JP6775725B1 - High quality bovine or oocyte culture incubator based on embryo in vitro culture technology - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a high-quality bovine oocyte culture incubator based on a technique of in vitro culture of a fetal body, which can avoid wasting a culture box and reduce an experimental cost. SOLUTION: A plurality of culture campers are provided in an incubator main body 1, and a culture plate is provided in the culture camper. A cavity is provided at the bottom of the incubator body so that the receiving plate 2 is fitted to each other. The side wall of the incubator body is provided with a first sliding groove, and the receiving plate is provided with a sludge that fits into the first sliding groove. The inner wall of the cavity is provided with a second sliding groove that matches the first sliding groove. A first through camper is provided on the receiving plate, a first stop plate 11 is provided in the culture camper, a second stop plate 21 is provided in the first through camper, and a through hole is provided in the side wall of the first through caper. Has been done. A plurality of culture boxes are detachably connected to the culture plate. [Selection diagram] Fig. 1

Description

The present invention relates to the technical field of a cell culture apparatus, and particularly to a high quality bovine or oocyte culture incubator based on the technique of in vitro culture of embryos.

With the advancement of embryo engineering, embryonic biotechnology has been widely applied in more and more fields and has promoted the development of many departments such as medicine, medicine, livestock farming, genetic engineering, and animal protection. In vitro culture is at the core of embryonic biotechnology. In vitro culture of oocytes and embryos uses a culture device, and a culture dish and a culture plate are particularly often used. The culture plate is formed with a plurality of culture wells, and usually has 6, 12, 24, 48, and 96 wells. However, in each experiment, the required number of culture wells is generally one or only a small amount, which not only may increase the cell contamination rate, but the remaining wells are less likely to be used later. , The cost of the experiment is improved. Moreover, since the conventional culture dish has a large volume, it is not suitable for in vitro culture for a small amount of cells, and the entire culture dish needs to be coated with paraffin oil, which wastes space and paraffin oil. Even if the method of culturing multiple sets of cells in one culture dish is adopted, waste can be avoided, but the distance between the culture solutions in the culture dish is short, and each droplet is caused by fluctuations in the culture dish. May lead to the failure of the experiment.

In order to guarantee the cell viability, it is generally necessary to place the culture dish in the culture incubator for culturing. The environment inside the incubator must be suitable for cell growth and is different from the external environment. During cell culture, it is necessary to constantly observe the cells by opening the culture incubator, in which case external air may enter the incubator when the culture incubator is opened, disrupting the gas balance in the incubator. , Impairs the viability of egg matrix cells.

The present invention provides a high quality bovine or oocyte culture incubator based on the technique of in vitro culture of embryos to overcome defects in the prior art.

In order to achieve the above object, the present invention adopts the following technical plan. A high-quality bovine or sheep egg mother cell culture incubator based on the technique for in vitro culture of embryos according to the present invention includes an incubator body, a culture plate provided in the incubator body, and a receiving plate provided in the incubator body. A plurality of culture chambers are provided in the incubator body, and the culture plates are provided in the culture chambers. Cavities 101 are provided at the bottom of the incubator body so as to be fitted to the receiving plate. A first sliding groove 102 is provided on the side wall of the incubator main body, and the first sliding groove 102 is provided on the receiving plate.
Sliders that fit into the sliding groove 102 are provided. The inner wall of the cavity 101 is provided with a second sliding groove 103 that is aligned with the first sliding groove 102. A first penetration chamber 201 is provided on the receiving plate, a first stop plate is provided in the culture chamber, a second stop plate is provided in the first penetration chamber 201, and a side wall of the first penetration chamber 201 is provided. Is provided with a through hole. In addition, a plurality of culture boxes are detachably connected to the culture plate. When culturing oocytes, a culture box is placed on the culture plate according to the number of oocytes to be cultured, and the oocytes are cultured in the culture box, so that each culture box can be used. Can be done. By determining the number of culture boxes according to the actual number of cells to be cultured, it is possible to avoid wasting the culture boxes and reduce the experimental cost. By culturing each cell in each culture box, mutual mixing between the culture solutions in each culture box can be avoided, and the culture survival rate of oocytes is improved. When taking out the culture plate in the designated culture chamber, the backing plate is pulled out from the cavity 101 and moved along the first sliding groove 102 while pushing the backing plate to move the backing plate to the designated culture chamber side. After that, by connecting the infusion tube in the through hole and adjusting the gas environment in the first through chamber 201, the inside of the first through chamber 201 becomes the same environment as the inside of the incubator. 1 Open the stop plate, push the culture plate into the first penetration chamber 201, completely feed the culture plate into the first penetration chamber 201, close the first stop plate, and close the second stop. The plate is opened and the culture plate is taken out from the first penetration chamber 201. This prevents outside air from entering the incubator and changing the environment inside the incubator when a certain culture plate is taken out, and secures the survival rate of oocytes in the incubator. When the receiving plate is not used, the receiving plate is put in the cavity 101 and the receiving plate is housed by the cavity 101, so that the culture incubator is not used because the receiving plate is hung on the side wall of the incubator body. To prevent.

The culture plate is provided with a plurality of first connection grooves, and a first connection block that fits into the first connection groove is provided at the bottom of the culture box. A second penetration chamber is provided on the side wall of the culture chamber, a first push rod is bored in the second penetration chamber, a first moving chamber is provided on the inner wall of the second penetration chamber, and the first push is provided. The rod is provided with a first stop plate that fits into the first moving chamber. By interfitting the first connection groove and the first connection block, the action of fixing the culture box is achieved, and by fixing the culture box at a specified position on the culture plate, the culture is performed by moving the culture box on the culture plate. It is possible to prevent the culture solution from shaking out of the box.
When the backing plate moves to the side wall of the designated culture chamber, the culture plate is moved into the culture chamber by pushing the first push rod into the culture chamber and moving the culture plate to the outside of the culture chamber while pushing the culture plate with the first push rod. Extrude from. By limiting the movement route of the first push rod by the first stop plate, it is possible to prevent the first push rod from escaping from the inside of the first penetration chamber 201, and the effect of connecting the first push rod and the incubator body can be improved. Secure.

A first connecting plate is provided at one end of the first push rod, a third sliding groove is provided on the side wall of the first connecting plate, and a moving block is provided in the third sliding groove. A support spring is provided at the bottom of the moving block, a second connecting plate is rotatably connected to the moving block, and a first concave groove that fits into the second connecting plate is provided on the side wall of the incubator body. Has been done. When the first push rod is not used, the second connection plate and the first push rod are in a vertical state, and by fitting the second connection plate in the first concave groove, the second connection plate is operated when the culture incubator is operated. It is possible to prevent the culture incubator from collapsing by touching the connection plate and provide a stable environment for cell culture. When the receiving plate moves to the side wall of the culture chamber, the first stop plate is opened, the second connecting plate is rotated, the second connecting plate is rotated so as to be in line with the first push rod, and then the culture is performed. The culture plate in the designated culture chamber is independently taken out by pushing the second connection plate into the chamber, pushing the first push rod into the culture chamber by the second connection plate, and then extruding the culture plate from the culture chamber. can do.

A second concave groove that fits into the second connecting plate is provided at one end of the first push rod, a second moving chamber is provided at the top of the culture chamber, and a second moving chamber is provided in the second moving chamber.
A three-push rod is bored, and a third connection plate is provided on the top of the third push rod. When the receiving plate moves to one side of the culture chamber, the first stop plate and the third push rod move together. When the second connection plate rotates and becomes linear with the first push rod, the second connection plate is pushed toward the first push rod side, the second connection plate is inserted into the second concave groove, and the second connection plate is inserted. The second connecting plate provides a stable pushing force to the first pushing rod by achieving the action of locating. When the receiving plate moves to one side of the culture chamber, the third connecting plate is pulled upward, and the third pushing rod is moved upward in conjunction with the third connecting plate, which corresponds to the third pushing rod. Fitting with the first stop plate in the culture chamber is made. Further, when the third push rod is moved upward, the first stop plate is interlocked and moved upward, so that the culture chamber and the first penetration chamber 201 are communicated with each other. This makes it possible to prevent outside air from entering the incubator when the culture plate in the culture chamber alone is taken out.

A second connecting groove is provided on the side wall of the culture chamber, a third moving chamber is provided on the receiving plate, and a fourth connecting plate that fits into the second connecting groove is provided in the third moving chamber. A moving groove is provided at the top of the third moving chamber, a fifth connecting plate is provided on the fourth connecting plate, and a push block that fits into the moving groove is provided on the fifth connecting plate. ing. When taking out the culture plate in a certain culture chamber, the receiving plate is pushed along the first sliding groove 102 to move the receiving plate to one side of the designated culture chamber, and the second connecting groove and the third moving chamber are moved to each other. After matching, the push block is pushed and the fourth connection plate is inserted into the second connection groove to achieve the action of sealing the connection position between the receiving plate and the incubator body. This prevents air from entering the incubator from the connection position. The function of fixing the receiving plate is achieved by the mutual fitting of the fourth connecting plate and the second connecting groove. As a result, the backing plate and the culture chamber are stably fitted. With this, the culture plate in the culture chamber can be easily taken out.

A fourth moving chamber is provided on the first stop plate, a third through chamber is provided on the side wall of the fourth moving chamber, and a fifth moving chamber is provided on the side wall of the third through chamber. A connecting rod is bored in the third through chamber, the connecting rod is provided with a second stop plate that is mutually fitted to the fifth moving chamber, and the second stop plate is provided with a first return spring. ing. A second push rod for pushing the connection rod is provided in the fourth moving chamber. The third push rod is provided with a third connection groove that fits into the connection rod. When the receiving plate moves to the side wall of the culture chamber, the fourth connecting plate is inserted into the second connecting groove, and when the receiving plate is fixed to the side wall of the culture chamber, the fourth connecting plate and the second push rod are fitted. To. When the connection rod is moved to the outside of the third through chamber while being pushed by the second push rod and the connection rod is inserted into the third connection groove, the connection rod and the third connection groove are fitted. As a result, when the third push rod moves, the first stop plate moves in conjunction with each other, and the first stop plate of the culture chamber is opened.

An arc-shaped elastic piece is provided in the fourth moving chamber, the second push rod is provided on one side of the arc-shaped elastic piece, and a sixth connecting plate is provided at the bottom of the fourth connecting plate. , The sixth connection plate is provided with a third stop plate that is mutually fitted to the second push rod. When the receiving plate moves to one side of the culture chamber, the push block is pushed toward the incubator body side, the fourth connecting plate is inserted into the second connecting groove, and when the second connecting plate moves, the sixth connecting plate moves in conjunction with each other. do it,
When the 6th connection plate moves to one side of the 2nd push rod, the 6th connection plate moves into the 4th moving chamber while pushing the 2nd push rod, and the arc-shaped elastic piece is pushed by the 2nd push rod to deform. By extending both ends of the arcuate elastic piece to the outside and pushing the connection rod to move it to the outside of the third through chamber, the connection rod is inserted into the third connection groove to form the first stop plate. number 3
The push rods are connected and fitted.

A second connection block is provided at the bottom of the fourth connection plate, a sixth moving chamber is provided in the second connection block to be fitted to the sixth connection plate, and a connection spring is provided in the sixth connection plate. It is provided. When the 3rd push rod moves upward, the 1st stop plate interlocks and moves upward. When the first stop plate moves, the second push rod moves upward in conjunction, and when the second push rod moves upward by the third stop plate, the sixth connection plate moves upward in conjunction. hand,
The 6th connection plate is inserted into the 6th moving chamber, and the 6th connection plate is inserted into the 1st through chamber 201.
It is located at the top of. This avoids obstruction of the movement of the culture plate by the 6th connecting plate.

A seventh moving chamber communicating with the third moving chamber is provided on the receiving plate, and the seventh moving chamber is provided.
A fourth through chamber is provided on the side wall of the moving chamber, an eighth moving chamber is provided on the inner wall of the fourth through chamber, a fixing rod is bored in the fourth through chamber, and the first sliding groove 102 The inner wall is provided with a fixing groove that fits into the fixing rod. When the fourth connecting plate moves, the fixing rod can be pushed and inserted into the fixing groove. When the fourth connecting plate moves, the fixing rod can be pushed and inserted into the fixing groove. When the receiving plate moves to the side wall of the culture chamber, the push block is pushed to insert the 4th connecting plate into the 2nd connecting groove, and when the 4th connecting plate moves, the fixing rod is moved while being pushed to fix the fixing rod. It can be inserted into the groove to provide supporting force to the receiving plate by mutual fitting of the fixing rod and the fixing groove, and to secure the connection effect between the receiving plate and the incubator body by mutual fitting of the 4th connecting plate. It can prevent outside air from entering the culture chamber when the first stop plate is opened.

The fixed rod is provided with a fourth stop plate that is mutually fitted to the eighth moving chamber, and the first
The 4 stop plate is provided with a second return spring, the side wall of the 4th connection plate is provided with a 7th connection plate, and the 7th connection plate is provided with a push plate that is mutually fitted to the fixing rod. , The receiving plate is provided with a connection bracket, and the connection bracket is provided with a stop rod that is fitted to the push block. When the fourth connection plate moves, the push plate moves in conjunction with the push plate. While pushing the fixing rod, move it to the outside of the fourth through chamber and push the fixing rod into the fixing groove, so that the fixing plate and the fixing groove are connected and fitted. The backing plate is now fixed to the side wall of the incubator body. When the 4th connection plate is inserted into the 2nd connection groove, the stop rod is pushed and
By moving the stop rod to one side of the push block and providing supporting force to the push block by the stop rod, which fixes the push block to one end of the moving groove, the fourth connection plate and the second connection groove The fitting effect of is secured and the connection effect between the receiving plate and the incubator body is improved.

The present invention has the following advantages. By determining the number of culture boxes based on the actual number of cells to be cultured, waste of the culture boxes can be avoided and the experimental cost can be reduced. By culturing each cell in each culture box, mutual mixing between the culture solutions in each culture box can be avoided, and the culture survival rate of oocytes is improved. In addition, by providing a receiving plate, when a certain culture plate is taken out, it is prevented that outside air enters the incubator and changes the environment in the incubator, and the oocyte viability in the incubator is ensured.

FIG. 1 is a schematic configuration diagram of the present invention. FIG. 2 is a front view of the present invention. FIG. 3 is a cross-sectional view taken along the line AA in FIG. FIG. 4 is a schematic view of fitting one of the setter and the isolation means according to the present invention. FIG. 5 is a schematic view of fitting the setter and the isolation means according to the present invention. FIG. 6 is a front view of FIG. 5. FIG. 7 is a cross-sectional view taken along the line BB in FIG. FIG. 8 is a partially enlarged view of FIG. 7. FIG. 9 is an enlarged view of FIG. FIG. 10 is a schematic vertical cross-sectional view of the gas concentration adjusting chamber according to the present invention. FIG. 11 is a schematic cross-sectional view of the gas concentration adjusting chamber according to the present invention.

As shown in FIGS. 1 to 15, a high-quality cow or sheep egg mother cell culture incubator based on the technique for in vitro culture of embryos according to the present invention includes an incubator body 1, a culture plate 3 provided in the incubator body 1, and a culture plate 3. The receiving plate 2 provided in the incubator main body 1 is included. A plurality of culture chambers are provided in the incubator main body 1, and the culture plate 3 is provided in the culture chamber. A cavity 101 is provided at the bottom of the incubator body 1 so as to be fitted to the receiving plate 2 with each other. A first sliding groove 102 is provided on the side wall of the incubator main body 1, and a slider that fits into the first sliding groove 102 is provided on the receiving plate 2. The inner wall of the cavity 101 is provided with a second sliding groove 103 that is aligned with the first sliding groove 102. The receiving plate 2 is provided with a first penetration chamber 201, a first stop plate 11 is provided in the culture chamber, a second stop plate 21 is provided in the first penetration chamber 201, and the first penetration chamber is provided. 20
A through hole is provided in the side wall of 1. Further, a plurality of culture boxes 32 are detachably connected to the culture plate 3. When culturing oocytes, a culture box is placed on the culture plate according to the number of oocytes to be cultured, and the oocytes are cultured in the culture box, so that each culture box can be used. Can be done. By determining the number of culture boxes according to the actual number of cells to be cultured, it is possible to avoid wasting the culture boxes and reduce the experimental cost. By culturing each cell in each culture box, mutual mixing between the culture solutions in each culture box can be avoided, and the culture survival rate of oocytes is improved. When taking out the culture plate in the designated culture chamber, the backing plate is pulled out from the cavity 101 and moved along the first sliding groove 102 while pushing the backing plate to move the backing plate to the designated culture chamber side. After that, by connecting the infusion tube in the through hole and adjusting the gas environment in the first through chamber 201, the inside of the first through chamber 201 is made to have the same environment as the inside of the incubator. 1 Open the stop plate, push the culture plate into the first penetration chamber 201, completely feed the culture plate into the first penetration chamber 201, close the first stop plate, and close the second stop. The plate is opened and the culture plate is taken out from the first penetration chamber 201. This prevents outside air from entering the incubator and changing the environment inside the incubator when a certain culture plate is taken out, and secures the survival rate of oocytes in the incubator. When the receiving plate is not used, the receiving plate is put in the cavity 101 and the receiving plate is housed by the cavity 101, so that the culture incubator is not used because the receiving plate is hung on the side wall of the incubator body. To prevent.

A plurality of first connection grooves 31 are provided in the culture plate 3, and a first connection block that fits into the first connection groove 31 is provided at the bottom of the culture box 32. A second penetration chamber is provided on the side wall of the culture chamber, a first push rod 12 is bored in the second penetration chamber, and a first moving chamber is provided on the inner wall of the second penetration chamber.
The first push rod 12 is provided with a first stop plate 121 that fits into the first moving chamber. By interfitting the first connecting groove and the first connecting block, the function of fixing the culture box is achieved, and by fixing the culture box at the specified position on the culture plate,
It is possible to prevent the culture solution from shaking from the inside of the culture box due to the movement of the culture box on the culture plate. When the backing plate moves to the side wall of the designated culture chamber,
The culture plate is extruded from the inside of the culture chamber by pushing the first push rod into the culture chamber and moving the culture plate to the outside of the culture chamber while pushing the culture plate with the first push rod. By limiting the movement route of the first push rod by the first stop plate, it is possible to prevent the first push rod from escaping from the inside of the first penetration chamber 201, and the effect of connecting the first push rod and the incubator body can be improved. Secure.

A first connecting plate 122 is provided at one end of the first push rod 12, a third sliding groove is provided on the side wall of the first connecting plate 122, and a moving block 123 is provided in the third sliding groove. .. A support spring 124 is provided on the bottom of the moving block, and the second connecting plate 1 is provided on the moving block 123.
3 is rotatably connected, and a first concave groove that fits into the second connecting plate 13 is provided on the side wall of the incubator main body 1. When the 1st push rod is not used, the 2nd connection plate and the 1st
The 1 push rod is in a vertical state, and the second connecting plate is housed in the first concave groove to prevent the culture incubator from tipping over by touching the second connecting plate when operating the culture incubator. It is possible to provide a stable environment for culturing cells. When the receiving plate moves to the side wall of the culture chamber, the first stop plate is opened, the second connecting plate is rotated, the second connecting plate is rotated so as to be in line with the first push rod, and then the culture is performed. The culture plate in the designated culture chamber is independently taken out by pushing the second connection plate into the chamber, pushing the first push rod into the culture chamber by the second connection plate, and then extruding the culture plate from the culture chamber. can do.

A second concave groove that fits into the second connecting plate 13 is provided at one end of the first push rod 12, a second moving chamber is provided at the top of the culture chamber, and the inside of the second moving chamber is provided. A third push rod 14 is bored, and a third connection plate 141 is formed on the top of the third push rod 14.
Is provided. When the receiving plate 2 moves to one side of the culture chamber, the first
The stop plate 11 and the third push rod 14 both move. When the second connection plate rotates and becomes linear with the first push rod, the second connection plate is pushed toward the first push rod side, the second connection plate is inserted into the second concave groove, and the second connection plate is inserted. The second connecting plate provides a stable pushing force to the first pushing rod by achieving the action of locating. When the receiving plate moves to one side of the culture chamber, the third connecting plate is pulled upward, and the third pushing rod is moved upward in conjunction with the third connecting plate, which corresponds to the third pushing rod. Fitting with the first stop plate in the culture chamber is made. Further, when the third push rod is moved upward, the first stop plate is interlocked and moved upward, so that the culture chamber and the first penetration chamber 201 are communicated with each other. This makes it possible to prevent outside air from entering the incubator when the culture plate in the culture chamber alone is taken out.

A second connecting groove is provided on the side wall of the culture chamber, a third moving chamber is provided on the receiving plate 2, and a fourth connecting plate 22 that fits into the second connecting groove in the third moving chamber.
Is provided, a moving groove is provided at the top of the third moving chamber, and the fourth connecting plate 22 is provided with a second moving groove.
Five connection plates are provided, and the fifth connection plate is provided with a push block 221 that is mutually fitted into the moving groove. When taking out the culture plate in a certain culture chamber, the first sliding groove 10
Push the backing plate along 2 to move the backing plate to one side of the designated culture chamber, align the second connecting groove and the third moving chamber with each other, and then push the push block to move the fourth connecting plate to the second. It is inserted into the connection groove to achieve the function of sealing the connection position between the receiving plate and the incubator body. This prevents air from entering the incubator from the connection position. The function of fixing the receiving plate is achieved by the mutual fitting of the fourth connecting plate and the second connecting groove. As a result, the backing plate and the culture chamber are stably fitted. With this, the culture plate in the culture chamber can be easily taken out.

A fourth moving chamber is provided on the first stop plate 11, and a third moving chamber is provided on the side wall of the fourth moving chamber.
A penetration chamber is provided, and a fifth moving chamber is provided on the side wall of the third penetration chamber. A connecting rod 112 is bored in the third through chamber, and the connecting rod 1 is provided.
12 is provided with a second stop plate 1121 that is mutually fitted to the fifth moving chamber, and the second stop plate 1121 is provided with a first return spring 1122. A second push rod 114 for pushing the connection rod 112 is provided in the fourth moving chamber. The first
The 3 push rod 13 is provided with a third connection groove that fits into the connection rod 112.
When the backing plate moves to the side wall of the culture chamber, the fourth connecting plate is inserted into the second connecting groove,
When the receiving plate is fixed to the side wall of the culture chamber, the fourth connecting plate and the second push rod are fitted. When the connection rod is moved to the outside of the third through chamber while being pushed by the second push rod and the connection rod is inserted into the third connection groove, the connection rod and the third connection groove are fitted. As a result, when the third push rod moves, the first stop plate moves in conjunction with each other, and the first stop plate of the culture chamber is opened.

An arc-shaped elastic piece 113 is provided in the fourth moving chamber, the second push rod 114 is provided on one side of the arc-shaped elastic piece 113, and a sixth connection is made to the bottom of the fourth connection plate 22. Board 2
4 is provided, and the sixth connection plate 24 is provided with a third stop plate 241 that is fitted to the second push rod 114. When the receiving plate moves to one side of the culture chamber, push the push block toward the incubator body side, insert the 4th connecting plate into the 2nd connecting groove, and when the 2nd connecting plate moves, the 6th connecting plate moves in tandem. Then, when the 6th connection plate moves to one side of the 2nd push rod, the 6th connection plate moves into the 4th moving chamber while pushing the 2nd push rod, and the arc-shaped elastic piece is moved by the 2nd push rod. Press to deform and extend both ends of the arcuate elastic piece outward,
By pushing the connecting rod and moving it to the outside of the third through chamber, the connecting rod is moved to the third
By inserting it into the connection groove, the first stop plate and the third push rod are connected and fitted.
A second connection block 222 is provided at the bottom of the fourth connection plate 22, and a sixth moving chamber that fits into the sixth connection plate 24 is provided in the second connection block 222, and the sixth connection plate is provided. A connection spring is provided on the 24th. When the 3rd push rod moves upward, the 1st stop plate interlocks and moves upward. When the 1st stop plate moves, the 2nd push rod moves upward in conjunction, and when the 2nd push rod moves upward by the 3rd stop plate, the 6th connection plate moves upward in conjunction. The sixth connecting plate is inserted into the sixth moving chamber, and the sixth connecting plate is positioned at the top of the first through chamber 201. This avoids obstruction of the movement of the culture plate by the 6th connecting plate.

The receiving plate 2 is provided with a seventh moving chamber communicating with the third moving chamber, and the first moving chamber is provided.
7 A fourth through chamber is provided on the side wall of the moving chamber, an eighth moving chamber is provided on the inner wall of the fourth through chamber, a fixing rod 25 is bored in the fourth through chamber, and the first sliding groove is formed. The inner wall of the 102 is provided with a fixing groove that fits into the fixing rod 25. When the fourth connection plate 22 moves, the fixing rod 25 can be pushed and inserted into the fixing groove. When the fourth connecting plate moves, the fixing rod can be pushed and inserted into the fixing groove. When the receiving plate moves to the side wall of the culture chamber, the push block is pushed to insert the 4th connecting plate into the 2nd connecting groove, and when the 4th connecting plate moves, the fixing rod is moved while being pushed to fix the fixing rod. It can be inserted into the groove to provide supporting force to the receiving plate by mutual fitting of the fixing rod and the fixing groove, and to secure the connection effect between the receiving plate and the incubator body by mutual fitting of the 4th connecting plate. It can prevent outside air from entering the culture chamber when the first stop plate is opened.

The fixed rod 25 is provided with a fourth stop plate 251 that is mutually fitted to the eighth moving chamber, the fourth stop plate 251 is provided with a second return spring 252, and the side wall of the fourth connection plate 22 is provided. A push plate 22 is provided with a seventh connection plate, and the seventh connection plate is fitted to the fixed rod 25 with each other.
3 is provided, a connection bracket 231 is provided on the receiving plate 2, and a stop rod 23 is provided on the connection bracket 231 so as to be fitted to the push block 231. When the fourth connection plate moves, , The push plate moves in tandem, and the push plate pushes the fixed rod while the 4th
When the fixing rod is pushed into the fixing groove by moving it to the outside of the through chamber, the fixing plate and the fixing groove are connected and fitted. The backing plate is now fixed to the side wall of the incubator body. the 4th
When the connection plate is inserted into the second connection groove, the stop rod is pushed to move the stop rod to one side of the push block, and the stop rod provides a bearing capacity to the push block. By fixing to one end of the moving groove, the fitting effect of the 4th connecting plate and the 2nd connecting groove is ensured, and the connecting effect of the receiving plate and the incubator body is improved.

The infusion tubes from each gas storage bottle are connected at through holes as required in practice. Thereby, the environment in the first penetration chamber 201 can be adjusted. When taking out the culture plate in a certain culture chamber, the receiving plate is pulled out from the cavity 101, and the first sliding groove 10
Push the backing plate along 2 to move the backing plate to the side wall of the designated culture chamber, push the push block, insert the 4th connection plate into the 2nd connection groove, and connect the 4th connection. When the board moves,
The sixth connecting plate is pushed and moved, the second pushing rod is moved into the fourth moving chamber by the sixth connecting plate, and the connecting rod is inserted into the third connecting groove. The receiving plate is fixed by moving the fixing rod while pushing it with the push plate and inserting the fixing rod into the fixing groove. Push the stop rod to move the stop rod to one side of the push block and fix the push block.
Gas is sent into the first penetration chamber 201 via the air inlet to regulate the environment in the first penetration chamber 201. By pulling the 3rd push rod upward, the 3rd push rod is interlocked and opened according to the 1st stop plate in the culture chamber, and the 2nd connection plate is rotated to make the 2nd connection plate the 1st.
Rotate until it is in line with the push rod, push the second connecting plate into the culture chamber, push the culture plate out of the culture chamber, and push the culture plate out of the first penetration chamber 2
By entering the inside of 01, closing the first stop plate, opening the second stop plate, taking out the culture plate from the inside of the first penetration chamber 201, and observing the cells in the culture plate, the outside air is released. Prevent impact on the environment inside the incubator.

Claims (4)

The incubator main body 1, the culture plate 3 provided in the incubator main body 1, and the receiving plate 2 provided in the incubator main body 1 are included, and a plurality of culture chambers are provided in the incubator main body 1, and the culture plate 3 is the culture. A cavity 101 is provided in the chamber at the bottom of the incubator main body 1 so as to be fitted to the receiving plate 2 with each other, and a first sliding groove 102 is provided on the side wall of the incubator main body 1. The receiving plate 2 is provided with sliders that are fitted to each other in the first sliding groove 102, and the inner wall of the cavity 101 is provided with a second sliding groove 10 that is fitted to the first sliding groove 102.
3 is provided, a first penetration chamber 201 is provided in the receiving plate 2, a first stop plate 11 is provided in the culture chamber, and a second stop plate 21 is provided in the first penetration chamber 201. A through hole is provided in the side wall of the first penetration chamber 201, a plurality of culture boxes 32 are detachably connected to the culture plate 3, and a plurality of first connections are made to the culture plate 3. A groove 31 is provided, a first connection block that fits into the first connection groove 31 is provided at the bottom of the culture box 32, and a second penetration chamber is provided on the side wall of the culture chamber. 1st push rod 1 in the 2nd penetration chamber
2 is bored, a first moving chamber is provided on the inner wall of the second penetrating chamber, and a first stopping plate 121 that fits into the first moving chamber is provided on the first push rod 12 and is designated. When the culture plate 3 in the culture chamber is taken out, the receiving plate 2 is pulled out from the cavity 101 and moved along the first sliding groove 102 while pushing the receiving plate 2 to move the receiving plate 2 along the designated culture chamber. After moving to the side, the insufflation tube is connected in the through hole to adjust the gas environment in the first through chamber 201 so that the environment in the first through chamber 201 becomes the same as that in the incubator. Then, the first stop plate 11 is opened, the culture plate 3 is pushed into the first penetration chamber 201, the culture plate 3 is completely sent into the first penetration chamber 201, and then the first stop plate 11 is pushed. and closing, the second stop plate 21 culture plates 3 are opened were Eject from the first through chamber within 201, this ensures that the outside air when taking out a certain culture plate 3 enters into the incubator, the incubator A high quality bovine or sheep egg chamber cell culture incubator based on the technique of in vitro culture of embryos, which is characterized by preventing changes in the environment. A first connecting plate 122 is provided at one end of the first pushing rod 12, a third sliding groove is provided on the side wall of the first connecting plate 122, and a moving block 123 is provided in the third sliding groove. A support spring 124 is provided at the bottom of the moving block, the second connecting plate 13 is rotatably connected to the moving block 123, and the second connecting plate 13 is fitted to each other on the side wall of the incubator body 1. A high-quality bovine or oocyte culture incubator based on the technique for in vitro culturing embryos according to claim 1, wherein the first concave groove is provided. A second concave groove that fits into the second connecting plate 13 is provided at one end of the first push rod 12, a second moving chamber is provided at the top of the culture chamber, and the inside of the second moving chamber is provided. A third push rod 14 is bored, and a third connection plate 14 is formed on the top of the third push rod 14.
1 is provided, and when the receiving plate 2 moves to one side of the culture chamber, the first stop plate 11 and the third push rod 14 move together, and a second connecting groove is formed on the side wall of the culture chamber. Is provided, a third moving chamber is provided in the receiving plate 2, and a fourth connecting plate 22 that is mutually fitted into the second connecting groove is provided in the third moving chamber, and the third moving chamber is provided. A moving groove is provided at the top, a fifth connecting plate is provided on the fourth connecting plate 22, and a push block 221 that is mutually fitted into the moving groove is provided on the fifth connecting plate. A high-quality bovine or sheep egg chamber cell culture incubator based on the technique for in vitro culture of embryos according to claim 2. The first stop plate 11 is provided with a fourth moving chamber, the side wall of the fourth moving chamber is provided with a third through chamber, and the side wall of the third through chamber is provided with a fifth moving chamber. A connecting rod 112 is bored in the third through chamber, and the connecting rod 112 is provided with a second stop plate 1121 that fits into the fifth moving chamber.
A first return spring 1122 is provided on the second stop plate 1121, and a second push rod 114 for pushing the connection rod 112 is provided in the fourth moving chamber, and the third push rod 112 is provided. The rod 13 is provided with a third connecting groove that fits into the connecting rod 112, and an arc-shaped elastic piece 113 is provided in the fourth moving chamber, and the second pushing rod 11 is provided.
4 is provided on one side of the arc-shaped elastic piece 113, a sixth connection plate 24 is provided on the bottom of the fourth connection plate 22, and the sixth connection plate 24 is mutually connected to the second push rod 114. A third stop plate 241 that fits into the fourth connection plate 22 is provided, and a second connection block 22 is provided at the bottom of the fourth connection plate 22.
No. 2 is provided, and the second connection block 222 is fitted to the sixth connection plate 24 with each other.
A high-quality bovine or oocyte culture incubator based on the technique for in vitro culturing embryos according to claim 3, wherein a moving chamber is provided and a connecting spring is provided on the sixth connecting plate 24. ..