阅读说明：本技术 一种生物技术用的微生物培养装置 (Microbial cultivation device that biotechnology was used ) 是由 周若兰 于 2021-08-06 设计创作，主要内容包括：本发明涉及一种培养装置,尤其涉及一种生物技术用的微生物培养装置。要解决的技术问题为：提供一种储存效果好,方便操作的生物技术用的微生物培养装置。本发明的技术方案是：一种生物技术用的微生物培养装置,包括有：底座；外壳,底座上设有外壳；密封盖,外壳顶部放置有密封盖；放置组件,外壳内部一侧设有放置组件；培养皿,放置组件上放置有四个培养皿；固定组件,外壳内部下侧设有固定组件。当第二接触板与第一接触板接触时,会带动第一接触板和第一滑动杆向内侧移动,第一滑动杆会带动夹板向内侧移动,第三弹簧发生形变,夹板从而将培养皿进行夹紧,使得培养皿的位置不会发生偏移。(The present invention relates to a culture apparatus, and more particularly, to a microorganism culture apparatus for biotechnology. The technical problem to be solved is as follows: provides a microorganism culture device for biotechnology with good storage effect and convenient operation. The technical scheme of the invention is as follows: a microbiological culture apparatus for biotechnology comprising: a base; the base is provided with a shell; the top of the shell is provided with a sealing cover; the placing component is arranged on one side inside the shell; the four culture dishes are placed on the placing component; fixed subassembly, the inside downside of shell is equipped with fixed subassembly. When the second contact plate contacts with the first contact plate, can drive first contact plate and first slide bar and move to the inboard, first slide bar can drive splint and move to the inboard, and the deformation takes place for the third spring, thereby splint press from both sides the culture dish tightly for the skew can not take place for the position of culture dish.)

1. A microorganism culture apparatus for biotechnology, comprising:

a base (1);

the base (1) is provided with a shell (2);

the top of the shell (2) is provided with a sealing cover (3);

a placing component (5), wherein the placing component (5) is arranged on one side inside the shell (2);

the four culture dishes (4) are placed on the placing component (5);

the fixing component (6) is arranged on the lower side inside the shell (2).

2. A biotechnological microorganism culture device according to claim 1 characterised in that the containing element (5) comprises:

the guide rail (501) is symmetrically arranged in the shell (2);

the rack (502) is arranged between one sides of the guide rails (501) in a sliding mode, and the top of the rack (502) is in contact with the culture dish (4);

a first handle (503), wherein the first handle (503) is arranged on one side of the placing rack (502);

the first spring (504) is connected between the placing rack (502) and the shell (2).

3. A biotechnological microorganism culture device according to claim 2, characterised in that the fixing member (6) comprises:

the inserting rods (601) are symmetrically arranged at the bottom of the placing rack (502);

the first movable frame (602), the first movable frame (602) is arranged at the lower side in the shell (2) in a sliding way;

the second spring (603) is connected between the first movable frame (602) and the shell (2);

the top of the first movable frame (602) is symmetrically provided with a baffle (604), and the baffle (604) is matched with the inserted bar (601).

4. A biotechnological microorganism culture apparatus according to claim 3 characterised in that it also comprises a stabilizing member (7), the stabilizing member (7) comprising:

four pairs of first sliding rods (701) are arranged on the placing rack (502) in a sliding manner at uniform intervals;

the inner sides of the first sliding rods (701) are provided with clamping plates (702);

the outer sides of the first sliding rods (701) are provided with first contact plates (703);

the third springs (704) are connected between the first contact plate (703) and the placing rack (502), and the third springs (704) are respectively sleeved on the first sliding rods (701);

a second contact plate (705) is arranged on one side of the placing rack (502) in a sliding mode, the second contact plate (705) is matched with the first contact plate (703), and the second contact plate (705) is matched with the shell (2);

and a fourth spring (706) is symmetrically connected between the second contact plate (705) and the placing rack (502).

5. A biotechnological microorganism culture apparatus according to claim 4 characterised in that it also comprises a feeding assembly (8), the feeding assembly (8) comprising:

the nutrient solution box (801), and one side in the shell (2) is provided with the nutrient solution box (801);

the inner side of the shell (2) is provided with a first support frame (802);

the piston cylinder (803), there are piston cylinders (803) on the first support frame (802);

a piston rod (804) is arranged on one side of the piston cylinder (803) in a sliding manner;

a one-way water inlet pipe (805), wherein the one-way water inlet pipe (805) is connected between the piston cylinder (803) and the nutrient solution tank (801);

the fifth spring (806) is connected between the piston rod (804) and the piston cylinder (803), and the fifth springs (806) are respectively sleeved on the piston rod (804);

a one-way water outlet pipe (807), wherein one side of the piston cylinder (803) is provided with the one-way water outlet pipe (807);

a second handle (808), and one side of the piston rod (804) is provided with the second handle (808).

6. A biotechnological microorganism culture apparatus according to claim 5, characterised in that it also comprises a locking assembly (9), the locking assembly (9) comprising:

a second support frame (901), wherein the second support frame (901) is arranged on one side in the shell (2);

the ball valve (902) is rotatably arranged on the upper side of the second support frame (901), and the ball valve (902) is matched with the one-way water inlet pipe (805);

a third support frame (906), wherein the third support frame (906) is arranged on one side inside the shell (2);

a driving wheel (903) is rotatably arranged on one side of the third support frame (906), and the driving wheel (903) is also arranged on one side of the ball valve (902);

a torsion spring (904), wherein the torsion spring (904) is connected between the upper side transmission wheel (903) and the second support frame (901), and the torsion spring (904) is sleeved on the ball valve (902);

the belt (905) is connected between the driving wheels (903);

a gear (907), wherein the gear (907) is arranged on one side of the lower side transmission wheel (903);

rack (908), rack (908) are equipped with in rack (502) bottom, and rack (908) and gear (907) are mutually supported.

7. A biotechnological microorganism culture apparatus according to claim 6, characterised in that it also comprises a ventilation assembly (10), the ventilation assembly (10) comprising:

an air inlet fan (1001), wherein the air inlet fan (1001) is arranged on one side of the shell (2);

an exhaust fan (1003), wherein the exhaust fan (1003) is arranged on one side of the shell (2);

the ventilation air pipe (1002) is connected between the air inlet fan (1001) and the exhaust fan (1003).

8. A biotechnological microorganism culture apparatus according to claim 6 characterised in that the second support frame (901) is bolted to the housing (2).

Technical Field

The present invention relates to a culture apparatus, and more particularly, to a microorganism culture apparatus for biotechnology.

Background

In a biological laboratory, some microorganisms are required to be cultured frequently for carrying out a series of experiments, the microorganisms comprise a large group of organisms including bacteria, viruses, fungi and small protozoa, the individuals are small and closely related to human life, the culturing process is generally carried out by a microorganism incubator, and when the existing culturing device is used, the existing culturing device cannot well protect the microorganisms in the using process due to poor ventilation and storage effects, so that the use of a user is inconvenient, and the practicability of the device is reduced.

Therefore, the invention provides a microorganism culture device for biotechnology, which has good storage effect and is convenient to operate.

Disclosure of Invention

In order to overcome the defects that the prior culture device can not well protect microorganisms in the using process due to poor ventilation and storage effects, the technical problem to be solved is as follows: provides a microorganism culture device for biotechnology with good storage effect and convenient operation.

The technical scheme of the invention is as follows: a microbiological culture apparatus for biotechnology comprising: a base; the base is provided with a shell; the top of the shell is provided with a sealing cover; the placing component is arranged on one side inside the shell; the four culture dishes are placed on the placing component; fixed subassembly, the inside downside of shell is equipped with fixed subassembly.

In one embodiment, the placement assembly comprises: the guide rails are symmetrically arranged inside the shell; the rack is arranged between one sides of the guide rails in a sliding manner, and the top of the rack is in contact with the culture dish; a first handle is arranged on one side of the placing rack; the first spring is connected between the placing rack and the shell.

In one embodiment, the fixing assembly comprises: the bottom of the placing rack is symmetrically provided with inserting rods; the lower side in the shell is provided with a first movable frame in a sliding manner; the second spring is connected between the first movable frame and the shell; the baffle, first movable frame top symmetry are equipped with the baffle, mutually support between baffle and the inserted bar.

In one embodiment, the device further comprises a stabilizing component, wherein the stabilizing component comprises: four pairs of first sliding rods are arranged on the placing frame in a sliding manner at uniform intervals; the inner sides of the first sliding rods are provided with clamping plates; the outer sides of the first sliding rods are provided with first contact plates; the third springs are connected between the first contact plate and the placing rack and are respectively sleeved on the first sliding rods; the second contact plate is arranged on one side of the placing frame in a sliding mode, the second contact plate is matched with the first contact plate, and the second contact plate is matched with the shell; and the fourth spring is symmetrically connected between the second contact plate and the placing frame.

In one embodiment, the device further comprises a feeding assembly, wherein the feeding assembly comprises: a nutrient solution box is arranged on one side inside the shell; the inner side of the shell is provided with a first support frame; the first support frame is provided with a piston cylinder; a piston rod is arranged on one side of the piston cylinder in a sliding manner; the one-way water inlet pipe is connected between the piston cylinder and the nutrient solution tank; the piston rod and the piston cylinder are connected with a piston rod through a piston rod; one side of the piston cylinder is provided with a one-way water outlet pipe; and one side of the piston rod is provided with the second handle.

In one embodiment, the locking device further comprises a locking assembly, wherein the locking assembly comprises: a second support frame is arranged on one side inside the shell; the ball valve is rotatably arranged on the upper side of the second support frame and is matched with the one-way water inlet pipe; a third support frame is arranged on one side inside the shell; a driving wheel is rotatably arranged on one side of the third support frame, and a driving wheel is also arranged on one side of the ball valve; the torsional spring is connected between the upper side driving wheel and the second support frame and sleeved on the ball valve; the belt is connected between the transmission wheels; one side of the lower side driving wheel is provided with a gear; the rack, rack are equipped with in rack bottom, mutually support between rack and the gear.

In one embodiment, the air exchange device further comprises an air exchange assembly, wherein the air exchange assembly comprises: an air inlet fan is arranged on one side of the shell; the air extracting fan is arranged on one side of the shell; the air exchange air pipe is connected between the air inlet fan and the exhaust fan.

In one embodiment, the second support frame is connected with the shell through bolts.

The beneficial effects are that: when the second contact plate contacts with the first contact plate, can drive first contact plate and first slide bar and move to the inboard, first slide bar can drive splint and move to the inboard, and the deformation takes place for the third spring, thereby splint press from both sides the culture dish tightly for the skew can not take place for the position of culture dish.

People loosen the second handle, and under the reset action of the fifth spring, the second handle and the piston rod can be driven to move towards the left side, and nutrient solution in the piston cylinder can be sprayed on the culture dish through the one-way water outlet pipe, so that the operation of people is more convenient.

When the rack contacts with the gear, the gear can be driven to rotate ninety degrees in the forward direction, the gear can drive the transmission wheel, the belt and the ball valve to rotate ninety degrees, the torsion spring deforms, and the ball valve does not block the one-way water inlet, so that the convenience for operation of people is improved.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a perspective view of a part of the present invention.

Fig. 3 is a schematic view of the installation of the placement assembly of the present invention.

Fig. 4 is a schematic view of the installation of the fixing assembly of the present invention.

Figure 5 is a schematic view of the installation of the stabilizing assembly of the present invention.

Fig. 6 is an enlarged view of a portion a of the present invention.

Figure 7 is a schematic view of the installation of the charging assembly of the present invention.

Fig. 8 is a schematic view of the installation of the locking assembly of the present invention.

Fig. 9 is an enlarged view of part B of the present invention.

Fig. 10 is a partial perspective view of the locking assembly and placement assembly of the present invention.

Fig. 11 is a schematic view illustrating the installation of the ventilation assembly of the present invention.

In the reference symbols: 1-base, 2-housing, 3-sealing cover, 4-culture dish, 5-placing component, 501-guide rail, 502-placing rack, 503-first handle, 504-first spring, 6-fixing component, 601-inserted link, 602-first movable rack, 603-second spring, 604-baffle, 7-stabilizing component, 701-first sliding rod, 702-clamping plate, 703-first contact plate, 704-third spring, 705-second contact plate, 706-fourth spring, 8-feeding component, 801-nutrient solution box, 802-first support, 803-piston cylinder, 804-piston rod, 805-one-way water inlet pipe, 806-fifth spring, 807-one-way water outlet pipe, 808-second handle, 9-locking component, 901-second support frame, 902-ball valve, 903-transmission wheel, 904-torsion spring, 905-belt, 906-third support frame, 907-gear, 908-rack, 10-ventilation component, 1001-air intake fan, 1002-ventilation air pipe and 1003-exhaust fan.

Detailed Description

Embodiments of the present invention will be described in detail below with reference to the accompanying drawings.

Example 1

A microorganism culture device for biotechnology, as shown in fig. 1-4, comprises a base 1, a shell 2, a sealing cover 3, culture dishes 4, a placing component 5 and a fixing component 6, wherein the base 1 is provided with the shell 2, the top of the shell 2 is provided with the sealing cover 3, the front side inside the shell 2 is provided with the placing component 5, the placing component 5 is provided with four culture dishes 4, and the lower side inside the shell 2 is provided with the fixing component 6.

The placing component 5 comprises a guide rail 501, a placing rack 502, a first handle 503 and a first spring 504, the guide rail 501 is symmetrically arranged on the left and right sides inside the casing 2, the placing rack 502 is slidably arranged between the front sides of the guide rails 501, the top of the placing rack 502 is in contact with the culture dish 4, the first handle 503 is arranged on the front side of the placing rack 502, and the first spring 504 is connected between the placing rack 502 and the casing 2.

The fixing component 6 comprises an inserting rod 601, a first movable frame 602, a second spring 603 and a baffle 604, the inserting rod 601 is arranged at the bottom of the placing frame 502 in a bilateral symmetry manner, the first movable frame 602 is arranged at the lower side inside the shell 2 in a sliding manner, the second spring 603 is connected between the first movable frame 602 and the shell 2, the baffle 604 is arranged at the top of the first movable frame 602 in a bilateral symmetry manner, and the baffle 604 and the inserting rod 601 are matched with each other.

When people need to store, the first handle 503 is pushed to the rear side, the first handle 503 drives the rack 502 and the culture dishes 4 to move to the rear side, the first spring 504 deforms, the rack 502 drives the inserted bar 601 to move to the rear side, when the inserted bar 601 contacts with the baffle 604, the baffle 604 drives the baffle 604 to move downwards, the baffle 604 drives the first movable frame 602 to move downwards, the second spring 603 deforms, when the inserted bar 601 continues to move to the rear side and is separated from the baffle 604, the baffle 604 and the first movable frame 602 are driven to move upwards due to the reset action of the second spring 603, the baffle 604 blocks the inserted bar 601 and the rack 502, when people need to take out the culture dishes 4, the first movable frame 602 moves downwards, the first movable frame 602 drives the baffle 604 to move downwards, when the baffle 604 is disengaged from the rod 601, the rack 502 and the culture dish 4 are driven to move forward to be reset due to the reset action of the first spring 504.

Example 2

On the basis of embodiment 1, as shown in fig. 5 to 11, the rack further includes a stabilizing assembly 7, the stabilizing assembly 7 includes a first sliding rod 701, a clamping plate 702, a first contact plate 703, a third spring 704, a second contact plate 705 and a fourth spring 706, four pairs of first sliding rods 701 are slidably disposed on the rack 502 at regular intervals, the clamping plate 702 is disposed on the inner side of each first sliding rod 701, the first contact plate 703 is disposed on the outer side of each first sliding rod 701, the third spring 704 is connected between the first contact plate 703 and the rack 502, the third spring 704 is respectively sleeved on the first sliding rods 701, a second contact plate 705 is slidably disposed on the rear side of the rack 502, the second contact plate 705 is matched with the first contact plate 703, the second contact plate 705 is matched with the housing 2, and the fourth spring 706 is symmetrically connected between the second contact plate 705 and the rack 502.

When the rack 502 moves to the rear side, the second contact plate 705 is driven to move to the rear side, when the second contact plate 705 contacts with the housing 2, the second contact plate 705 is driven to move to the front side, the fourth spring 706 deforms, when the second contact plate 705 contacts with the first contact plate 703, the first contact plate 703 and the first sliding rod 701 are driven to move to the inner side, the first sliding rod 701 drives the clamping plate 702 to move to the inner side, the third spring 704 deforms, the clamping plate 702 clamps the culture dish 4, so that the position of the culture dish 4 cannot be deviated, when the rack 502 moves to the front side, the second contact plate 705 is driven to move to the front side, when the second contact plate 705 separates from the housing 2, the second contact plate 705 is driven to move to the rear side due to the resetting effect of the fourth spring 706, when the second contact plate 705 separates from the first contact plate 703, the resetting effect of the third spring 704, the first sliding rod 701, the clamping plate 702 and the first contact plate 703 are driven to move outwards to be reset.

The feeding device comprises a feeding assembly 8, wherein the feeding assembly 8 comprises a nutrient solution tank 801, a first support frame 802, a piston cylinder 803, a piston rod 804, a one-way water inlet pipe 805, a fifth spring 806, a one-way water outlet pipe 807 and a second handle 808, the nutrient solution tank 801 is arranged on the rear side inside the shell 2, the first support frame 802 is arranged on the inner side inside the shell 2, the piston cylinder 803 is arranged on the first support frame 802, the piston rod 804 is arranged on the right side of the piston cylinder 803 in a sliding manner, the one-way water inlet pipe 805 is connected between the piston cylinder 803 and the nutrient solution tank 801, the fifth spring 806 is connected between the piston rod 804 and the piston cylinder 803, the fifth spring 806 is respectively sleeved on the piston rod 804, the one-way water outlet pipe 807 is arranged on the front side of the piston cylinder 803, and the second handle 808 is arranged on the right side of the piston rod 804.

People pour nutrient solution into nutrient solution case 801, then to right side pulling second handle 808, second handle 808 can drive piston rod 804 and remove to the right side, fifth spring 806 takes place deformation, nutrient solution in the nutrient solution case 801 can get into piston cylinder 803 through one-way inlet tube 805 this moment, people loosen second handle 808, because under the reset action of fifth spring 806, can drive second handle 808 and piston rod 804 and remove to the left side, nutrient solution in the piston cylinder 803 can spray on culture dish 4 through one-way outlet pipe 807, thereby make people's operation more convenient.

The water-cooled water heater further comprises a locking assembly 9, the locking assembly 9 comprises a second support frame 901, a ball valve 902, a transmission wheel 903, a torsion spring 904, a belt 905, a third support frame 906, a gear 907 and a rack 908, the second support frame 901 is arranged on the upper left side inside the shell 2, the ball valve 902 is rotatably arranged on the upper side of the second support frame 901, the ball valve 902 is matched with the one-way water inlet pipe 805, the third support frame 906 is arranged on the lower left side inside the shell 2, the transmission wheel 903 is rotatably arranged on the left side of the third support frame 906, the transmission wheel 903 is also arranged on the left side of the ball valve 902, the torsion spring 904 is connected between the upper transmission wheel 903 and the second support frame 901, the torsion spring 904 is sleeved on the ball valve 902, the belt 905 is connected between the transmission wheels 903, the gear 907 is arranged on the right side of the lower transmission wheel 903, the rack 908 is arranged at the bottom of the placing frame 502, and the rack 908 are matched with the gear 907.

Under the initial condition, ball valve 902 can block one-way inlet tube 805, when rack 502 moves to the rear side, can drive rack 908 and move to the rear side, when rack 908 and gear 907 contact, can drive gear 907 forward rotation ninety degrees, gear 907 can drive wheel 903, belt 905 and ball valve 902 rotate ninety degrees, torsional spring 904 takes place the deformation, ball valve 902 then no longer blocks one-way inlet tube 805 this moment, thereby the convenience of people's operation has been improved, when rack 502 moves to the front side, can drive gear 907 moves to the front side, when rack 908 moves to the front side and gear 907 contact, can drive wheel 903, belt 905 and ball valve 902 reverse rotation ninety degrees, torsional spring 904 resets, ball valve 902 can continue to block one-way inlet tube 805 this moment.

The air exchange component 10 is further included, the air exchange component 10 includes an air inlet fan 1001, an air exchange air pipe 1002 and an air exhaust fan 1003, the air inlet fan 1001 is arranged on the right side of the shell 2, the air exhaust fan 1003 is arranged on the left side of the shell 2, and the air exchange air pipe 1002 is connected between the air inlet fan 1001 and the air exhaust fan 1003.

When the air intake fan 1001 and the air exhaust fan 1003 are activated, the ventilation air pipe 1002 circulates the air in the casing 2, thereby improving the efficiency of the microbial cultivation.

The embodiments described above are provided to enable persons skilled in the art to make or use the invention and that modifications or variations can be made to the embodiments described above by persons skilled in the art without departing from the inventive concept of the present invention, so that the scope of protection of the present invention is not limited by the embodiments described above but should be accorded the widest scope consistent with the innovative features set forth in the claims.