CN219117424U

CN219117424U - Electric heating constant temperature incubator

Info

Publication number: CN219117424U
Application number: CN202320184968.9U
Authority: CN
Inventors: 石余兵; 陈睿
Original assignee: Xiangyang Meijun Mechanical Technology Testing Co ltd
Current assignee: Xiangyang Meijun Mechanical Technology Testing Co ltd
Priority date: 2023-01-30
Filing date: 2023-01-30
Publication date: 2023-06-02
Anticipated expiration: 2033-01-30

Abstract

The utility model discloses an electric heating constant temperature incubator, which comprises a box body, a first box door, at least one partition plate and at least one clamping mechanism, wherein the box body is provided with a culture cavity, and one side of the culture cavity is provided with an opening; the first box door is rotationally connected to the box body so that the culture cavity is in a closed state or an open state; each baffle is arranged in the culture cavity side by side from bottom to top at intervals and is in sliding connection with the side wall of the culture cavity. The beneficial effects of the utility model are as follows: the culture dish on the baffle is pressed from both sides tightly with the culture dish on the baffle to clamping mechanism for the culture dish on the baffle can not lead to the culture dish to appear shifting or even the condition of turnover because of receiving inertial action at the in-process of outwards removing along with the baffle, has guaranteed that the culture in the culture dish can not spill, and clamping mechanism can realize fixing to the culture dish of different diameters simultaneously, has very strong adaptability.

Description

Electric heating constant temperature incubator

Technical Field

The utility model relates to the technical field of incubators, in particular to an electric heating constant temperature incubator.

Background

The utility model provides an electric heat constant temperature incubator is applicable to scientific research such as medical health, pharmaceutical industry, biochemistry and agricultural science and industrial production departments and does the bacterial culture, ferment and constant temperature test usefulness constant temperature incubator, current electric heat constant temperature incubator (as an electric heat constant temperature incubator that is disclosed in the application number 201520662987.3) will be equipped with the culture dish on the baffle, after the cultivation, open the chamber door, the baffle can follow the box and slide out, thereby can take out the culture dish, but the baffle is in the in-process of sliding out from the box, the culture dish on the baffle can outwards remove along with the baffle together, the condition that the shift even turnover appears in the culture dish can be led to the culture dish on the baffle owing to receive inertial effect, make the culture in the culture dish spill out, if only through seting up the recess that is used for placing the culture dish on the baffle realize fixing the culture dish, because the bore of recess is unadjustable, only can realize fixing to the culture dish of corresponding size, therefore, the suitability is worse, need a kind can all can realize fixed electric heat incubator to the different diameters of placing on the baffle.

Disclosure of Invention

The utility model aims to overcome the technical defects, and provides an electric heating constant temperature incubator, which solves the technical problems that after the culture is finished, a baffle plate slides out of a box body, so that a culture dish placed on the baffle plate can be taken out, and the culture dish on the baffle plate can shift or even overturn due to inertia in the process of sliding out of the box body, so that a culture in the culture dish is spilled out, and if the culture dish is fixed only by arranging a groove for placing the culture dish on the baffle plate, the caliber of the groove is not adjustable, and the culture dish with corresponding size can be fixed only, so that the applicability is poor.

In order to achieve the technical purpose, the technical scheme of the utility model provides an electric heating constant temperature incubator, which comprises:

the box body is provided with a culture cavity, and one side of the culture cavity is provided with an opening;

the first box door is rotationally connected to the box body so that the culture cavity is in a closed state or an open state;

the culture plates are arranged in the culture cavity from bottom to top at intervals and are connected with the side wall of the culture cavity in a sliding manner, and the culture plates are arranged on the partition plates;

and each clamping mechanism is used for clamping the corresponding culture dish on the partition plate respectively.

Furthermore, the box body is also provided with a heating cavity, the heating cavity is positioned right below the culture cavity, and one side of the heating cavity is provided with an opening.

Further, a plurality of first through holes communicated with the culture cavity are formed in the box body, and the other ends of the first through holes are communicated with the heating cavity.

Further, the electric heating constant temperature incubator further comprises a second box door, and the second box door is rotatably connected to the incubator body, so that the heating cavity is in a closed state or an open state.

Further, the electric heating constant temperature incubator further comprises a heating element, and the heating element is arranged in the heating cavity.

Further, two opposite side walls of the culture cavity are provided with a plurality of sliding grooves side by side from bottom to top at intervals, the end, close to the opening side of the culture cavity, of the sliding grooves is provided with an opening, the end, far away from the opening side of the culture cavity, of the sliding grooves is provided with a seal, and two sides of the partition board are detachably and slidably arranged in the corresponding sliding grooves.

Further, a column-shaped placing groove for placing the culture dish, a containing groove communicated with the placing groove and a plurality of second through holes are formed in the partition plate.

Further, the clamping mechanism comprises two clamping pieces and a clamping driving mechanism, the two clamping pieces are arranged in the accommodating groove in a relatively sliding mode, and the clamping driving mechanism is connected with the two clamping pieces and used for driving the two clamping pieces to clamp or loosen the culture dish.

Further, a clamping groove is formed in the clamping piece, and the included angle between two groove walls of the clamping groove is 45 degrees.

Further, the clamping driving mechanism comprises two driving rods, the two driving rods are oppositely arranged in the accommodating groove, one end of each driving rod is rotationally connected with the groove wall of the accommodating groove, the other end of each driving rod penetrates through the groove wall of the accommodating groove in a rotating mode and extends out of the accommodating groove, a first thread and a second thread which are opposite in rotation direction and equal in length are arranged on each driving rod, two screw holes are formed in the clamping piece, and the two screw holes are connected to the corresponding first thread or second thread through corresponding screw holes in a threaded mode.

Compared with the prior art, the utility model has the beneficial effects that: when the culture dish clamping device is used, a culture dish containing a culture is placed on a corresponding partition board, the culture dish on the partition board is clamped by the clamping mechanism by controlling the corresponding clamping mechanism, after the culture is finished, the first box door is opened, and the partition board with the culture dish is pulled out, so that the culture dish on the partition board can be taken out.

Drawings

FIG. 1 is a schematic perspective view of an electrothermal incubator according to the present utility model;

FIG. 2 is a schematic view showing the structure of a first door and a second door of the electric incubator of FIG. 1 in an opened state;

FIG. 3 is a cross-sectional view of the attachment relationship of the spacer plate and clamping mechanism of FIG. 2;

FIG. 4 is a cross-sectional view of the separator of FIG. 3;

in the figure: 100-box body, 110-culture cavity, 111-chute, 120-heating cavity, 130-first through hole, 200-first box door, 300-partition board, 310-placing groove, 320-containing groove, 330-second through hole, 400-clamping mechanism, 410-clamping piece, 411-clamping groove, 420-clamping driving mechanism, 421-driving rod, 500-second box door and 600-heating piece.

Detailed Description

The present utility model will be described in further detail with reference to the drawings and examples, in order to make the objects, technical solutions and advantages of the present utility model more apparent. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the utility model.

The utility model provides an electric heating constant temperature incubator, the structure of which is shown in fig. 1 and 2, comprising a incubator body 100, a first incubator door 200, at least one baffle 300 and at least one clamping mechanism 400, wherein the incubator body 100 is provided with a culture cavity 110, and one side of the culture cavity 110 is provided with an opening; the first door 200 is rotatably connected to the case 100 such that the culture chamber 110 is in a closed state or an opened state; each partition 300 is arranged in the culture cavity 110 from bottom to top in parallel at intervals and is in sliding connection with the side wall of the culture cavity 110, and the partition 300 is used for placing a culture dish; each clamping mechanism 400 is used for clamping the culture dishes on the corresponding partition plate 300, and meanwhile, the clamping mechanisms 400 can fix the culture dishes with different diameters, so that the culture dishes have strong adaptability.

When the culture dish rack is used, a culture dish with a culture is placed on the corresponding partition plate 300, the corresponding clamping mechanism 400 is controlled, the clamping mechanism 400 clamps the culture dish on the partition plate 300, after the culture is finished, the first box door 200 is opened, the partition plate 300 with the culture dish is pulled out, and therefore the culture dish on the partition plate 300 can be taken out.

As a preferred embodiment, referring to fig. 2, the case 100 further has a heating chamber 120, the heating chamber 120 is located directly below the culture chamber 110, so as to set the heating element 600 in the heating chamber 120, one side of the heating chamber 120 is provided with an opening, so that the second door 500 is conveniently set at the opening of the heating chamber 120, so that the heating chamber 120 is in a sealed state or an open state, and when the heating chamber 120 is in the open state, the heating element 600 can be overhauled or replaced.

As a preferred embodiment, referring to fig. 2, the case 100 is provided with a plurality of first through holes 130 that are communicated with the culture chamber 110, and the other end of the first through holes 130 is communicated with the heating chamber 120, so that the heating chamber 120 is communicated with the culture chamber 110, and air is conveniently exchanged between the heating chamber 120 and the culture chamber 110.

As a preferred embodiment, referring to fig. 1 and 2, the electrothermal incubator further includes a second door 500 rotatably connected to the case 100, so that the heating chamber 120 is in a closed state or an open state, when the heating chamber 120 is in a closed state, the loss of hot air in the heating chamber 120 can be avoided, and when the heating chamber 120 is in an open state, the heating member 600 can be overhauled or replaced.

As a preferred embodiment, referring to fig. 2, the electrothermal incubator further includes a heating element 600, where the heating element 600 is disposed in the heating chamber 120 and is used for heating the air in the heating chamber 120.

As a preferred embodiment, referring to fig. 2, two opposite side walls of the culture chamber 110 are provided with a plurality of sliding grooves 111 side by side from bottom to top and spaced apart, the end of the sliding groove 111 close to the opening side of the culture chamber 110 is provided with an opening, the end of the sliding groove 111 far away from the opening side of the culture chamber 110 is provided with a seal, two sides of the partition plate 300 are detachably and slidably arranged in the corresponding sliding groove 111, when the incubator is used, the corresponding partition plates 300 can be arranged in the sliding groove 111 according to the height of the culture dish, so that the distance between the adjacent partition plates 300 is slightly larger than the height of the culture dish, if the height of the culture dish is lower, the culture dish to be cultured can be placed on the plurality of partition plates 300 according to needs, and if the height of the culture dish is higher, the partition plates 300 can be slidably arranged in the bottom-most sliding groove 111, so that the applicability of the incubator is improved, and the first door 200 is made of transparent material, so that the culture condition in the culture chamber 110 can be observed conveniently.

As a preferred embodiment, referring to fig. 3 and 4, the partition 300 is provided with a cylindrical placement groove 310 for placing a culture dish, a receiving groove 320 communicating with the placement groove 310, and a plurality of second through holes 330, the receiving groove 320 is formed along the periphery of the placement groove 310, so that the clamping member 410 is slidably disposed in the receiving groove 320, and the second through holes 330 can enable the hot air to move upwards along the second through holes 330.

As a preferred embodiment, please refer to fig. 3 and 4, the clamping mechanism 400 includes two clamping members 410 and a clamping driving mechanism 420, the two clamping members 410 are relatively slidably disposed in the accommodating groove 320, the clamping driving mechanism 420 is connected to the two clamping members 410, and is used for driving the two clamping members 410 to clamp or unclamp the culture dish, so as to clamp the culture dish on the partition 300, avoid the condition that the culture dish shifts or tips due to inertia effect when moving outwards along with the partition 300, and prevent the clamping members 410 from being disposed in the accommodating groove 320, so that the height of the partition 300 is excessively occupied when the clamping members 410 are directly disposed on the partition 300.

As a preferred embodiment, referring to fig. 3, the clamping member 410 is provided with a clamping slot 411, and an included angle between two slot walls of the clamping slot 411 is 45 °, so as to improve the effect of the clamping member 410 in clamping the culture dish.

As a preferred embodiment, referring to fig. 3, the clamping driving mechanism 420 includes two driving rods 421, the two driving rods 421 are oppositely disposed in the accommodating groove 320, one end of each driving rod 421 is rotationally connected with the groove wall of the accommodating groove 320, the other end of each driving rod 421 is rotationally passed through the groove wall of the accommodating groove 320 and extends out of the accommodating groove 320, the driving rods 421 are provided with a first thread and a second thread with opposite rotation directions and equal length, the clamping members 410 are provided with two screw holes, and are in threaded connection with the corresponding first thread or second thread via the corresponding screw holes, the driving rods 421 are perpendicular to the opening side of the culture chamber 110, and the driving rods 421 can drive the corresponding two clamping members 410 to clamp or unclamp the culture dish via the corresponding first threads and the second threads by synchronously rotating the driving rods 421.

For better understanding of the present utility model, the following details of the working principle of the technical solution of the present utility model are described with reference to fig. 1 to 4:

when in use, according to the height of the culture dish, the corresponding partition plates 300 are arranged in the chute 111, so that the distance between the adjacent partition plates 300 and the height slightly larger than the culture dish are arranged, then the culture dish with the culture is placed on the corresponding partition plates 300, and the corresponding two driving rods 421 are synchronously rotated, so that the culture dish on the partition plates 300 can be taken out, the culture dish 300 is clamped by the corresponding two clamping pieces 410 driven by the corresponding first threads and the second threads, after the culture is finished, the first box door 200 is opened, the partition plates 300 with the culture dish are pulled out, and the corresponding two driving rods 421 are synchronously rotated, so that the culture dish on the partition plates 300 is loosened by the corresponding two clamping pieces 410.

The electric heating constant temperature incubator provided by the utility model has the following beneficial effects:

(1) When the incubator is used, the corresponding partition plates 300 can be arranged in the sliding groove 111 according to the height of the culture dish, so that the distance between the adjacent partition plates 300 is slightly larger than the height of the culture dish, if the height of the culture dish is lower, the culture dish which needs to be cultured can be placed on the plurality of partition plates 300 according to the requirement, and if the height of the culture dish is higher, the partition plates 300 can be arranged in the sliding groove 111 at the bottommost layer in a sliding manner, thereby improving the applicability of the incubator;

(2) The included angle between the two groove walls of the clamping groove 411 is 45 degrees, so that the effect of clamping the culture dish by the clamping piece 410 can be improved;

(3) In the utility model, the clamping mechanism 400 clamps the culture dishes on the partition plate 300, so that the culture dishes on the partition plate 300 cannot shift or even turn over due to inertia in the process of moving outwards along with the partition plate 300, the culture in the culture dishes can not be spilled, and meanwhile, the clamping mechanism 400 can fix the culture dishes with different diameters and has strong adaptability.

The above-described embodiments of the present utility model do not limit the scope of the present utility model. Any other corresponding changes and modifications made in accordance with the technical idea of the present utility model shall be included in the scope of the claims of the present utility model.

Claims

1. An electrothermal constant temperature incubator, comprising:

2. The electrically heated incubator of claim 1, wherein the housing further comprises a heating chamber, the heating chamber being located directly below the incubation chamber, and wherein one side of the heating chamber is open.

3. The electric heating constant temperature incubator according to claim 2, wherein the incubator body is provided with a plurality of first through holes communicated with the culture cavity, and the other ends of the first through holes are communicated with the heating cavity.

4. An electrically heated incubator as claimed in claim 3 further comprising a second door rotatably connected to said cabinet to place said heating chamber in a closed or open position.

5. The electrically heated incubator of claim 4, further comprising a heating element disposed within the heating chamber.

6. The electric heating constant temperature incubator according to claim 5, wherein a plurality of sliding grooves are arranged on two opposite side walls of the culture cavity side by side from bottom to top at intervals, the end, close to the opening of the culture cavity, of the sliding groove is provided with an opening, the end, far away from the opening of the culture cavity, of the sliding groove is provided with a sealing opening, and two sides of the partition board are detachably and slidably arranged in the corresponding sliding grooves.

7. The electrically heated incubator of claim 6, wherein the partition plate is provided with a column-shaped placement groove for placing the culture dish, a containing groove communicated with the placement groove and a plurality of second through holes.

8. The electrically heated incubator of claim 7, wherein the clamping mechanism comprises two clamping members and a clamping driving mechanism, the two clamping members are slidably disposed in the accommodating groove, and the clamping driving mechanism is connected to the two clamping members and is used for driving the two clamping members to clamp or unclamp the culture dish.

9. The electrically heated incubator of claim 8, wherein the clamping member is provided with a clamping groove, and an included angle between two groove walls of the clamping groove is 45 °.

10. The electric heating constant temperature incubator according to claim 9, wherein the clamping driving mechanism comprises two driving rods, the two driving rods are oppositely arranged in the accommodating groove, one ends of the driving rods are rotatably connected with the groove wall of the accommodating groove, the other ends of the driving rods rotatably penetrate through the groove wall of the accommodating groove and extend out of the accommodating groove, a first thread and a second thread which are opposite in rotation direction and equal in length are arranged on the driving rods, and two screw holes are formed in the clamping piece and are in threaded connection with the corresponding first thread or second thread through the corresponding screw holes.