CN117192059A - Biochemical incubator for water analysis - Google Patents

Abstract

The invention relates to the technical field of biochemical incubator, in particular to a biochemical incubator for water analysis. The invention provides a biochemical incubator for water analysis, which can absorb shock of the incubator when the incubator is ventilated. The utility model provides a biochemical incubator for water analysis, includes the incubator, the incubator rigid coupling has a plurality of guide rails, on the same horizon the joint has the rack that is used for placing the culture dish between the guide rail, the incubator is close to the equal rotation in both sides of guide rail is connected with many the rotary rod, the rotation is connected with first swivel mount on the rotary rod, the rotary rod rigid coupling has the second connecting block. Through ventilating from the incubator left and right sides, the inside and outside air flow of incubator of being convenient for can reduce the impact of air current to the incubator to can reduce the vibrations of incubator, do benefit to the shock attenuation to the incubator, thereby can improve the culture dish culture effect.

Description

Biochemical incubator for water analysis

Technical Field

The invention relates to the technical field of biochemical incubator, in particular to a biochemical incubator for water analysis.

Background

The biochemical incubator is an important test device applied to epidemic prevention and environmental protection, and is often used for culturing test water when a water body analysis experiment is carried out.

Patent publication number is CN 214400489U's patent discloses a biochemical incubator of constant temperature, the power distribution box comprises a box body, the roof central point department of box installs constant temperature electric plate, and slides between the both sides inner wall top of box symmetry and peg graft there is the thermostatic plate, the top face one side of thermostatic plate is annular array and opens there is the through-hole, and the top face opposite side of thermostatic plate opens there is the mounting groove, the welding has the connecting bucket on the thermostatic plate of mounting groove bottom, the bottom welding of connecting bucket has the connecting pipe, be provided with out the tuber pipe on the connecting pipe, the central point department of box slides and peg graft there is the plywood, and opens a side bottom of box has the ventilation groove, all be provided with the steady rest that is the U style of calligraphy on the top face of plywood and the diapire of box.

In the process of using the above patent, the baffle in the ventilation slot is sheltered from, there is the air circulation flow in the box, when needs are to be to the inside ventilation of box for the baffle does not shelter from the ventilation slot, because the ventilation slot export is narrow and small, the air gathers towards the ventilation slot, and the air velocity of flow of ventilation slot department is relatively fast, and the air velocity of flow is uneven, and the box produces easily and rocks, probably leads to the culture dish to rock, influences the culture effect of the material in the culture dish, to this problem, we have designed one kind when ventilating the incubator, can carry out the biochemical incubator for the absorbing water analysis to the incubator.

Disclosure of Invention

In order to overcome the defect that the incubator in the prior art has high possibility of shaking during ventilation, the invention provides the biochemical incubator for water analysis, which can absorb shock of the incubator during ventilation of the incubator.

The utility model provides a biochemical incubator for water analysis, includes the incubator, incubator rotation type is connected with the door of opening and shutting, the incubator rigid coupling has a plurality of guide rails, on the same horizon the joint has the rack that is used for placing the culture dish between the guide rail, the even rigid coupling of rack has the division board, the division board will the rack is divided into a plurality of independent spaces, still including the rotary rod, the incubator is close to the equal rotation type in both sides of guide rail is connected with many the rotary rod, rotation type is connected with first swivel mount on the rotary rod, the rotary rod with the rigid coupling has first torsional spring between the first swivel mount, the rotary rod rigid coupling has the second connecting block, the second connecting block rotation type is connected with first connecting block, and is adjacent the rotation type is connected with the movable rod between the first connecting block, the incubator joint has first elastic expansion link, the movable rod with first elastic expansion link slidingtype is connected, the incubator is kept away from one side of opening and shutting the door is opened and is used for fixing a plurality of ladder elastic expansion link, a self-elastic spring takes the flexible groove.

Further, the middle part of the opening and closing door is provided with a glass window for observing the condition of the incubator in real time.

Further, the sliding connection part of the guide rail and the placing frame is made of damping materials.

Further, still including first damping spring bumper shock absorber, a plurality of first damping spring bumper shock absorber all rigid coupling in the incubator is close to the both sides of first swivel mount, first damping spring bumper shock absorber is from taking the spring, and is adjacent fixed mounting has the buffer board between the first damping spring bumper shock absorber, it has a plurality of bar through-holes to open on the buffer board, the incubator is close to both sides of first swivel mount all rigid coupling has a plurality of guide arms, guide arm symmetry slidingtype is connected with the second movable block, the second movable block rotation type is connected with first movable block, first movable block is adjacent with the buffer board rotation type is connected, the guide arm rigid coupling has the second damping spring bumper shock absorber, second damping spring bumper shock absorber both ends all with adjacent the second movable block rigid coupling.

Further, the buffer plate is further provided with an unfolding assembly, the unfolding assembly is arranged on the buffer plate and comprises an extrusion block, the extrusion block is fixedly connected with the buffer plate, the extrusion block is contacted with the adjacent first rotating frame, the first rotating frame is fixedly connected with two fixing blocks, and a connecting frame is rotatably connected between the adjacent fixing blocks.

Further, still including the pivot, open and shut the door rigid coupling have the pivot, the pivot rigid coupling in open and shut the door, the incubator rotation type is connected with the lead screw, the lead screw also rigid coupling has the gear, two gear engagement, the guide rail with the lead screw rotation type is connected, the lead screw threaded connection has two shielding plates, the shielding plate with the rack is alternate to be distributed, the incubator keep away from one side rigid coupling of lead screw has the dead lever, the shielding plate with the dead lever slidingtype connection, the guide rail with the dead lever slidingtype connection.

Further, the incubator further comprises a connecting plate, the connecting plate is symmetrically fixedly arranged at the bottom of the incubator, the connecting plate is rotationally connected with a second rotating frame, the second rotating frame is rotationally connected with a supporting block, the supporting block is rotationally connected with a third rotating frame, the third rotating frame is rotationally connected with an adjacent connecting plate, a third damping spring shock absorber is rotationally connected on the connecting plate, and the third damping spring shock absorber is rotationally connected with the adjacent connecting plate.

Further, the bottom of the supporting block is uniformly carved with strip patterns for increasing friction force.

Further, the incubator further comprises a fourth rotating frame, the fourth rotating frame is symmetrically connected to the two sides, close to the buffer plate, of the incubator, the fourth rotating frame is in contact with the buffer plate, a second torsion spring is fixedly connected between the fourth rotating frame and the incubator, the incubator is close to the two sides, close to the buffer plate, of the incubator, connecting rods are fixedly connected with the fourth damping spring shock absorbers in a sliding mode, the fourth damping spring shock absorbers are provided with springs, two rotating blocks are connected to the fourth damping spring shock absorbers in a rotating mode, and the rotating blocks are connected with the adjacent fourth rotating frame in a rotating mode.

Further, still including the third connecting block, a plurality of the third connecting block rigid coupling in the rack, the third connecting block with the division board is alternate to be distributed, the third connecting block rigid coupling has the second elasticity telescopic link, the second elasticity telescopic link is from taking the spring, second elasticity telescopic link fixed mounting has splint.

The invention has the beneficial effects that:

1. the first rotating frame is driven to rotate and spread, so that ventilation and ventilation are conveniently carried out inside the incubator, and the culture dish can be provided with proper humidity and oxygen concentration, thereby being beneficial to carrying out culture experiments on the culture dish;

2. through ventilating from the left side and the right side of the incubator, air inside and outside the incubator is convenient to flow, and the impact of air flow on the incubator can be reduced, so that the vibration of the incubator can be reduced, the incubator is favorably damped, and the culture dish culture effect can be improved;

3. the ventilation degree in the incubator can be adjusted by adjusting the rotation unfolding degree of the first rotating frame, so that the practicability is higher;

4. the incubator is buffered and protected by moving the first elastic telescopic rod inwards and outwards, so that the incubator can be prevented from shaking, the stability of the incubator is enhanced, and the culture effect of substances in the culture dish is improved;

5. the top of the screw rod is covered by the cover plate, so that the culture dish can be prevented from falling out of the placement frame, the substances in the culture dish can be stably cultured, and the culture effect is improved;

6. the third damping spring damper is used for buffering and damping the connecting plate, so that the incubator can be buffered and damped, and the culture effect of substances in the culture dish can be improved;

7. the buffer plate is buffered through the elastic force of the spring of the fourth damping spring damper, so that the buffer plate can be prevented from impacting the incubator, the incubator can be damped, the incubator can be prevented from shaking, and the culture effect of articles in the culture dish can be improved;

8. the culture dish is clamped and fixed through the clamping plates, so that shaking of the culture dish can be avoided, stable culture of substances in the culture dish is facilitated, and the culture effect of the substances in the culture dish can be improved.

Drawings

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

Fig. 2 is a perspective structural sectional view showing an opened state of the opening and closing door of the present invention.

Fig. 3 is a schematic perspective view of the guide rail, the placement frame, the partition plate and the like.

Fig. 4 is a schematic perspective view of a rotating rod, a first rotating frame, a first torsion spring and the like.

Fig. 5 is a schematic perspective view of a second connecting block, a moving rod, a first elastic telescopic rod and the like according to the present invention.

Fig. 6 is a schematic perspective view of a first elastic telescopic rod and a unfolding assembly according to the present invention.

Fig. 7 is a schematic perspective view of a buffer plate, a first elastic telescopic rod, a first moving block and the like according to the present invention.

Fig. 8 is a schematic perspective view of a fixing block, a buffer plate, an extrusion block and the like according to the present invention.

Fig. 9 is a schematic diagram of a three-dimensional structure of a rotating shaft, a gear, a screw rod and the like.

Fig. 10 is a schematic perspective view of a screw, a cover plate, a fixing rod and the like according to the present invention.

Fig. 11 is a schematic perspective view of a connection plate, a second rotating frame, a support block and the like according to the present invention.

Fig. 12 is a schematic perspective view of a support block, a third rotating frame, a third damping spring shock absorber, and the like according to the present invention.

Fig. 13 is a schematic perspective view of a fourth rotating frame, a second torsion spring, a rotating block, and the like.

Fig. 14 is a schematic perspective view of a fourth damper spring shock absorber, a rotating block, a connecting rod, and the like according to the present invention.

Fig. 15 is a schematic perspective view of the clamping plate, the second elastic telescopic rod, the third connecting block and the like according to the present invention.

Fig. 16 is a schematic perspective view of the partition plate, the clamping plate, the second elastic telescopic rod and the like according to the present invention.

Meaning of reference numerals in the drawings: 1_incubator, 2_shutter, 3_rail, 4_rack, 5_splitter plate, 6_rotating lever, 7_first rotating frame, 8_first torsion spring, 9_first link, 10_second link, 11_moving lever, 12_first elastic expansion link, 13_fixed block, 14_link, 15_buffer plate, 16_first damping spring damper, 17_first moving block, 18_second moving block, 19_guide bar, 20_second damping spring damper, 21_extrusion block, 22_rotating shaft, 23_gear, 24_lead screw, 25_shutter plate, 26_link, 27_link, 28_second rotating frame, 29_support block, 30_third rotating frame, 31_third damping spring damper, 32_fourth rotating frame, 33_second torsion spring, 34_fourth damping spring damper, 35_rotating block, 36_link, 37_clamp plate, 38_second elastic expansion link, 39_third link.

Detailed Description

The invention is further described below with reference to the drawings and examples.

Example 1

The biochemical incubator for water analysis comprises an incubator 1, wherein the left side and the right side of the incubator 1 are respectively provided with an opening, the right front part of the incubator 1 is rotatably connected with an opening and closing door 2, the middle part of the opening and closing door 2 is provided with a glass window, so that the internal condition of the incubator 1 is convenient to observe in real time, a guide rail 3 is symmetrically and fixedly connected on the left part and the inner right part in the incubator 1 up and down, a placing rack 4 for placing a culture dish is clamped between the guide rails 3 on the same horizontal line, the sliding connection parts of the guide rail 3 and the placing rack 4 are made of damping materials, the placing rack 4 is prevented from shaking at will, the stability of the placing rack 4 is enhanced, the culture effect of substances in the culture dish is improved, a partition plate 5 is uniformly and fixedly connected inside the placing rack 4 from front to back, the separation plate 5 separates the placing frame 4 into 8 independent spaces, the upper parts of the left side and the right side of the incubator 1 are respectively connected with a plurality of rotating rods 6 in a rotating way from top to bottom, the rotating rods 6 are respectively connected with a first rotating frame 7 in a rotating way, a first torsion spring 8 is fixedly connected between the rotating rods 6 and the first rotating frame 7, the rear parts of the rotating rods 6 are respectively fixedly connected with a second connecting block 10, the lower parts of the second connecting blocks 10 are respectively connected with a first connecting block 9 in a rotating way, a moving rod 11 is respectively connected between the first connecting blocks 9 on the left side in a rotating way, a first elastic telescopic rod 12 is clamped at the rear part of the incubator 1, the moving rod 11 is respectively connected with the first elastic telescopic rod 12 in a sliding way, a plurality of trapezoid grooves for fixing the first elastic telescopic rod 12 are formed at the rear part of the incubator 1, the first elastic telescopic rod 12 is internally provided with a spring.

When the water body analysis experiment is carried out, a culture dish can be placed in the biochemical incubator 1 for water body analysis to carry out the culture experiment, people firstly open the opening and closing door 2, pull the placing frame 4 forwards, place the culture dish in the placing frame 4, as the dividing plate 5 divides the placing frame 4 into a plurality of independent spaces, at most 8 culture dishes can be placed in the placing frame 4, then the placing frame 4 is pushed back to the original position, then the opening and closing door 2 is closed to electrify the incubator 1, the incubator 1 provides proper temperature for the culture dish, so that the culture treatment is carried out on substances in the culture dish, during the treatment of the culture dish, people can push the first elastic telescopic rod 12 upwards, as the first elastic telescopic rod 12 is positioned in the trapezoid groove on the incubator 1, the telescopic part of the first elastic telescopic rod 12 is stressed to shrink, the spring carried by the first elastic telescopic rod 12 is compressed, the first elastic telescopic rod 12 drives the moving rod 11 to move upwards, the moving rod 11 moves outwards to be unfolded under the extrusion of the second connecting block 10, the moving rod 11 moves upwards to enable the second connecting block 10 to rotate through the first connecting block 9, the second connecting block 10 enables the rotating rod 6 to rotate, the rotating rod 6 enables the first rotating frame 7 to rotate to be unfolded through the first torsion spring 8, thereby being convenient for ventilating and ventilating the interior of the culture box 1, providing proper humidity and oxygen concentration for the culture box, facilitating culture experiments on the culture box, in addition, through ventilating from the left side and the right side of the culture box 1, facilitating air flow inside and outside the culture box 1, reducing the impact of air flow on the culture box 1, reducing the vibration of the culture box 1, facilitating shock absorption on the culture box 1, thereby being capable of improving culture effect of the culture box, the higher the upward movement of the first elastic telescopic rod 12, the moving rod 11 makes the rotation angle of the second connecting block 10 bigger through the first connecting block 9, the rotation angle of the second connecting block 10 makes the rotation angle of the rotating rod 6 bigger, the rotation expansion degree of the first rotating frame 7 is bigger through the first torsion spring 8 by the rotating rod 6, thereby the ventilation degree of the interior of the incubator 1 can be adjusted, the practicability is stronger, when the first elastic telescopic rod 12 moves upwards to the required height, the spring return of the first elastic telescopic rod 12 self-contained makes the telescopic part of the first elastic telescopic rod 12 extend, thereby the first elastic telescopic rod 12 is clamped in the corresponding trapezoid groove on the incubator 1, when ventilation and ventilation are not needed to be carried out on the interior of the incubator 1, the first elastic telescopic rod 12 is pulled downwards, the telescopic part of the first elastic telescopic rod 12 is stressed and contracted, the spring from the area of first elastic expansion link 12 is compressed, first elastic expansion link 12 drives movable rod 11 downward movement, movable rod 11 makes second connecting block 10 reverse through first connecting block 9, second connecting block 10 makes rotary rod 6 reverse, rotary rod 6 makes first swivel mount 7 reverse through first torsional spring 8 close, when first elastic expansion link 12 moves down and resets, the spring from the area of first elastic expansion link 12 resets and makes the expansion portion of first elastic expansion link 12 extend, thereby make first elastic expansion link 12 card in the trapezoidal channel of incubator 1 below, after the material culture in the culture dish finishes, carry out the outage to incubator 1, after the temperature is close ambient temperature in the incubator 1, open and shut door 2, take away the culture dish, close and open and shut door 2 can.

Example 2

On the basis of embodiment 1, as shown in fig. 1, 7 and 8, the incubator further comprises a first damping spring damper 16, the first damping spring damper 16 is fixedly connected to the upper portion and the lower portion of the left side and the right side of the incubator 1, springs are respectively arranged in the first damping spring damper 16, a buffer plate 15 is fixedly arranged between the first damping spring dampers 16 on the left side, a plurality of strip-shaped through holes are respectively formed in the buffer plate 15, a plurality of guide rods 19 are respectively fixedly connected to the left side and the right side of the incubator 1 from top to bottom, a second moving block 18 is respectively connected to the front side and the rear side of the guide rods 19 in a sliding mode, a first moving block 17 is respectively connected to the second moving block 18 in a rotating mode, a second damping spring damper 20 is respectively fixedly connected to the first moving block 17 and the buffer plate 15, and a second damping spring damper 20 is respectively fixedly connected to the two ends of the second moving block 18, and the second damping spring damper 20 is respectively connected to the front side and the rear side of the second moving block 18.

As shown in fig. 6 and 8, the buffer plate 15 is further provided with an unfolding assembly, the unfolding assembly comprises extrusion blocks 21, the extrusion blocks 21 are fixedly connected to the buffer plate 15, the extrusion blocks 21 are contacted with the adjacent first rotating frame 7, two fixing blocks 13 are fixedly connected to the inner side of the first rotating frame 7, a connecting frame 14 is rotatably connected between the fixing blocks 13 on the left side, and a connecting frame 14 is rotatably connected between the fixing blocks 13 on the right side.

When the incubator 1 is accidentally impacted by the outside, the shaking of the incubator 1 can affect the culture effect of substances in the culture dish, so that the incubator 1 needs to be buffered and damped, when the buffer plate 15 is impacted, the buffer plate 15 moves inside and outside, the first damping spring damper 16 deforms adaptively with the own spring, the first damping spring damper 16 moves inside and outside to buffer and protect the incubator 1, the incubator 1 is prevented from shaking, the stability of the incubator 1 is enhanced, the culture effect of the substances in the culture dish is improved, the buffer plate 15 moves inside and outside to enable the second moving block 18 to move inside and outside through the first moving block 17, the second damping spring damper 20 deforms adaptively, so that the incubator 1 can be further buffered, further, the incubator 1 can be further prevented from shaking, the culture effect of substances in the culture dish can be further improved, the buffer plate 15 moves inwards to drive the extrusion block 21 to move inwards, the extrusion block 21 moves inwards to push the adjacent first rotating frame 7 to rotate, the adjacent first rotating frame 7 rotates and is opened through the fixed block 13 and the connecting frame 14, the rest first rotating frame 7 rotates and is subjected to torsion deformation, the incubator 1 can be ventilated and damped through the first rotating frame 7, the culture effect of the substances in the culture dish can be improved, the buffer plate 15 moves outwards to drive the extrusion block 21 to move outwards, the extrusion block 21 loosens the adjacent first rotating frame 7, the first torsion spring 8 resets to enable the first rotating frame 7 to reversely reset, and accordingly the fixed block 13 and the connecting frame 14 move and reset.

As shown in fig. 1, fig. 2, fig. 9 and fig. 10, the incubator further comprises a rotating shaft 22, the rotating shaft 22 is fixedly connected to the right upper portion of the opening and closing door 2, a gear 23 is fixedly connected to the upper portion of the rotating shaft 22, a screw rod 24 is rotatably connected to the right front side inside the incubator 1, the gear 23 is fixedly connected to the upper portion of the screw rod 24, the two gears 23 are meshed, the guide rail 3 is rotatably connected with the screw rod 24, the upper portion and the lower portion of the screw rod 24 are respectively and spirally connected with a cover plate 25, the cover plates 25 and the placing frames 4 are alternately distributed from top to bottom, a fixing rod 26 is fixedly connected to the left front side inside the incubator 1, the cover plates 25 are respectively and slidably connected with the fixing rod 26, and the guide rail 3 is respectively and slidably connected with the fixing rod 26.

In order to avoid shaking out of the culture dish in rack 4, need shelter from rack 4 top, when opening and shutting door 2 rotates and open, door 2 makes pivot 22 rotate to make lead screw 24 rotate through the meshing of gear 23, lead screw 24 rotates and makes shielding plate 25 upwards remove, shielding plate 25 no longer covers rack 4, in the in-process of putting the culture dish into rack 4, reverse closing door 2, door 2 makes pivot 22 reverse, thereby make lead screw 24 reverse through the meshing of gear 23, lead screw 24 reverse makes shielding plate 25 downwardly movable, shielding plate 25 covers the top of lead screw 24, so can avoid the culture dish to drop out of rack 4, do benefit to and cultivate the material in the culture dish steadily, improve the culture effect.

As shown in fig. 1, fig. 2, fig. 11 and fig. 12, the incubator further comprises a connecting plate 27, the connecting plate 27 is fixedly installed on the left side and the right side of the bottom of the incubator 1, a second rotating frame 28 is rotatably connected to the connecting plate 27, a supporting block 29 is rotatably connected to the lower portion of the second rotating frame 28, stripe patterns for increasing friction force are uniformly engraved on the bottom of the supporting block 29, a third rotating frame 30 is rotatably connected to the inner side of the supporting block 29, the third rotating frame 30 is rotatably connected to the adjacent connecting plate 27, a third damping spring damper 31 is rotatably connected to the adjacent connecting plate 27, and the third damping spring damper 31 is rotatably connected to the adjacent connecting plate 27.

In order to further shock attenuation to incubator 1, the stability of reinforcing incubator 1 can follow the bottom of incubator 1 and cushion and support incubator 1, and when incubator 1 takes place to rock, connecting plate 27 takes place to rock, and second swivel mount 28 adaptability rotates, and supporting shoe 29 also adapts to and rotates, and third damping spring bumper shock absorber 31 can cushion the shock attenuation to connecting plate 27 to can cushion the shock attenuation to incubator 1, do benefit to the culture effect that improves the material in the culture dish.

As shown in fig. 1, 13 and 14, the incubator further comprises a fourth rotating frame 32, the fourth rotating frame 32 is symmetrically connected to the front side and the rear side of the left lower portion and the right lower portion of the incubator 1 in a rotating manner, the fourth rotating frame 32 is in contact with the buffer plate 15, a second torsion spring 33 is fixedly connected between the fourth rotating frame 32 and the incubator 1, a connecting rod 36 is fixedly connected between the left lower portion and the right lower portion of the incubator 1, a fourth damping spring shock absorber 34 is connected to the connecting rod 36 in a sliding manner, springs are arranged inside the fourth damping spring shock absorber 34, rotating blocks 35 are connected to the front side and the rear side of the fourth damping spring shock absorber 34 in a rotating manner, and the rotating blocks 35 are connected with the adjacent fourth rotating frame 32 in a rotating manner.

The buffer plate 15 moves inwards to extrude the fourth rotating frame 32 to rotate inwards, the second torsion spring 33 generates torsion deformation, the fourth rotating frame 32 rotates inwards to enable the fourth damping spring damper 34 to move outwards through the rotating block 35, the fourth damping spring damper 34 moves outwards to be in contact with the buffer plate 15, the buffer plate 15 is buffered under the elastic force of the spring of the fourth damping spring damper 34, the buffer plate 15 is prevented from striking the incubator 1, the incubator 1 can be damped, shake of the incubator 1 can be avoided, the culture effect of articles in a culture dish is improved, the buffer plate 15 moves outwards to loosen the fourth rotating frame 32, the second torsion spring 33 resets to enable the fourth rotating frame 32 to rotate outwards, and the fourth rotating frame 32 moves inwards to reset the fourth damping spring damper 34 through the rotating block 35.

As shown in fig. 2, 15 and 16, the device further comprises a third connecting block 39, a plurality of third connecting blocks 39 are fixedly connected to the left side and the right side of the inside of the rack 4, the third connecting blocks 39 and the partition boards 5 are distributed alternately, second elastic telescopic rods 38 are fixedly connected to the inner sides of the third connecting blocks 39, springs are arranged in the second elastic telescopic rods 38, and clamping plates 37 are fixedly mounted on the inner sides of the second elastic telescopic rods 38.

Before placing the culture dish in rack 4, outwards promote splint 37 to make the expansion portion shrink of second elastic expansion link 38, the spring of second elastic expansion link 38 from taking is compressed, loosens splint 37 after placing the culture dish in rack 4, and the elasticity effect of the spring of second elastic expansion link 38 presss from both sides tightly fixedly the culture dish through splint 37, thereby can avoid the culture dish to rock, does benefit to the material to cultivate in the culture dish steadily, can improve the culture effect of material in the culture dish.

The embodiments of the present invention have been described in detail with reference to the drawings, but the present invention is not limited to the above embodiments, and various changes can be made within the knowledge of those skilled in the art without departing from the spirit of the present invention.

Claims (10)

1. The utility model provides a biochemical incubator for water analysis, including incubator (1), incubator (1) rotation type is connected with opens and shuts door (2), incubator (1) rigid coupling has a plurality of guide rails (3), on the same horizon joint has rack (4) that are used for placing the culture dish between guide rail (3), rack (4) even rigid coupling has division board (5), division board (5) will rack (4) are separated into a plurality of independent spaces, characterized by: still including rotary rod (6), incubator (1) are close to the equal rotation type in both sides of guide rail (3) is connected with many rotary rod (6), rotation type is connected with first swivel mount (7) on rotary rod (6), rotary rod (6) with rigid coupling has first torsional spring (8) between first swivel mount (7), rotary rod (6) rigid coupling has second connecting block (10), second connecting block (10) rotation type is connected with first connecting block (9), and is adjacent rotation type is connected with movable rod (11) between first connecting block (9), incubator (1) joint has first elastic expansion rod (12), movable rod (11) with first elastic expansion rod (12) sliding connection, incubator (1) keep away from one side of opening and closing door (2) is opened and is used for fixing a plurality of trapezoidal grooves of first elastic expansion rod (12), first elastic expansion rod (12) are from taking the spring.

2. A biochemical incubator for water analysis according to claim 1, characterized in that: the middle part of the opening and closing door (2) is provided with a glass window for observing the condition of the incubator (1) in real time.

3. A biochemical incubator for water analysis according to claim 2, characterized in that: the sliding connection part of the guide rail (3) and the placing frame (4) is made of damping materials.

4. A biochemical incubator for water analysis according to claim 3, wherein: still including first damping spring bumper shock absorber (16), a plurality of first damping spring bumper shock absorbers (16) all rigid coupling in incubator (1) are close to the both sides of first swivel mount (7), first damping spring bumper shock absorber (16) are from taking the spring, and is adjacent fixed mounting has buffer board (15) between first damping spring bumper shock absorber (16), it has a plurality of bar through-holes to open on buffer board (15), incubator (1) are close to the both sides of first swivel mount (7) all rigid coupling has many guide arms (19), guide arm (19) symmetry slidingtype is connected with second movable block (18), second movable block (18) rotation type is connected with first movable block (17), first movable block (17) with the neighbouring buffer board (15) rotation type is connected, guide arm (19) rigid coupling has second damping spring bumper shock absorber (20), second damping spring bumper shock absorber (20) both ends all with the second movable block (18) rigid coupling of neighbouring.

5. A biochemical incubator for water analysis according to claim 4, wherein: the buffer plate is characterized by further comprising an unfolding assembly, the unfolding assembly is arranged on the buffer plate (15), the unfolding assembly comprises an extrusion block (21), the extrusion block (21) is fixedly connected with the buffer plate (15), the extrusion block (21) is contacted with the adjacent first rotating frame (7), the first rotating frame (7) is fixedly connected with two fixing blocks (13), and the adjacent fixing blocks (13) are rotatably connected with a connecting frame (14).

6. A biochemical incubator for water analysis according to claim 5, wherein: still including pivot (22), pivot (22) rigid coupling in door (2) opens and shuts, pivot (22) rigid coupling has gear (23), incubator (1) rotation type is connected with lead screw (24), lead screw (24) also rigid coupling has gear (23), two gear (23) meshing, guide rail (3) with lead screw (24) rotation type is connected, lead screw (24) threaded connection has two shielding plates (25), shielding plates (25) with rack (4) alternate distribution, one side rigid coupling that incubator (1) kept away from lead screw (24) has dead lever (26), shielding plates (25) with dead lever (26) sliding connection, guide rail (3) with dead lever (26) sliding connection.

7. A biochemical incubator for water analysis according to claim 6, wherein: still including connecting plate (27), the symmetry connecting plate (27) fixed mounting in incubator (1) bottom, connecting plate (27) rotation is connected with second swivel mount (28), second swivel mount (28) rotation is connected with supporting shoe (29), supporting shoe (29) rotation is connected with third swivel mount (30), third swivel mount (30) with the neighbouring connecting plate (27) rotation is connected, rotation is connected with third damping spring bumper shock absorber (31) on connecting plate (27), third damping spring bumper shock absorber (31) with the neighbouring connecting plate (27) rotation is connected.

8. A biochemical incubator for water analysis according to claim 7, wherein: the bottom of the supporting block (29) is uniformly carved with strip patterns for increasing friction force.

9. A biochemical incubator for water analysis according to claim 8, wherein: the incubator is characterized by further comprising a fourth rotating frame (32), wherein the fourth rotating frame (32) is symmetrically connected to the incubator (1) in a rotating mode, the fourth rotating frame (32) is close to two sides of the buffer plate (15), the fourth rotating frame (32) is in contact with the buffer plate (15), a second torsion spring (33) is fixedly connected between the fourth rotating frame (32) and the incubator (1), connecting rods (36) are fixedly connected to two sides of the incubator (1) close to the buffer plate (15), the connecting rods (36) are connected with fourth damping spring shock absorbers (34) in a sliding mode, the fourth damping spring shock absorbers (34) are provided with springs in a self-contained mode, and the fourth damping spring shock absorbers (34) are connected with two rotating blocks (35) in a rotating mode, and the adjacent rotating blocks (35) are connected with the fourth rotating frame (32) in a rotating mode.

10. A biochemical incubator for water analysis according to claim 9, wherein: still including third connecting block (39), a plurality of third connecting block (39) rigid coupling in rack (4), third connecting block (39) with division board (5) alternate distribution, third connecting block (39) rigid coupling has second elastic expansion link (38), second elastic expansion link (38) are from taking the spring, second elastic expansion link (38) fixed mounting has splint (37).