JP2021061819A - Operation stand for arranging laboratory culture box of embryo of cow and sheep - Google Patents

Abstract

To provide an operation stand for arranging a laboratory culture box of embryos of cows and sheep.SOLUTION: A pedestal 1 and a work bench 2 provided in the pedestal are comprised. A hollow cavity is provided in the pedestal, and a gas bomb is provided in the cavity. A door panel 11 is rotationally connected in the sidewall of the cavity. A material transport block is provided in the cavity. A mounting tank in collaboration with the gas bomb is provided in the material transport block. A first connecting pipe 21 in communication with the gas bomb is provided in the work bench. The gas bomb is directly arranged in the cavity, which eliminates the need for laying the gas bomb pipeline. Accordingly, the pipeline is prevented from having an effect on the use of a space of a laboratory. The gas bomb can be drawn out of the cavity and a gas bomb body can be put away, and therefore the difficulty of cleansing the gas bomb is lowered.SELECTED DRAWING: Figure 1

Description

The present invention belongs to the field of laboratory equipment technology, and particularly relates to an operating table for arranging laboratory culture boxes for bovine and sheep embryos.

By connecting to the culture box, the gas pipeline in the embryo laboratory of the Reproductive Center supplies gases such as carbon dioxide and nitrogen gas required for embryo culture, and creates the environment required for embryo growth and development. Currently, laboratory gas from embryos in many reproductive centers is supplied in gas cylinder chambers, connected to gas pipelines, and re-transported to laboratory culture boxes. Now, these gas pipelines need to penetrate the walls around the laboratory or enter the laboratory through the ceiling of the laboratory. In addition to a working table with a culture box around the walls of the laboratory, other equipment such as the IVF Ultra Clean operating table should be placed. Opening gas pipes around the wall reduces space utilization throughout the laboratory. At the same time, the embryonic laboratory is a laminar flow area, and laying pipes and lines makes it difficult to change the layout and assemble other equipment. When the gas pipeline enters the laboratory from the ceiling, a part of the gas pipeline hangs in the air, which not only affects the aesthetics of the culture room, but also makes the surface of the gas pipeline hidden in the ceiling dusty. , Cleaning becomes difficult.

Some reproductive centers place gas cylinders directly in the laboratory. However, laboratories for embryo culture must meet Class I standards of the Ministry of Health's medical institutions, set up air purification laminar flow, and reach a cleanliness of 1000. Direct exposure to the laboratory and frequent ventilation of the bomb will affect the clean environment of the embryo laboratory. In addition, frequent ventilation operations also reduce the efficiency of laboratory work.

To overcome the shortcomings of the prior art, the present invention discloses an operating table for arranging laboratory culture boxes for bovine and sheep embryos.

To achieve the above object, the present invention employs the following technical solutions: The operating pedestal for arranging the laboratory culture box of bovine and sheep embryos is provided on the pedestal and the pedestal. Includes a stand. The pedestal is provided with a hollow cavity, and the cavity is provided with a gas cylinder. The side wall of the cavity is connected to the door panel and rotation. A material transport block is provided in the cavity, and a mounting tank that cooperates with a gas cylinder is provided in the material transport block. A roller is provided at the bottom of the material transport block. A first active tank that cooperates with a roller is provided at the bottom of the cavity, and a slope is provided at one end of the first active tank. The workbench will be provided with a first connecting pipe that communicates with the gas cylinder. The culture box is placed on a workbench, which supports the incubator. The first connecting pipe communicates with the culture box and sends the gas in the gas cylinder into the culture box, and the environment in the culture box is adjusted to provide an appropriate culture environment for the embryo. When injecting gas into the gas cylinder, the door panel is opened, the material transport block is pulled out directly from the cavity, the material transport block is pulled out together with the gas cylinder, and by installing the rollers, the gas cylinder is transported to the designated place and gas transmission. The operation is completed and the difficulty of filling the gas cylinder is reduced. When the material transport block is in the cavity, the rollers are fitted into the first active tank, which limits the position of the rollers. The material transport block is fixed in a designated position in the cavity to ensure the connection effect between the gas cylinder and the first connecting pipe. The sloping surface allows the rollers to easily enter the first active tank and the material transport block reduces the difficulty of entering the cavity. Reduces shaking when collecting gas cylinders and reduces safety risks when gas cylinders are ventilated. The cooperation between the door panel and the first activity tank provides an excellent fixing effect to the material transport block, and further guarantees the cooperation effect of the gas cylinder and the first connecting pipe. Gas cylinders are placed in the cavity, there is no need to lay dedicated pipes, and the pipeline avoids affecting the use of laboratory space. The gas cylinder is pulled out directly from the cavity to clean up the body and reduce the difficulty of cleaning the gas cylinder.

The material transport block is provided with a water storage cavity, the side wall of the water storage cavity is provided with a first through hole and a second through hole, and the first through hole and the second through hole are connected to the water storage box and inside the water storage box. Has a water absorption pump. After the material transport block is pushed into the cavity, the first through hole and the second through hole communicate with the water storage box, and by the work of the water absorption pump, the water flow in the water storage box is stored until the water storage cavity is filled with fresh water. It is transported to the cavity, and the action of fresh water keeps the gas cylinder at room temperature, avoids damage due to the temperature rise of the gas cylinder, and improves the work safety of the operation table. After the water temperature in the reservoir becomes higher than the preset temperature, the water flow in the reservoir is drained from the second through hole, and new fresh water continues to flow from the first through hole, replacing the water flow in the reservoir, and the water flow becomes. Ensuring the cooling effect on the gas cylinder.

A hole is provided at the top of the gas cylinder, and a valve component is provided in the hole. A second activity tank is provided at the bottom of the work table, a sleeve that cooperates with a hole in a gas cylinder is provided in the second activity tank, and the sleeve communicates with the first connection pipe. A first support plate that cooperates with the sleeve is provided on the side wall of the gas cylinder. A cylinder for controlling the switch of the valve component is provided in the sleeve. By the action of valve parts, the gas cylinder is sealed, gas leakage inside the gas cylinder is prevented, and the safety of the gas cylinder is ensured. When the gas cylinder reaches the cavity,
The sleeve moves down to cover the gas cylinder. The bottom of the sleeve is in contact with the first support plate and is interlocked with the sleeve and the gas cylinder. When the embryo is placed in the culture box, the cylinder drives and extends the piston rod, the action of the cylinder opens the valve parts, the gas in the gas cylinder overflows from the hole in the gas cylinder, the airflow enters from the first connecting pipe, and the airflow is cultured. It is introduced into the box and adjusts the environment inside the culture box. The cooperation between the sleeve and the gas cylinder improves the connection effect between the gas cylinder and the first connection pipe, prevents gas leak accidents, and reduces gas waste.

A connecting plate is provided on the side wall of the sleeve, the connecting plate penetrates into the second active tank, and the connecting plate is provided with a connecting spring. A plurality of tanks are provided at the bottom of the sleeve. The sleeve is connected to the first connecting pipe by the second connecting pipe. If the gas cylinder is not attached to the cavity, the connecting plate is located at the top of the second active tank by the action of the connecting spring, the connecting plate drives the sleeve to move up, the sleeve enters the second active tank, and The sleeve avoids obstacles to the installation of gas cylinders. After attaching the gas cylinder to the cavity, the gas cylinder is located under the sleeve, pushing down the connecting plate, the connecting plate pushing down the sleeve, the sleeve is covered with the gas cylinder, and the gas cylinder communicates with the first connecting pipe. The air flow in the gas cylinder is introduced into the culture box.

A third activity tank is provided on the side wall of the work table, and the third activity tank communicates with the second activity tank. Second
A fixed block is provided in the activity tank, and a first sliding block is provided in the fixed block. A first sliding tank that cooperates with the first sliding block is provided on the inner wall of the third active tank. When the sleeve covers the gas cylinder, the fixing block is pushed along the third activity tank to move the fixing block onto the connecting plate. The fixing block provides bearing capacity to the connecting plate, fixing the sleeve,
It improves the connection effect between the sleeve and the gas cylinder, prevents gas leak accidents, and improves the safety of using the operation table.

Valve components include a connecting ring provided on the inner wall of the hole in the gas cylinder, a first sealing plate that cooperates with the connecting ring, and a first push pole provided on the first sealing plate. A second sliding block is provided on the first sealing plate. A second sliding tank that cooperates with the second sliding block is provided on the inner wall of the hole of the gas cylinder. A sealing spring is provided on the second sliding block. After the gas is sent to the gas cylinder, the sealing spring pushes up the second sliding block, the first sealing plate touches the bottom of the connecting ring, and the first sealing plate works with the connecting ring to seal the holes in the gas cylinder. The gas prevents leakage from the holes in the gas cylinder and improves the safety of the gas cylinder. When the gas cylinder and sleeve work together, the cylinder drives the piston rod to extend, the cylinder piston rod pushes down the first push pole, the first sealing plate comes off the connecting ring, the gas cylinder is open, and the gas cylinder The airflow inside is put into the first connecting pipe to provide sufficient gas for adjusting the environment in the culture box.

The first push pole is provided with an active cavity, a hole is provided in the side wall of the active cavity, and a first position limiting plate is provided through the hole. A fourth activity tank is provided on the inner wall of the hole. The first position limiting plate is provided with a second position limiting plate that cooperates with the fourth activity tank, and the second position limiting plate is provided with a position limiting spring. A second push pole is provided in the active cavity for pulling the first position limiting plate and moving it in the active cavity. If the gas cylinder is not attached to the cavity, the position limiting spring pushes the second position limiting plate to one end of the fourth active tank and the first position limiting plate extends out of the hole. The first position limiting plate contacts the top of the connecting ring and provides bearing capacity for the first push pole to prevent accidental push of the first push pole during transportation and avoid gas leak accidents. When the gas cylinder is attached to the cavity, the second push pole is moved down, and the action of the second push pole puts the first position limiting plate into the cavity. The first position limiting plate is disengaged from the connecting ring, and the action of the cylinder pushes and moves the first push pole, which acts as a control for valve parts.

There are two groups of holes, and the holes in the two groups are installed relative to each other. The first position limiting plates of the two groups are connected by a connecting rope. At the bottom of the second push pole, a first concave tank that cooperates with the connecting rope is provided. A first push block is provided on the top of the second push pole, and a third sliding block is provided on the first push block. A third sliding tank that cooperates with the third sliding block is provided on the inner wall of the active cavity. A reset spring is provided on the third sliding block. The piston pole of the cylinder is provided with a third push pole that cooperates with the first push block. When the gas cylinder is attached to the cavity, it pushes down on the connecting plate, the connecting plate moves the sleeve down, and the sleeve covers the gas cylinder. The 3rd push pole is in contact with the 1st push block, and the 3rd push pole is the 1st
The push block is pushed down, and the first push block pushes down the second push pole. The second push pole contacts the connecting rope and moves down the middle of the connecting rope, the connecting rope pulls the first position limiting plate and moves to the cavity, the first position limiting plate comes off the connecting ring and the cylinder Plays the role of controlling valve parts by the action of. When the gas cylinder is removed from the cavity, the fixing block is pushed along the third activity tank and the fixing block separates from the connecting plate. The action of the connecting spring moves the connecting plate up, and the connecting plate moves the sleeve up. The 3rd push pole is removed from the 1st push block, and the 1st push block moves upward by the action of the reset spring. The third push pole no longer pushes the connecting rope, and the first position limiting plate extends out of the hole again to fix the first push pole.

The side wall of the cavity has a third through hole that cooperates with the first through hole and a fourth through hole that cooperates with the second through hole. A guard is provided on the inner wall of the first through hole, and one side of the guard is connected to a second sealing plate in rotation. A third connecting pipe is provided in the third through hole, and a second push block that cooperates with the second sealing plate is provided on one side of the third connecting pipe. When the material transport block is attached to the cavity, the first through hole aligns with the third through hole and the second push block is inserted into the first through hole to contact the second sealing plate. Since the second push block pushes the second sealing plate and rotates around the connection point, the second sealing plate no longer contacts the guard, the second sealing plate loses the sealing effect of the first through hole, and the water storage cavity. Injects a stream of water into the gas cylinder to provide an excellent cooling effect.

A second support plate is provided on the inner wall of the first through hole, a support spring is provided on the second support plate, and one side of the support spring is fixedly connected to the second sealing plate. By the action of the support plate and the support spring, the second sealing plate is given a supporting force, and the cooperative effect between the second sealing plate and the guard is improved.
1 To close the through hole, when moving the material transport block, avoid water leakage from the first through hole and ensure the reliability of using the material transport block.

The present invention has the following advantages: When injecting gas into the gas cylinder, the door panel is opened, the material transport block is pulled out directly from the cavity, the material transport block is pulled out together with the gas cylinder, and by installing a roller, the gas cylinder Is transported to the designated location, the gas transmission operation is completed, and the difficulty of filling the gas cylinder is reduced.

It is a structural explanatory drawing of this invention. FIG. 1 is a cross-sectional explanatory view 1 of the present invention. It is an enlarged view of A of FIG. FIG. 2 is a cross-sectional explanatory view 2 of the present invention. It is an enlarged view of B of FIG. It is an enlarged view of C of FIG. It is an enlarged view of F of FIG. FIG. 3 is a cross-sectional explanatory view 3 of the present invention. It is an enlarged view of G of FIG. It is an enlarged view of H of FIG. It is an enlarged view of I of FIG.

As shown in FIGS. 1 to 11, the operating table for arranging the laboratory culture boxes for cow and sheep embryos is pedestal 1.
And the workbench 2 provided on the pedestal 1. A hollow cavity is provided in the pedestal 1, and a gas cylinder 4 is provided in the cavity. The side wall of the cavity is connected to the door panel 11 in rotation. A material transport block 3 is provided in the cavity, and a mounting tank that cooperates with the gas cylinder 4 is provided in the material transport block 3. A roller 32 is provided at the bottom of the material transport block 3. A first active tank 13 that cooperates with the roller 32 is provided at the bottom of the cavity, and a slope is provided at one end of the first active tank 13. The workbench 2 is provided with a first connection pipe 21 that communicates with the gas cylinder 4. The culture box is placed on a workbench, which supports the incubator. The first connecting pipe communicates with the culture box and sends the gas in the gas cylinder into the culture box, and the environment in the culture box is adjusted to provide an appropriate culture environment for the embryo. When injecting gas into the gas cylinder, the door panel is opened, the material transport block is pulled out directly from the cavity, the material transport block is pulled out together with the gas cylinder, and by installing the rollers, the gas cylinder is transported to the designated place and gas transmission. The operation is completed and the difficulty of filling the gas cylinder is reduced. When the material transport block is in the cavity, the rollers are fitted into the first active tank, which limits the position of the rollers. The material transport block is fixed in a designated position in the cavity to ensure the connection effect between the gas cylinder and the first connecting pipe. The sloping surface allows the rollers to easily enter the first active tank and the material transport block reduces the difficulty of entering the cavity. Reduces shaking when collecting gas cylinders and reduces safety risks when gas cylinders are ventilated. The cooperation between the door panel and the first activity tank provides an excellent fixing effect to the material transport block, and further guarantees the cooperation effect of the gas cylinder and the first connecting pipe. Gas cylinders are placed in the cavity, there is no need to lay dedicated pipes, and the pipeline avoids affecting the use of laboratory space. The gas cylinder is pulled out directly from the cavity to clean up the body and reduce the difficulty of cleaning the gas cylinder.

The material transport block 3 is provided with a water storage cavity, the side wall of the water storage cavity is provided with a first through hole and a second through hole, and the first through hole and the second through hole are connected to the water storage box and inside the water storage box. Has a water absorption pump. After the material transport block is pushed into the cavity, the first and second through holes communicate with the water storage box.
By the work of the water absorption pump, the water flow in the water storage box is transported to the water storage cavity until the water storage cavity is filled with fresh water, and the action of the fresh water keeps the gas cylinder at room temperature and avoids damage due to the temperature rise of the gas cylinder. , Improve the work safety of the operation table. After the water temperature in the reservoir becomes higher than the preset temperature, the water flow in the reservoir is drained from the second through hole, and new fresh water continues to flow from the first through hole, replacing the water flow in the reservoir, and the water flow becomes. Ensuring the cooling effect on the gas cylinder. A method of connecting the first through hole to the faucet and connecting the second through hole to the water storage box can also be adopted.

A hole is provided at the top of the gas cylinder 4, and a valve component is provided in the hole. A second activity tank is provided at the bottom of the work table 2, and a sleeve 2 that cooperates with the hole of the gas cylinder 4 in the second activity tank.
2 is provided, and the sleeve 22 communicates with the first connecting pipe 21. A first support plate that cooperates with the sleeve 22 is provided on the side wall of the gas cylinder 4. A cylinder 23 for controlling a switch of a valve component is provided in the sleeve 22. By the action of valve parts, the gas cylinder is sealed, gas leakage inside the gas cylinder is prevented, and the safety of the gas cylinder is ensured. Gas cylinders
Once in the cavity, the sleeve moves down to cover the gas cylinder. The bottom of the sleeve is in contact with the first support plate and is interlocked with the sleeve and the gas cylinder. When the embryo is placed in the culture box, the cylinder drives and extends the piston rod, the action of the cylinder opens the valve parts, the gas in the gas cylinder overflows from the hole in the gas cylinder, the airflow enters from the first connecting pipe, and the airflow is cultured. It is introduced into the box and adjusts the environment inside the culture box. The cooperation between the sleeve and the gas cylinder improves the connection effect between the gas cylinder and the first connection pipe, prevents gas leak accidents, and reduces gas waste.

A connecting plate 221 is provided on the side wall of the sleeve 22, the connecting plate 221 penetrates into the second active tank, and the connecting plate 221 is provided with a connecting spring 222. A plurality of tanks are provided at the bottom of the sleeve 22.
The sleeve 22 is connected to the first connecting pipe 21 by the second connecting pipe. The second connecting pipe is made of rubber. If the gas cylinder is not attached to the cavity, the connecting plate is located at the top of the second active tank by the action of the connecting spring, the connecting plate drives the sleeve to move up, the sleeve enters the second active tank, and The sleeve avoids obstacles to the installation of gas cylinders. After attaching the gas cylinder to the cavity, the gas cylinder is located under the sleeve, pushing down the connecting plate, the connecting plate pushing down the sleeve, the sleeve is covered with the gas cylinder, and the gas cylinder communicates with the first connecting pipe. The air flow in the gas cylinder is introduced into the culture box.

A third activity tank is provided on the side wall of the work table 2, and the third activity tank communicates with the second activity tank. A fixed block 24 is provided in the second active tank, and a first sliding block is provided in the fixed block 24. A first sliding tank that cooperates with the first sliding block is provided on the inner wall of the third active tank. When the sleeve covers the gas cylinder, the fixing block is pushed along the third activity tank to move the fixing block onto the connecting plate. The fixing block provides bearing capacity to the connection plate, fixes the sleeve, improves the connection effect between the sleeve and the gas cylinder, prevents gas leak accidents, and improves the safety of using the operation table.

Valve components include a connecting ring provided on the inner wall of the hole in the gas cylinder 4, a first sealing plate 42 that cooperates with the connecting ring, and a first push pole 421 provided on the first sealing plate 42. A second sliding block is provided on the first sealing plate 42. A second sliding tank that cooperates with the second sliding block is provided on the inner wall of the hole of the gas cylinder 4. A sealing spring 422 is provided on the second sliding block.
After the gas is sent to the gas cylinder, the sealing spring pushes up the second sliding block, the first sealing plate touches the bottom of the connecting ring, and the first sealing plate works with the connecting ring to seal the holes in the gas cylinder. The gas prevents leakage from the holes in the gas cylinder and improves the safety of the gas cylinder. When the gas cylinder and sleeve work together, the cylinder drives the piston rod to extend, the cylinder piston rod pushes down the first push pole, the first sealing plate comes off the connecting ring, the gas cylinder is open, and the gas cylinder The airflow inside is put into the first connecting pipe to provide sufficient gas for adjusting the environment in the culture box.

The first push pole 421 is provided with an active cavity, a hole is provided in the side wall of the active cavity, and a first position limiting plate 44 is provided through the hole. A fourth activity tank is provided on the inner wall of the hole. The first position limiting plate 44 is provided with a second position limiting plate that cooperates with the fourth activity tank, and the second position limiting plate is provided with a position limiting spring. A second push pole for pulling the first position limiting plate 44 in the active cavity and moving it in the active cavity is provided. If the gas cylinder is not attached to the cavity, the position limiting spring pushes the second position limiting plate to one end of the fourth active tank and the first position limiting plate extends out of the hole. The first position limiting plate contacts the top of the connecting ring and provides bearing capacity for the first push pole to prevent accidental push of the first push pole during transportation and avoid gas leak accidents. When the gas cylinder is attached to the cavity, the second push pole is moved down, and the action of the second push pole puts the first position limiting plate into the cavity. The first position limiting plate is disengaged from the connecting ring, and the action of the cylinder pushes and moves the first push pole, which acts as a control for valve parts.

There are two groups of holes, and the holes in the two groups are installed relative to each other. The first position limiting plate 44 of the two groups is connected by a connecting rope 441. At the bottom of the second push pole, a first concave tank that cooperates with the connecting rope is provided. A first push block 43 is provided on the top of the second push pole, and a third sliding block is provided on the first push block 43. A third sliding tank that cooperates with the third sliding block is provided on the inner wall of the active cavity. A reset spring 431 is provided on the third sliding block. The piston pole of the cylinder 23 is provided with a third push pole 231 that cooperates with the first push block 43. When the gas cylinder is attached to the cavity, it pushes down on the connecting plate, the connecting plate moves the sleeve down, and the sleeve covers the gas cylinder. The 3rd push pole comes into contact with the 1st push block, the 3rd push pole pushes down the 1st push block, and the 1st push block pushes down the 2nd push pole. The second push pole contacts the connecting rope and moves down the middle of the connecting rope, the connecting rope pulls the first position limiting plate and moves to the cavity, the first position limiting plate comes off the connecting ring and the cylinder Plays the role of controlling valve parts by the action of. When the gas cylinder is removed from the cavity
Along the third activity tank, the fixing block is pushed and the fixing block separates from the connecting plate. The action of the connecting spring moves the connecting plate up, and the connecting plate moves the sleeve up. The 3rd push pole is removed from the 1st push block, and the 1st push block moves upward by the action of the reset spring. The third push pole no longer pushes the connecting rope, and the first position limiting plate extends out of the hole again to fix the first push pole.

The side wall of the cavity has a third through hole that cooperates with the first through hole and a fourth through hole that cooperates with the second through hole. A guard 33 is provided on the inner wall of the first through hole, and a second sealing plate 3 is provided on one side of the guard 33.
4 and connected to rotation. A third connecting pipe 12 is provided in the third through hole, and a second push block that cooperates with the second sealing plate 34 is provided on one side of the third connecting pipe 12. When the material transport block is attached to the cavity, the first through hole aligns with the third through hole and the second push block is inserted into the first through hole to contact the second sealing plate. Since the second push block pushes the second sealing plate and rotates around the connection point, the second sealing plate no longer contacts the guard, the second sealing plate loses the sealing effect of the first through hole, and the water storage cavity. Injects a stream of water into the gas cylinder to provide an excellent cooling effect.

A second support plate 35 is provided on the inner wall of the first through hole, a support spring 351 is provided on the second support plate 35, and one side of the support spring 351 is fixedly connected to the second sealing plate 34. When moving the material transport block to close the first through hole by giving supporting force to the second sealing plate by the action of the support plate and the support spring, improving the cooperative effect of the second sealing plate and the guard, Avoid water leakage from the first through hole and ensure the reliability of using the material transport block.

The material transport block has a handle 31, and the door panel is provided with a second recessed tank that works with the handle. By setting the handle, the material carrying block can be easily pulled out of the cavity, and the gas cylinder is taken out of the cavity for ventilation.

An air introduction pipe 41 is provided at the top of the gas cylinder. The air introduction pipe is provided with an air introduction valve. The air introduction valve has the same structure as the valve of the conventional oxygen cylinder.
By installing an air introduction pipe, the airflow can be injected into the gas cylinder again, making the gas cylinder easier to use.

The quantity of gas cylinders and material transport blocks can be adjusted according to the actual type of gas to be filled, providing an environment suitable for embryo development.

The present invention belongs to the field of laboratory equipment technology, and particularly relates to an operating table for arranging laboratory culture boxes for bovine and sheep embryos.

By connecting to the culture box, the gas pipeline in the embryo laboratory of the Reproductive Center supplies gases such as carbon dioxide and nitrogen gas required for embryo culture, and creates the environment required for embryo growth and development. Currently, laboratory gas from embryos in many reproductive centers is supplied in gas cylinder chambers, connected to gas pipelines, and re-transported to laboratory culture boxes. Now, these gas pipelines need to penetrate the walls around the laboratory or enter the laboratory through the ceiling of the laboratory. In addition to a working table with a culture box around the walls of the laboratory, other equipment such as the IVF Ultra Clean operating table should be placed. Opening gas pipes around the wall reduces space utilization throughout the laboratory. At the same time, the embryonic laboratory is a laminar flow area, and laying pipes and lines makes it difficult to change the layout and assemble other equipment. When the gas pipeline enters the laboratory from the ceiling, a part of the gas pipeline hangs in the air, which not only affects the aesthetics of the culture room, but also makes the surface of the gas pipeline hidden in the ceiling dusty. , Cleaning becomes difficult.

Some reproductive centers place gas cylinders directly in the laboratory. However, laboratories for embryo culture must meet Class I standards of the Ministry of Health's medical institutions, set up air purification laminar flow, and reach a cleanliness of 1000. Direct exposure to the laboratory and frequent ventilation of the bomb will affect the clean environment of the embryo laboratory. In addition, frequent ventilation operations also reduce the efficiency of laboratory work.

To overcome the shortcomings of the prior art, the present invention discloses an operating table for arranging laboratory culture boxes for bovine and sheep embryos.

To achieve the above object, the present invention employs the following technical solutions: The operating pedestal for arranging the laboratory culture box of bovine and sheep embryos is provided on the pedestal and the pedestal. Includes a stand. The pedestal is provided with a hollow cavity, and the cavity is provided with a gas cylinder. The side wall of the cavity is connected to the door panel and rotation. A material transport block is provided in the cavity, and a mounting tank (311) that cooperates with a gas cylinder is provided in the material transport block. A roller is provided at the bottom of the material transport block. A first active tank that cooperates with a roller is provided at the bottom of the cavity, and a slope (131) is provided at one end of the first active tank. The workbench will be provided with a first connecting pipe that communicates with the gas cylinder. The culture box is placed on a workbench, which supports the incubator. 1st
The connecting pipe communicates with the culture box and sends the gas in the gas cylinder into the culture box, and the environment in the culture box is adjusted to provide an appropriate culture environment for the embryo. When injecting gas into the gas cylinder, the door panel is opened, the material transport block is pulled out directly from the cavity, the material transport block is pulled out together with the gas cylinder, and by installing the rollers, the gas cylinder is transported to the designated place and gas transmission. The operation is completed and the difficulty of filling the gas cylinder is reduced. When the material transport block is in the cavity, the rollers are fitted into the first active tank, which limits the position of the rollers. The material transport block is fixed in a designated position in the cavity to ensure the connection effect between the gas cylinder and the first connecting pipe. The installation of the inclined surface (131) allows the rollers to easily enter the first activity tank and reduces the difficulty of the material transport block entering the cavity. Reduces shaking when collecting gas cylinders and reduces safety risks when gas cylinders are ventilated. The cooperation between the door panel and the first activity tank provides an excellent fixing effect to the material transport block, and further guarantees the cooperation effect of the gas cylinder and the first connecting pipe. Gas cylinders are placed in the cavity, there is no need to lay dedicated pipes, and the pipeline avoids affecting the use of laboratory space. The gas cylinder is pulled out directly from the cavity to clean up the body and reduce the difficulty of cleaning the gas cylinder.

The material transport block is provided with a water storage cavity, and the first through hole (36) and the second through hole (36) are provided on the side wall of the water storage cavity.
A through hole is provided, the first through hole (36) and the second through hole are connected to a water storage box, and a water absorption pump is provided in the water storage box. After the material transport block is pushed into the cavity, the first through hole (36) and the second through hole communicate with the water storage box, and by the work of the water absorption pump, the water flow in the water storage box is filled with fresh water. It is transported to the water storage cavity to the state, and the action of fresh water keeps the gas cylinder at room temperature, avoids damage due to the temperature rise of the gas cylinder, and improves the work safety of the operation table. After the water temperature in the reservoir is higher than the preset temperature, the water flow in the reservoir is drained from the second through hole and new fresh water continues to flow from the first through hole (36), replacing the water flow in the reservoir. , The water flow ensures the cooling effect on the gas cylinder.

A hole is provided at the top of the gas cylinder, and a valve component is provided in the hole. A second activity tank (25) is provided at the bottom of the work table, a sleeve that cooperates with a hole in a gas cylinder is provided in the second activity tank (25), and the sleeve communicates with the first connection pipe. A first support plate (45) that cooperates with the sleeve is provided on the side wall of the gas cylinder. A cylinder for controlling the switch of the valve component is provided in the sleeve. By the action of valve parts, the gas cylinder is sealed, gas leakage inside the gas cylinder is prevented, and the safety of the gas cylinder is ensured. When the gas cylinder reaches the cavity, the sleeve moves down to cover the gas cylinder. The bottom of the sleeve is in contact with the first support plate (45) and is interlocked with the sleeve and the gas cylinder. When the embryo is placed in the culture box, the cylinder drives and extends the piston rod, the action of the cylinder opens the valve parts, the gas in the gas cylinder overflows from the hole in the gas cylinder, the airflow enters from the first connecting pipe, and the airflow is cultured. It is introduced into the box and adjusts the environment inside the culture box. The cooperation between the sleeve and the gas cylinder improves the connection effect between the gas cylinder and the first connection pipe, prevents gas leak accidents, and reduces gas waste.

A connecting plate is provided on the side wall of the sleeve, the connecting plate penetrates into the second active tank (25), and the connecting plate is provided with a connecting spring. A plurality of tanks are provided at the bottom of the sleeve. The sleeve is connected to the first connecting pipe by the second connecting pipe. If the gas cylinder is not attached to the cavity, the connecting plate is located at the top of the second active tank (25) by the action of the connecting spring, the connecting plate drives the sleeve to move up, and the sleeve moves up in the second active tank. Entering (25), the sleeve avoids obstacles to the installation of the gas cylinder. After attaching the gas cylinder to the cavity, the gas cylinder is located under the sleeve, pushing down the connecting plate, the connecting plate pushing down the sleeve, the sleeve is covered with the gas cylinder, and the gas cylinder communicates with the first connecting pipe. The air flow in the gas cylinder is introduced into the culture box.

A third activity tank is provided on the side wall of the work table, and the third activity tank communicates with the second activity tank (25). A fixed block is provided in the second active tank (25), and a first sliding block is provided in the fixed block. A first sliding tank that cooperates with the first sliding block is provided on the inner wall of the third active tank. When the sleeve covers the gas cylinder, the fixing block is pushed along the third activity tank to move the fixing block onto the connecting plate. The fixing block provides bearing capacity to the connecting plate, fixing the sleeve, improving the connection effect between the sleeve and the gas cylinder, preventing gas leak accidents,
Improve the safety of using the operating table.

Valve components include a connecting ring provided on the inner wall of the hole in the gas cylinder, a first sealing plate that cooperates with the connecting ring, and a first push pole provided on the first sealing plate. A second sliding block is provided on the first sealing plate. A second sliding tank that cooperates with the second sliding block is provided on the inner wall of the hole of the gas cylinder. A sealing spring is provided on the second sliding block. After the gas is sent to the gas cylinder, the sealing spring pushes up the second sliding block, the first sealing plate touches the bottom of the connecting ring, and the first sealing plate works with the connecting ring to seal the holes in the gas cylinder. The gas prevents leakage from the holes in the gas cylinder and improves the safety of the gas cylinder. When the gas cylinder and sleeve work together, the cylinder drives the piston rod to extend, the cylinder piston rod pushes down the first push pole, the first sealing plate comes off the connecting ring, the gas cylinder is open, and the gas cylinder The airflow inside is put into the first connecting pipe to provide sufficient gas for adjusting the environment in the culture box.

The first push pole is provided with an active cavity, a hole is provided in the side wall of the active cavity, and a first position limiting plate is provided through the hole. A fourth activity tank is provided on the inner wall of the hole. The first position limiting plate is provided with a second position limiting plate that cooperates with the fourth activity tank, and the second position limiting plate is provided with a position limiting spring. A second push pole is provided in the active cavity for pulling the first position limiting plate and moving it in the active cavity. If the gas cylinder is not attached to the cavity, the position limiting spring pushes the second position limiting plate to one end of the fourth active tank and the first position limiting plate extends out of the hole. The first position limiting plate contacts the top of the connecting ring and provides bearing capacity for the first push pole to prevent accidental push of the first push pole during transportation and avoid gas leak accidents. When the gas cylinder is attached to the cavity, the second push pole is moved down, and the action of the second push pole puts the first position limiting plate into the cavity. The first position limiting plate is disengaged from the connecting ring, and the action of the cylinder pushes and moves the first push pole, which acts as a control for valve parts.

There are two groups of holes, and the holes in the two groups are installed relative to each other. The first position limiting plates of the two groups are connected by a connecting rope. At the bottom of the second push pole, a first concave tank that cooperates with the connecting rope is provided. A first push block is provided on the top of the second push pole, and a third sliding block is provided on the first push block. A third sliding tank that cooperates with the third sliding block is provided on the inner wall of the active cavity. A reset spring is provided on the third sliding block. The piston pole of the cylinder is provided with a third push pole that cooperates with the first push block. When the gas cylinder is attached to the cavity, it pushes down on the connecting plate, the connecting plate moves the sleeve down, and the sleeve covers the gas cylinder. The 3rd push pole is in contact with the 1st push block, and the 3rd push pole is the 1st
The push block is pushed down, and the first push block pushes down the second push pole. The second push pole contacts the connecting rope and moves down the middle of the connecting rope, the connecting rope pulls the first position limiting plate and moves to the cavity, the first position limiting plate comes off the connecting ring and the cylinder Plays the role of controlling valve parts by the action of. When the gas cylinder is removed from the cavity, the fixing block is pushed along the third activity tank and the fixing block separates from the connecting plate. The action of the connecting spring moves the connecting plate up, and the connecting plate moves the sleeve up. The 3rd push pole is removed from the 1st push block, and the 1st push block moves upward by the action of the reset spring. The third push pole no longer pushes the connecting rope, and the first position limiting plate extends out of the hole again to fix the first push pole.

The side wall of the cavity has a third through hole that cooperates with the first through hole (36) and a fourth through hole that cooperates with the second through hole. A guard is provided on the inner wall of the first through hole (36), and one side of the guard is connected to a second sealing plate in rotation. A third connecting pipe is provided in the third through hole, and a second push block that cooperates with the second sealing plate is provided on one side of the third connecting pipe. When the material transport block is attached to the cavity, the first through hole (36) is aligned with the third through hole and the second push block is inserted into the first through hole (36) to contact the second sealing plate. Since the second push block pushes the second sealing plate and rotates around the connection point, the second sealing plate does not come into contact with the guard, and the second sealing plate loses the sealing effect of the first through hole (36). , Injects a stream of water into the reservoir to provide an excellent cooling effect on the gas cylinder.

A second support plate is provided on the inner wall of the first through hole (36), a support spring is provided on the second support plate, and one side of the support spring is fixedly connected to the second sealing plate. By the action of the support plate and the support spring, the material transport block is moved to give the second sealing plate a supporting force, improve the cooperative effect between the second sealing plate and the guard, and close the first through hole (36). When doing, the first through hole (3
Avoid water leakage from 6) and ensure the reliability of using the material transport block.

The present invention has the following advantages: When injecting gas into the gas cylinder, the door panel is opened, the material transport block is pulled out directly from the cavity, the material transport block is pulled out together with the gas cylinder, and by installing a roller, the gas cylinder Is transported to the designated location, the gas transmission operation is completed, and the difficulty of filling the gas cylinder is reduced.

It is a structural explanatory drawing of this invention. FIG. 1 is a cross-sectional explanatory view 1 of the present invention. It is an enlarged view of A of FIG. FIG. 2 is a cross-sectional explanatory view 2 of the present invention. It is an enlarged view of B of FIG. It is an enlarged view of C of FIG. It is an enlarged view of F of FIG. FIG. 3 is a cross-sectional explanatory view 3 of the present invention. It is an enlarged view of G of FIG. It is an enlarged view of H of FIG. It is an enlarged view of I of FIG.

As shown in FIGS. 1 to 11, the operating table for arranging the laboratory culture boxes for cow and sheep embryos is pedestal 1.
And the workbench 2 provided on the pedestal 1. A hollow cavity is provided in the pedestal 1, and a gas cylinder 4 is provided in the cavity. The side wall of the cavity is connected to the door panel 11 in rotation. A material transport block 3 is provided in the cavity, and the material transport block 3 is a mounting tank (3) that cooperates with the gas cylinder 4.
11) is provided. A roller 32 is provided at the bottom of the material transport block 3. A first active tank 13 that cooperates with the roller 32 is provided at the bottom of the cavity, and a slope (13) is provided at one end of the first active tank 13.
1) is provided. The workbench 2 is provided with a first connection pipe 21 that communicates with the gas cylinder 4.
The culture box is placed on a workbench, which supports the incubator. The first connecting pipe communicates with the culture box and sends the gas in the gas cylinder into the culture box, and the environment in the culture box is adjusted to provide an appropriate culture environment for the embryo. When injecting gas into the gas cylinder, the door panel is opened, the material transport block is pulled out directly from the cavity, the material transport block is pulled out together with the gas cylinder, and by installing the rollers, the gas cylinder is transported to the designated place and gas transmission. The operation is completed and the difficulty of filling the gas cylinder is reduced. When the material carrier block is in the cavity
The rollers are fitted into the first active tank, which limits the position of the rollers. The material transport block is fixed in a designated position in the cavity to ensure the connection effect between the gas cylinder and the first connecting pipe. The installation of the inclined surface (131) allows the rollers to easily enter the first activity tank and reduces the difficulty of the material transport block entering the cavity. Reduces shaking when collecting gas cylinders and reduces safety risks when gas cylinders are ventilated. The cooperation between the door panel and the first activity tank provides an excellent fixing effect to the material transport block, and further guarantees the cooperation effect of the gas cylinder and the first connecting pipe. Gas cylinders are placed in the cavity, there is no need to lay dedicated pipes, and the pipeline avoids affecting the use of laboratory space. The gas cylinder is pulled out directly from the cavity to clean up the body and reduce the difficulty of cleaning the gas cylinder.

The material transport block 3 is provided with a water storage cavity, and the first through hole (36) and the first through hole (36) and the first through hole (36) are provided on the side wall of the water storage cavity.
Two through holes are provided, the first through hole (36) and the second through hole are connected to a water storage box, and a water absorption pump is provided in the water storage box. After the material carrier block is pushed into the cavity, the first through hole (36) and the second
The through hole communicates with the water storage box, and by the work of the water absorption pump, the water flow in the water storage box is transported to the water storage cavity until the water storage cavity is filled with fresh water. Avoid damage due to temperature rise and improve the work safety of the operation table. After the water temperature in the reservoir becomes higher than the preset temperature, the water flow in the reservoir is drained from the second through hole.
New fresh water continues to flow through the first through hole (36), replacing the water flow in the reservoir, and the water flow ensures a cooling effect on the gas cylinder. A method of connecting the first through hole (36) to the faucet and connecting the second through hole to the water storage box can also be adopted.

A hole is provided at the top of the gas cylinder 4, and a valve component is provided in the hole. A second activity tank (25) is provided at the bottom of the work table 2, a sleeve 22 that cooperates with a hole in the gas cylinder 4 is provided in the second activity tank (25), and the sleeve 22 is a first connection pipe 21. Is communicated with. A first support plate (45) that cooperates with the sleeve 22 is provided on the side wall of the gas cylinder 4. Sleeve 22
A cylinder 23 for controlling the switch of the valve component is provided inside. By the action of valve parts, the gas cylinder is sealed, gas leakage inside the gas cylinder is prevented, and the safety of the gas cylinder is ensured. When the gas cylinder reaches the cavity, the sleeve moves down to cover the gas cylinder. The bottom of the sleeve is in contact with the first support plate (45) and is interlocked with the sleeve and the gas cylinder. When the embryo is placed in the culture box, the cylinder drives and extends the piston rod, the action of the cylinder opens the valve parts, the gas in the gas cylinder overflows from the hole of the gas cylinder, and the air flow is the first
Entering through the connecting pipe, the airflow is introduced into the culture box and regulates the environment inside the culture box. The cooperation between the sleeve and the gas cylinder improves the connection effect between the gas cylinder and the first connection pipe, prevents gas leak accidents, and reduces gas waste.

A connecting plate 221 is provided on the side wall of the sleeve 22, the connecting plate 221 penetrates into the second active tank (25), and the connecting plate 221 is provided with a connecting spring 222. A plurality of tanks are provided at the bottom of the sleeve 22. The sleeve 22 is connected to the first connecting pipe 21 by the second connecting pipe. The second connecting pipe is made of rubber. If the gas cylinder is not attached to the cavity, the connecting plate is located at the top of the second active tank (25) by the action of the connecting spring, the connecting plate drives the sleeve to move up, and the sleeve moves up in the second active tank. Entering (25), the sleeve avoids obstacles to the installation of the gas cylinder. After attaching the gas cylinder to the cavity, the gas cylinder is located under the sleeve, pushing down the connecting plate, the connecting plate pushing down the sleeve, the sleeve is covered with the gas cylinder, and the gas cylinder communicates with the first connecting pipe. The air flow in the gas cylinder is introduced into the culture box.

A third activity tank is provided on the side wall of the work table 2, and the third activity tank communicates with the second activity tank (25). A fixed block 24 is provided in the second active tank (25), and a first sliding block is provided in the fixed block 24. A first sliding tank that cooperates with the first sliding block is provided on the inner wall of the third active tank. When the sleeve covers the gas cylinder, the fixing block is pushed along the third activity tank to move the fixing block onto the connecting plate. The fixing block provides bearing capacity to the connection plate, fixes the sleeve, improves the connection effect between the sleeve and the gas cylinder, prevents gas leak accidents, and improves the safety of using the operation table.

Valve components include a connecting ring provided on the inner wall of the hole in the gas cylinder 4, a first sealing plate 42 that cooperates with the connecting ring, and a first push pole 421 provided on the first sealing plate 42. A second sliding block is provided on the first sealing plate 42. A second sliding tank that cooperates with the second sliding block is provided on the inner wall of the hole of the gas cylinder 4. A sealing spring 422 is provided on the second sliding block.
After the gas is sent to the gas cylinder, the sealing spring pushes up the second sliding block, the first sealing plate touches the bottom of the connecting ring, and the first sealing plate works with the connecting ring to seal the holes in the gas cylinder. The gas prevents leakage from the holes in the gas cylinder and improves the safety of the gas cylinder. When the gas cylinder and sleeve work together, the cylinder drives the piston rod to extend, the cylinder piston rod pushes down the first push pole, the first sealing plate comes off the connecting ring, the gas cylinder is open, and the gas cylinder The airflow inside is put into the first connecting pipe to provide sufficient gas for adjusting the environment in the culture box.

The first push pole 421 is provided with an active cavity, a hole is provided in the side wall of the active cavity, and a first position limiting plate 44 is provided through the hole. A fourth activity tank is provided on the inner wall of the hole. The first position limiting plate 44 is provided with a second position limiting plate that cooperates with the fourth activity tank, and the second position limiting plate is provided with a position limiting spring. A second push pole for pulling the first position limiting plate 44 in the active cavity and moving it in the active cavity is provided. If the gas cylinder is not attached to the cavity, the position limiting spring pushes the second position limiting plate to one end of the fourth active tank and the first position limiting plate extends out of the hole. The first position limiting plate contacts the top of the connecting ring and provides bearing capacity for the first push pole to prevent accidental push of the first push pole during transportation and avoid gas leak accidents. When the gas cylinder is attached to the cavity, the second push pole is moved down, and the action of the second push pole puts the first position limiting plate into the cavity. The first position limiting plate is disengaged from the connecting ring, and the action of the cylinder pushes and moves the first push pole, which acts as a control for valve parts.

There are two groups of holes, and the holes in the two groups are installed relative to each other. The first position limiting plate 44 of the two groups is connected by a connecting rope 441. At the bottom of the second push pole, a first concave tank that cooperates with the connecting rope is provided. A first push block 43 is provided on the top of the second push pole, and a third sliding block is provided on the first push block 43. A third sliding tank that cooperates with the third sliding block is provided on the inner wall of the active cavity. A reset spring 431 is provided on the third sliding block. The piston pole of the cylinder 23 is provided with a third push pole 231 that cooperates with the first push block 43. When the gas cylinder is attached to the cavity, it pushes down on the connecting plate, the connecting plate moves the sleeve down, and the sleeve covers the gas cylinder. The 3rd push pole comes into contact with the 1st push block, the 3rd push pole pushes down the 1st push block, and the 1st push block pushes down the 2nd push pole. The second push pole contacts the connecting rope and moves down the middle of the connecting rope, the connecting rope pulls the first position limiting plate and moves to the cavity, the first position limiting plate comes off the connecting ring and the cylinder Plays the role of controlling valve parts by the action of. When the gas cylinder is removed from the cavity
Along the third activity tank, the fixing block is pushed and the fixing block separates from the connecting plate. The action of the connecting spring moves the connecting plate up, and the connecting plate moves the sleeve up. The 3rd push pole is removed from the 1st push block, and the 1st push block moves upward by the action of the reset spring. The third push pole no longer pushes the connecting rope, and the first position limiting plate extends out of the hole again to fix the first push pole.

The side wall of the cavity has a third through hole that cooperates with the first through hole (36) and a fourth through hole that cooperates with the second through hole. A guard 33 is provided on the inner wall of the first through hole (36), and one side of the guard 33 is connected to a second sealing plate 34 in rotation. A third connecting pipe 12 is provided in the third through hole, and a second push block that cooperates with the second sealing plate 34 is provided on one side of the third connecting pipe 12. When the material transport block is attached to the cavity, the first through hole (36) is aligned with the third through hole and the second push block is inserted into the first through hole (36) to contact the second sealing plate. Since the second push block pushes the second sealing plate and rotates around the connection point, the second sealing plate does not come into contact with the guard, and the second sealing plate loses the sealing effect of the first through hole (36). , Inject a stream of water into the reservoir,
Provides an excellent cooling effect for gas cylinders.

A second support plate 35 is provided on the inner wall of the first through hole (36), a support spring 351 is provided on the second support plate 35, and one side of the support spring 351 is fixedly connected to the second sealing plate 34. ..
By the action of the support plate and the support spring, the material transport block is moved to give the second sealing plate a supporting force, improve the cooperative effect between the second sealing plate and the guard, and close the first through hole (36). when doing,
Avoid water leakage from the first through hole (36) and ensure the reliability of using the material transport block.

The material transport block has a handle 31, and the door panel is provided with a second recessed tank that works with the handle. By setting the handle, the material carrying block can be easily pulled out of the cavity, and the gas cylinder is taken out of the cavity for ventilation.

An air introduction pipe 41 is provided at the top of the gas cylinder. The air introduction pipe is provided with an air introduction valve. The air introduction valve has the same structure as the valve of the conventional oxygen cylinder.
By installing an air introduction pipe, the airflow can be injected into the gas cylinder again, making the gas cylinder easier to use.

The quantity of gas cylinders and material transport blocks can be adjusted according to the actual type of gas to be filled, providing an environment suitable for embryo development.

Claims (4)

The operating table for arranging the laboratory culture boxes for cattle and sheep embryos includes a pedestal (1) and a working table (2) provided on the pedestal (1). The pedestal (1) is provided with a hollow cavity, and a gas cylinder (gas cylinder) is provided in the cavity.
4) is provided. The side wall of the cavity is connected to the door panel (11) for rotation. Its features are: A material transport block (3) is provided in the cavity, and a gas cylinder (4) is provided in the material transport block (3).
A mounting tank that cooperates with is provided. A roller (32) is provided at the bottom of the material transport block (3). A first active tank (13) that cooperates with a roller (32) is provided at the bottom of the cavity, and a slope is provided at one end of the first active tank (13). The workbench (2) is provided with a first connection pipe (21) that communicates with the gas cylinder (4). The material transport block (3) is provided with a water storage cavity, the side wall of the water storage cavity is provided with a first through hole and a second through hole, and the first through hole and the second through hole are connected to a water storage tank to store water. A water absorption pump is provided in the tank. A hole is provided at the top of the gas cylinder (4).
Valve parts are provided in the holes. A second activity tank is provided at the bottom of the workbench (2), and a second
A sleeve (22) that cooperates with the hole of the gas cylinder (4) is provided in the activity tank, and the sleeve (22)
) Is communicated with the first connecting pipe (21). A first support plate that cooperates with the sleeve (22) is provided on the side wall of the gas cylinder (4). A cylinder (23) for controlling the switch of the valve component is provided in the sleeve (22). A connecting plate (221) is provided on the side wall of the sleeve (22), the connecting plate (221) penetrates into the second active tank, and the connecting plate (221) is provided with a connecting spring (222). A plurality of tanks are provided at the bottom of the sleeve (22). The sleeve (22) is connected to the first connecting pipe (21) by the second connecting pipe. A third activity tank is provided on the side wall of the work table (2), and the third activity tank communicates with the second activity tank. A fixed block (24) is provided in the second activity tank, and the first fixed block (24) has a first.
A sliding block is provided. A first sliding tank that cooperates with the first sliding block is provided on the inner wall of the third active tank.
An operating table for arranging a laboratory culture box for bovine and sheep embryos according to claim 1. Valve parts include a connecting ring provided on the inner wall of the hole in the gas cylinder (4), a first sealing plate (42) that cooperates with the connecting ring, and a first push pole (421) provided on the first sealing plate (42). Is done. A second sliding block is provided on the first sealing plate (42). A second sliding tank that cooperates with the second sliding block is provided on the inner wall of the hole of the gas cylinder (4). A sealing spring (422) is provided on the second sliding block. The first push pole (421) is provided with an active cavity, a hole is provided in the side wall of the active cavity, and a first position limiting plate (44) is provided through the hole. 4th on the inner wall of the hole
An activity tank will be provided. The first position limiting plate (44) is provided with a second position limiting plate that cooperates with the fourth activity tank, and the second position limiting plate is provided with a position limiting spring. A second push pole for pulling the first position limiting plate (44) and exercising in the active cavity is provided in the active cavity. There are two groups of holes, and the holes in the two groups are installed relative to each other. Two groups of first position limiting plates (
44) is connected by a connecting rope (441). At the bottom of the second push pole, a first concave tank that cooperates with the connecting rope is provided. A first push block (43) is provided on the top of the second push pole, and a third sliding block is provided on the first push block (43). A third sliding tank that cooperates with the third sliding block is provided on the inner wall of the active cavity. A reset spring (431) is provided on the third sliding block. The piston pole of the cylinder (23) has a third that works with the first push block (43).
A push pole (231) is provided.
An operating table for arranging a laboratory culture box for bovine and sheep embryos according to claim 1. The side wall of the cavity includes a third through hole that cooperates with the first through hole and a fourth through hole that cooperates with the second through hole. A guard (33) is provided on the inner wall of the first through hole, and a second guard (33) is provided on one side of the guard (33).
It is connected to the seal plate (34) and the rotation. A third connecting pipe (12) is provided in the third through hole, and a second push block that cooperates with the second sealing plate (34) is provided on one side of the third connecting pipe (12). A second support plate (35) is provided on the inner wall of the first through hole, and a second support plate (35) is provided.
) Is provided with a support spring (351), and one side of the support spring (351) is a second sealing plate (34).
And fixedly connect.

Images