiments are only a part of the embodiments of the utility model, rather than whole Embodiment.Based on the embodiments of the present invention, those of ordinary skill in the art are without making creative work Every other embodiment obtained, fall within the protection scope of the utility model.

A kind of embodiment provided by the utility model referring to FIG. 1 to FIG. 4: a kind of bioengineering Reagent Tube storage cabinet, Including storage cabinet ontology 1, Reagent Tube 3 and controller 11, partition 5 is installed, and 5 upper surface of partition is pacified inside storage cabinet ontology 1 Equipped with foam-rubber cushion 2, storage cabinet ontology 1 is internally located above partition 5 installation abacus 4, there are four orifice plate 4 is set altogether, and four holes Plate 4 is equally spaced inside storage cabinet ontology 1, and Reagent Tube 3 passes through orifice plate 4 and is placed on 2 upper surface of foam-rubber cushion, and Reagent Tube 3 is set altogether There are 40, and 40 Reagent Tube 3 every ten are one group, every group reagent pipe 3 is equally spaced in 2 upper surface of foam-rubber cushion, orifice plate 4 Reagent Tube 3 can be fixed and put Reagent Tube 3 neatly, will not piled up, foam-rubber cushion 2 can be shockproof, protects reagent 3 bottom of pipe prevents Reagent Tube 3 broken, and preservation effect is more preferable, and 5 lower surface of partition is equipped with locker 7, and 7 front surface of locker Cabinet lock 8 is installed, there are two locker 7 is set altogether, and two lockers 7 are symmetrical about storage cabinet ontology 1, storage cabinet ontology Evaporator 20 is installed, and 1 inner bottom of storage cabinet ontology is equipped with compressor 16 on 1 inner wall, 16 upper surface of compressor passes through Connecting tube 15 is connect with evaporator 20, and 16 side of compressor is connected with cooling cylinder 12 by connecting tube 15, inside cooling cylinder 12 Condenser pipe 14 is installed, and semiconductor refrigerating agent 13 is installed inside condenser pipe 14, semiconductor refrigerating agent 13 is equipped with 14 altogether, And 14 semiconductor refrigerating agent 13 are equally spaced inside condenser pipe 14,12 upper surface of cooling cylinder is equipped with capillary 9, and hair Tubule 9 is connect with evaporator 20, and compressor 16, semiconductor refrigerating agent 13 and evaporator 20 are connected external power supply, open compression Machine 16, semiconductor refrigerating agent 13 and evaporator 20, compressor 16 draw the air in storage cabinet ontology 1, and air passes through connecting tube 15 enter cooling cylinders 12, after the condensation of semiconductor refrigerating agent 13, enter evaporator 20 by capillary 9, evaporator 20 is by low temperature Air evaporation is inside storage cabinet ontology 1, and the decline of 1 internal temperature of storage cabinet ontology, use is more convenient, and refrigeration effect is more It is good, temperature sensor 10 is installed on 1 side inner wall of storage cabinet ontology, temperature sensor 10 is designed using DS18B20, volume compared with Small, hardware spending is low, and controller 11 is mounted on the side inner wall of storage cabinet ontology 1, and controller 11 is designed using SM-300, body Product is smaller, is easily installed, and storage cabinet ontology 1 is connected with cabinet door 18, and 1 front surface of storage cabinet ontology and cabinet door 18 by hinge 17 Rear surface is mounted on sealing strip 6, and 1 rear surface of storage cabinet ontology corresponds to 12 position of cooling cylinder and is equipped with radiator-grid 21, and radiates 21 rear surface of net is equipped with strainer 22, and less than 2.5 microns, radiator-grid 21 can will be inside storage cabinet ontology 1 in the aperture of strainer 22 High temperature shed, 21 rear surface of radiator-grid installs strainer 22, and 22 aperture of strainer can prevent impurity from passing through less than 2.5 microns Radiator-grid 21 enters storage cabinet ontology 1 and pollutes reagent, and preservation effect is more preferable, and 18 front surface of cabinet door is welded with handle 19, cabinet door 18 Front surface is equipped with control panel 23, and 23 front surface of control panel is equipped with display screen 24, and 23 front surface of control panel is located at Numeric keypad 25 is installed, and 23 front surface of control panel is located at 25 side of numeric keypad and is equipped with control and opens below display screen 24 26 are closed, control switch 26 is electrically connected with compressor 16, semiconductor refrigerating agent 13, evaporator 20, temperature sensor 10 and number key The output end of disk 25 is electrically connected with the input terminal of controller 11, the output end and temperature sensor 10, display screen 24 of controller 11 It is electrically connected with the input terminal of control switch 26, temperature required for different biological reagents saves is different, defeated in numeric keypad 25 Enter the temperature that saved biological reagent needs, numeric keypad 25 transmits signals to controller 11, and controller 11 transmits signals to Temperature sensor 10 transmits signals to controller when temperature sensor 10 senses that storage cabinet ontology 1 reaches set temperature 11, controller 11 transmits signals to control switch 26,26 close compressor 16 of control switch, semiconductor refrigerating agent 13 and evaporator 20, use is more convenient, and universality is more preferable.

Working principle: opening cabinet door 18 by handle 19, and Reagent Tube 3 is passed through orifice plate 4 and is placed on 2 upper surface of foam-rubber cushion, Locker 7 is opened by cabinet lock 8, important biological reagent is put into locker 7, saved life is inputted in numeric keypad 25 The temperature that object reagent needs, numeric keypad 25 transmit signals to controller 11, and controller 11 transmits signals to temperature sensor 10, Compressor 16, semiconductor refrigerating agent 13 and evaporator 20 are connected into external power supply, open control switch 26 manually, compressor 16 is inhaled The air in storage cabinet ontology 1 is taken, air enters cooling cylinder 12 by connecting tube 15, after the condensation of semiconductor refrigerating agent 13, leads to It crosses capillary 9 and enters evaporator 20, evaporator 20 evaporates Cryogenic air inside storage cabinet ontology 1, inside storage cabinet ontology 1 Temperature decline, when temperature sensor 10 senses that storage cabinet ontology 1 reaches set temperature, transmits signals to controller 11, controls Device 11 processed transmits signals to control switch 26,26 close compressor 16 of control switch, semiconductor refrigerating agent 13 and evaporator 20.

It is obvious to a person skilled in the art that the present invention is not limited to the details of the above exemplary embodiments, and And without departing substantially from the spirit or essential attributes of the utility model, it can realize that this is practical new in other specific forms Type.Therefore, in all respects, the present embodiments are to be considered as illustrative and not restrictive, this is practical new The range of type is indicated by the appended claims rather than the foregoing description, it is intended that containing for the equivalent requirements of the claims will be fallen in All changes in justice and range are embraced therein.It should not treat any reference in the claims as limiting Related claim.

Claims (7)

1. a kind of bioengineering Reagent Tube storage cabinet, including storage cabinet ontology (1), Reagent Tube (3) and controller (11), special Sign is: it is equipped with partition (5) inside the storage cabinet ontology (1), and partition (5) upper surface is equipped with foam-rubber cushion (2), it is described Storage cabinet ontology (1) is internally located above partition (5) and installs abacus (4), and the Reagent Tube (3) passes through orifice plate (4) and is placed on Foam-rubber cushion (2) upper surface, partition (5) lower surface are equipped with locker (7), and locker (7) front surface is equipped with cabinet lock (8), it is equipped with evaporator (20) on storage cabinet ontology (1) inner wall, and storage cabinet ontology (1) inner bottom is equipped with compression Machine (16), compressor (16) upper surface are connect by connecting tube (15) with evaporator (20), and compressor (16) side is logical It crosses connecting tube (15) to be connected with cooling cylinder (12), be equipped with condenser pipe (14) inside the cooling cylinder (12), and condenser pipe (14) Inside is equipped with semiconductor refrigerating agent (13), and cooling cylinder (12) upper surface is equipped with capillary (9), and capillary (9) with Evaporator (20) connects, and is equipped with temperature sensor (10) on the inner wall of storage cabinet ontology (1) side, the controller (11) It being mounted on the side inner wall of storage cabinet ontology (1), the storage cabinet ontology (1) is connected with cabinet door (18) by hinge (17), And storage cabinet ontology (1) front surface and cabinet door (18) rear surface are mounted on sealing strip (6), the storage cabinet ontology (1) table afterwards Face corresponds to cooling cylinder (12) position and is equipped with radiator-grid (21), and radiator-grid (21) rear surface is equipped with strainer (22), the cabinet Door (18) front surface is equipped with control panel (23), and control panel (23) front surface is equipped with display screen (24), the control Panel (23) front surface, which is located at below display screen (24), to be equipped with numeric keypad (25), and control panel (23) front surface is located at number Word keyboard (25) side is equipped with control switch (26), the control switch (26) and compressor (16), semiconductor refrigerating agent (13), evaporator (20) is electrically connected, the output end and controller (11) of the temperature sensor (10) and numeric keypad (25) Input terminal electrical connection, output end and temperature sensor (10), the display screen (24) and control switch (26) of the controller (11) Input terminal electrical connection.

2. a kind of bioengineering Reagent Tube storage cabinet according to claim 1, it is characterised in that: the Reagent Tube (3) It is equipped with 40 altogether, and 40 Reagent Tube (3) every ten are one group, every group reagent pipe (3) is equidistant in foam-rubber cushion (2) upper surface Distribution.

3. a kind of bioengineering Reagent Tube storage cabinet according to claim 1, it is characterised in that: the orifice plate (4) is altogether If there are four, and four orifice plates (4) are equally spaced inside storage cabinet ontology (1).

4. a kind of bioengineering Reagent Tube storage cabinet according to claim 1, it is characterised in that: the locker (7) There are two setting altogether, and two lockers (7) are symmetrical about storage cabinet ontology (1).

5. a kind of bioengineering Reagent Tube storage cabinet according to claim 1, it is characterised in that: the semiconductor refrigerating Agent (13) is equipped with 14 altogether, and 14 semiconductor refrigerating agent (13) are equally spaced inside condenser pipe (14).

6. a kind of bioengineering Reagent Tube storage cabinet according to claim 1, it is characterised in that: before the cabinet door (18) Surface is welded with handle (19).

7. a kind of bioengineering Reagent Tube storage cabinet according to claim 1, it is characterised in that: the strainer (22) Aperture is less than 2.5 microns.