CN213892304U - Multifunctional vehicle with clean environment for producing and transplanting bovine embryos - Google Patents

Abstract

The application relates to a multifunctional vehicle for producing and transplanting bovine embryos in a clean environment, which comprises a vehicle head, a closed compartment, a solar cell panel and a mother-child door, wherein a first sliding door and a second sliding door isolate the inside of the compartment into a dressing change area and an aseptic operation area; a non-sterile article storage cabinet is arranged at the back of the first sliding door in the changing area; a transmission window is arranged at the position, corresponding to the first sliding door, of the back plate of the non-sterile article storage cabinet, and an operator in the sterile operation area receives articles in the non-sterile article storage cabinet from the transmission window by opening the first sliding door. The multifunctional vehicle can be used for picking up embryos and freezing the embryos during in-vivo embryo production; picking up eggs, in-vitro fertilization, embryo culture and embryo cryopreservation during in-vitro embryo production; and thawing and recovering the embryo during embryo transplantation. This application cow embryo transplantation passes through the inside scientific design in carriage with multi-function vehicle to can provide cleaner environment in for the carriage.

Description

Multifunctional vehicle with clean environment for producing and transplanting bovine embryos

Technical Field

The utility model belongs to the technical field of it is biological, relate to a method of ox embryo transfer, especially relate to an operation room for ox embryo transfer, especially, this operation room is formed by van for basic design, specifically relates to a multi-function vehicle of ox embryo production and transplantation usefulness with clean environment. More particularly, the application relates to a multifunctional vehicle for producing and transplanting bovine embryos, which has a clean environment and can be used for picking up embryos and freezing the embryos during in-vivo embryo production; picking up eggs, in-vitro fertilization, embryo culture and embryo cryopreservation during in-vitro embryo production; and thawing and recovering the embryo during embryo transplantation.

Background

The embryo transplantation of cattle, also called fertilized egg transplantation, is to take out the early embryo after mating of cow and bull with excellent genetic character, transplant into another 1 cow uterus with the same physiological state, and continue the development until parturition. The cow that provides the embryo is called the donor and the cow that receives the embryo is called the recipient. The embryo transplantation technology mainly comprises the steps of donor cattle selection and feeding management, superovulation, artificial insemination, embryo collection and quality identification, acceptor selection and feeding management, acceptor synchronous estrus, embryo transplantation and the like. The technology is another revolution of the cattle breeding technology after artificial insemination, gives full play to the heredity and breeding potential of excellent cows, and greatly increases the population number of the excellent cows. The research and application of cattle embryo transplantation in China have been over 30 years old, and the technology has been widely applied in cattle raising industry as an industrialization technology, and makes an important contribution to the cattle breed improvement work in China.

With the development of modern agricultural science and technology, in order to make full use of the breeding potential of elite cows and accelerate the genetic breeding process, it becomes necessary to apply a new efficient breeding technology in production practice.

In the practice of bovine embryo transplantation, the method relates to operating units such as bovine living egg taking, in-vivo embryo production, embryo transplantation and the like. The follicles obtained from the ova-taking of live cattle after superovulation treatment need to be subjected to ova-picking, which involves the preparation of sterile instruments, aseptic manipulation, microscopic ova-picking, and the like. When the embryos are produced in vivo, the low-temperature frozen semen preserved in a laboratory needs to be equipped with liquid nitrogen to return to the site of the production of the embryos in vivo, and the production process of the embryos in vivo also needs to be processed by using sterile instruments, aseptic operation, operation under a microscope and the like. The embryo used for embryo transplantation can be the embryo produced at the moment, and can also be the embryo which is produced and is frozen in liquid nitrogen, then unfrozen and transplanted when a transplantable cow is available, the processes of aseptic instruments, aseptic operation, operation under a microscope and the like are carried out, and the low-temperature condition of the liquid nitrogen is also required to be guaranteed. The operation of the above-mentioned kinds, some production conditions are in the laboratory, some production conditions are in the feedlot, through designing a multi-functional car that the embryo of ox transplants and combines two occasions, it is very meaningful.

The prior art has disclosed some utility vehicle designs. For example, CN111823998A (application No. 202010779863.9) relates to a mobile laboratory, which includes a vehicle body, a compartment provided on the vehicle body, and a crash panel provided at the rear of the vehicle body; a detection instrument for detecting engineering materials is arranged in the carriage, the carriage comprises a carriage body and a carriage extension part which is in sliding connection with the carriage body, the carriage extension part is in a state of extending into the carriage body, and the carriage extension part is detachably connected with the carriage body; one end of the anti-collision plate is hinged with the vehicle body, the other end of the anti-collision plate is a free end, and the free end of the anti-collision plate can be connected with the carriage extension part. The vehicle body is provided with a first jacking plate; one end of the first tightening plate is hinged with the vehicle body, the other end of the first tightening plate is a free end, the first tightening plate is located between the carriage extension part and the anti-collision plate, and the free end of the first tightening plate can be abutted and fixed on the anti-collision plate. This application is believed to reduce the risk of direct impact to the laboratory car.

CN102795146B (application No. 201210271547.6) relates to a biological sampling detection vehicle and a vehicle-mounted detection system thereof. At present, a mobile laboratory reaching the level of three-level protection of biological safety is developed at home and abroad and is commonly called as a P3 vehicle, and the existing P3 vehicles at home and abroad are formed by grouping more than 2 box-type vehicles, so that the size is large and the operation is complex. The invention aims to provide a small biological sampling detection vehicle which has good maneuvering performance and biological safety protection function and is suitable for sudden epidemic situations or public health events. The invention is believed to integrate the biological sampling, air early warning and rapid detection functions into a whole, has good maneuverability and matched functions, has the function of carrying out various biological sampling and pathogenic microorganism detection on epidemic situations sites of remote rural or urban roadways, and can efficiently execute the biological control rapid detection task in emergency medical rescue.

CN107187370B (application number 201710345880.X) discloses a movable laboratory for building material detection, which comprises a vehicle body, wherein a box body is arranged on the upper surface of the vehicle body, an outlet is arranged on the side surface of the box body, a folding ladder is connected to the ground of the outlet through a connecting shaft, a box door is arranged on the side surface of the box body corresponding to the outlet, a connecting channel is arranged in the inner cavity of the box body, a first water pump, a supercharging device and a second water pump are arranged on the side surface of the connecting channel, water inlets of the first water pump and the second water pump are connected with an external water source through a conduit, the movable laboratory for building material detection is believed to be capable of installing corresponding detection equipment in a first test area, a second test area, a third test area and a fourth test area according to the requirements of users, and the vehicle body is utilized to provide door-up service for the users, so that the users can effectively obtain reliable and accurate experimental data and technical service in time, thereby avoiding accidents caused by material problems, facilitating the use of users and being convenient for popularization.

However, none of the above prior art designs can meet the working requirements of the operating units described above in this application for live bovine egg taking, in vivo embryo production, embryo transfer, etc. Therefore, it is still highly desirable for those skilled in the art to design a multifunctional vehicle for producing and transplanting a bovine embryo having a clean environment, which can satisfy the operating units such as egg taking from a bovine living body, embryo production from a bovine living body, and embryo transplantation, and for example, to obtain a multifunctional vehicle for producing and transplanting a bovine embryo having a clean environment, which can satisfy the operating units such as egg taking from a bovine living body, embryo production from a bovine living body, and embryo transplantation, and which has a clean working environment.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a multi-function vehicle of ox embryo production and transplantation usefulness, expect that it can satisfy the work of operating unit such as ox living body ovum collection, internal embryo production and embryo transplantation, especially expect that this kind of multi-function vehicle has clean operational environment. It has been found that the multifunctional vehicle for producing and transplanting bovine embryos provided by the design detailed in the application can completely meet the work of operation units for egg taking, embryo production in vivo, embryo transplantation and the like of a living bovine body, and can provide a clean working environment. In particular, the application relates to a multifunctional vehicle for producing and transplanting bovine embryos, which has a clean environment and can be used for picking up embryos and freezing the embryos during in-vivo embryo production; picking up eggs, in-vitro fertilization, embryo culture and embryo cryopreservation during in-vitro embryo production; and thawing and recovering the embryo during embryo transplantation. The present application has been completed based on these findings.

The present application is completed as follows.

A multifunctional vehicle with a clean environment for producing and transplanting bovine embryos is characterized by comprising:

a headstock;

the closed carriage is pulled by the headstock and is internally provided with an operating room;

the solar cell panel is arranged at the top of the carriage and used for supplying power to the closed carriage;

a mother door and a child door which are arranged at the tail part of the closed carriage, a wider mother door is arranged at the right side of the closed carriage and is used as a large goods access passage to be locked when not necessary, a narrower child door is arranged at the left side of the closed carriage and is used as a passage for the conventional people to access,

wherein the content of the first and second substances,

the interior of the closed carriage is separated into a rear dressing area and a front sterile operation area by a first sliding door and a second sliding door,

the sterile operation area is used for the operation of the aseptic operation of the bovine embryo transplantation;

a clothes and hat cabinet is arranged on the right side of the changing area, and a non-sterile article storage cabinet is arranged on the left side of the changing area, back to the first sliding door;

when the second sliding door is in a closed state, an operator in the sterile operation area receives the articles in the non-sterile article storage cabinet from the transmission window by opening the first sliding door;

the upper part of the closed carriage front wall is provided with an air inlet which provides sterile and clean air for the inside of the carriage in a one-way manner, and the air pressure of the sterile operation area is greater than that of the dressing area.

The utility model provides a multi-function vehicle that ox embryo production and transplantation with clean environment used which characterized in that sets up a preparation district at aseptic technique district right side tail end according to this application. That is, the preparation area is located at the entrance of the aseptic operation area, facilitating the work of the aseptic operation and maintaining the environment of the aseptic operation area.

The utility model provides a multi-function vehicle that ox embryo production and transplantation with clean environment used according to this application which characterized in that sets up a laboratory bench in the front portion of aseptic manipulation zone right side preparation area for experimental operation in the aseptic manipulation zone.

The multifunctional vehicle with the clean environment for the production and transplantation of the bovine embryos is characterized in that a microscopic device is arranged in front of a right experiment table of an aseptic operation area and used for microscopic observation during embryo transplantation operation. In one embodiment, the microscopic means is a microscope.

According to the utility model provides a multi-function vehicle that ox embryo production and transplantation with clean environment used which characterized in that sets up a liquid nitrogen container district at aseptic technique district right side front end for place the liquid nitrogen container with low temperature save biomaterial.

The utility model provides a multi-functional car that ox embryo production and transplantation used with clean environment according to this application which characterized in that sets up a sterilization pot district at aseptic technique district left side tail end for place the sterilization pot and disinfect in order to need the article of sterilization process. The advantage of having a sterilization pot located there is that the goods that are delivered from the transfer window into the aseptic operating zone are directly sterilized there, reducing the pressure that ensures the aseptic environment elsewhere.

The multifunctional vehicle for producing and transplanting the bovine embryos with the clean environment is characterized in that a sterile article storage cabinet is arranged in front of a sterilization pot on the left side of a sterile operation area and used for storing sterile articles. Advantageously, the sterilized articles fed from the transfer window or the sterilized articles treated by the sterilizer can be conveniently stored in the sterilized article storage cabinet.

The multifunctional vehicle with the clean environment for the production and the transplantation of the bovine embryos is characterized in that a refrigerating refrigerator area is arranged in front of a sterile article storage cabinet on the left side of a sterile operation area and used for placing a refrigerating refrigerator to refrigerate articles.

According to the utility model provides a multi-function vehicle that ox embryo production and transplantation used with clean environment which characterized in that sets up a carbon dioxide incubator district at aseptic technique district left side front end for place the carbon dioxide incubator with carry out the carbon dioxide to biomaterial and cultivate.

The utility model provides a multi-function vehicle that ox embryo production and transplantation with clean environment used which has according to the application, its characterized in that sets up an ultraviolet sterilizing lamp at the roof of aseptic technique district center for to the environment sterilization in aseptic technique district.

The utility model provides a multi-function vehicle that ox embryo production and transplantation with clean environment used which characterized in that is provided with the power respectively on aseptic technique district's left and right both sides wall for provide the power for experimental operation.

Any technical feature possessed by any one aspect of the present application or any embodiment of that one aspect may be equally applicable to any other embodiment or any embodiment of any other aspect, so long as they are not mutually contradictory, although appropriate modifications may be made to the respective features as necessary when applicable to each other. Various aspects and features of the disclosure are described further below.

All documents cited in this application are incorporated herein by reference in their entirety and to the extent that the meaning of such documents is inconsistent with this application, the express disclosure of this application controls. Further, the various terms and phrases used herein have the ordinary meaning as is known to those skilled in the art, and even so, it is intended that the present invention not be limited to the specific meanings and expressions employed herein, except insofar as such terms and phrases are inconsistent with known meanings.

In the present application, terms indicating directions may be understood in conjunction with the description and the accompanying drawings, and in particular, terms indicating directions such as front, rear, left, right, up, down, head, tail, end, and the like are understood in this application with respect to a driving direction of a vehicle, i.e., a direction of a vehicle head, and the remaining directional terms are understood accordingly.

The application relates to a multifunctional vehicle for producing and transplanting bovine embryos, which has a clean environment and can be used for picking up embryos and freezing the embryos during in-vivo embryo production; picking up eggs, in-vitro fertilization, embryo culture and embryo cryopreservation during in-vitro embryo production; and thawing and recovering the embryo during embryo transplantation.

In this application reference is made to certain areas for which it is desired to install or install a device, which in certain contexts is also understood to be a device, for example a carbon dioxide incubator zone or a refrigerator zone as described herein in certain contexts is also understood to be a carbon dioxide incubator or refrigerator respectively, and vice versa.

The embryo transplantation technology is an effective way for accelerating the stock breeding rate of cattle farms, but most cattle farms are not equipped with laboratories special for embryo transplantation, so that the popularization and application of the technology are limited by hardware conditions. The application provides a multi-functional embryo transfer car for ox can satisfy and carry out technological operations such as pick up the ovum in the ox live body ovum picking chamber, pick up embryo in the embryo production room of internal and embryo transfer under any scene, and the embryo transfer of being convenient for promotes fast. The design of this application is based on van to reform transform, installs solar panel additional at the roof, supplies equipment to use in the car, and supporting reserve on-vehicle storage battery or on-vehicle generator simultaneously through the inside scientific design in carriage, has solved the ox live body ovum collection, in vivo embryo production and embryo transplantation receive the restriction in ox field and can't develop the scheduling problem. In addition, the multi-functional embryo transfer car for ox that this application provided, it can provide cleaner operational environment.

Drawings

FIG. 1 is a schematic view showing the external structure of the present multipurpose vehicle for bovine embryo production and transplantation having a clean environment.

FIG. 2 is a schematic view of the internal structure of the multipurpose vehicle for producing and transplanting bovine embryos with a clean environment according to the present application.

The utility model provides a multi-functional car that production of ox embryo and transplantation usefulness with clean environment relates to the major components mark and summarizes as follows:

a headstock 1, a closed carriage 2, a solar panel 3, a parent-subsidiary door 4,

A coat and hat cabinet 5, a preparation area 6, a power supply 7, an experiment table 8, a microscope 9, a liquid nitrogen tank area 10, an ultraviolet sterilizing lamp 11,

A carbon dioxide incubator area 12, a refrigerator area 13, a sterile article storage cabinet 14, a sterilizer area 15,

A first sliding door 16, a non-sterile article storage cabinet 17, a delivery window 171, a second sliding door 18, a dressing area 19, a sterile operation area 20 and an air inlet 21.

Detailed Description

The present application can be further described by the following examples, however, the scope of the present application is not limited to the following examples. Those skilled in the art will appreciate that various changes and modifications can be made to the present application without departing from the spirit and scope of the application. The materials used in the tests and the test methods are generally and/or specifically described herein. Although many materials and methods of operation are known in the art for the purposes of this application, this application is nevertheless described herein in detail as far as possible. Unless otherwise specified, the technical means used in the examples are conventional means well known to those skilled in the art, and the raw materials used are commercially available products.

The present application is further described with reference to the accompanying drawings. FIG. 1 is a schematic view showing the external structure of the present multipurpose vehicle for bovine embryo production and transplantation having a clean environment. FIG. 2 is a schematic view of the internal structure of the multipurpose vehicle for producing and transplanting bovine embryos with a clean environment according to the present application.

As shown in fig. 1 and 2, the present application relates to a multifunctional cart for the production and transplantation of bovine embryos having a clean environment, characterized in that it comprises:

a vehicle head 1;

a closed type carriage 2 which is towed by the vehicle head 1 and in which an operating room is arranged;

the solar cell panel 3 is arranged at the top of the carriage and is used for supplying power to the closed carriage 2;

a mother and child door 4 provided at the rear of the enclosed type compartment 2, a wider mother door provided at the right side of the vehicle and locked if necessary as a passage for the entrance and exit of large-sized goods, a narrower child door provided at the left side of the vehicle and used as a passage for the entrance and exit of regular persons,

wherein the content of the first and second substances,

the interior of the enclosed vehicle 2 is separated by a first sliding door 16 and a second sliding door 18 into a rear dressing area 19 and a front sterile operating area 20,

the sterile operation area 20 is used for the operation of the bovine embryo transplantation and the operation of sterile operation;

a clothes and hat cabinet 5 is arranged on the right side of the changing area 19, and a non-sterile article storage cabinet 17 is arranged on the left side of the changing area 19 back to the first sliding door 16;

when the first sliding door 16 is closed, the first sliding door 16 is arranged on the left side, when the second sliding door 18 is closed, the second sliding door 18 is arranged on the right side, and a transmission window 171 is arranged at the position of the back plate of the non-sterile article storage cabinet 17 corresponding to the first sliding door 16, so that in the closed state of the second sliding door 18, an operator in the sterile operation area 20 receives articles in the non-sterile article storage cabinet 17 from the transmission window 171 by opening the first sliding door 16;

an air inlet 21 is arranged at the upper part of the front wall of the closed compartment 2, and is used for supplying sterile and clean air to the inside of the compartment in a one-way mode, and the air pressure of the sterile operation area 20 is higher than that of the dressing area 19.

According to the present application, a preparation area 6 is provided at the right end of the aseptic manipulation area 20. That is, the preparation area 6 is located at the entrance of the aseptic operation area 20, facilitating the work of the aseptic operation and maintaining the environment of the aseptic operation area 20.

According to a specific example of the multipurpose vehicle for producing and transplanting bovine embryos with a clean environment, a laboratory bench 8 is provided in front of a preparation area 6 at the right side of a sterile operation area 20 for performing a test operation in the sterile operation area 20.

According to a specific example of the multifunctional vehicle for producing and transplanting bovine embryos with a clean environment, a microscope device 9 is arranged in front of a test table 8 at the right side of a sterile operation area 20 and is used for microscopic observation during embryo transplantation operation. In one embodiment, the microscopic means 9 is a microscope, for example a stereomicroscope.

According to a specific example of the multipurpose vehicle for producing and transplanting bovine embryos with a clean environment of the present application, a liquid nitrogen tank area 10 is provided at the front end of the right side of the aseptic manipulation area 20 for placing a liquid nitrogen tank to store biological materials at a low temperature.

According to the present application, a sterilization pot area 15 is provided at the left end of the aseptic processing area 20 for placing a sterilization pot to sterilize the article to be sterilized. The advantage of having a sterilization pot located therein is that items delivered from the transfer window 171 into the aseptic processing area 20 are directly sterilized there, reducing the pressure required to maintain an aseptic environment elsewhere.

According to a specific example of the multipurpose vehicle for bovine embryo production and transplantation having a clean environment according to the present application, a sterile article storage cabinet 14 is provided in front of the sterilization pot 15 at the left side of the sterile operating area 20 for storing sterile articles. Advantageously, the sterilized articles or the sterilized articles processed by the sterilizer 15 fed through the transfer window 171 can be conveniently stored in the sterilized article storage container 14.

According to a specific example of the multipurpose vehicle for bovine embryo production and transplantation having a clean environment according to the present application, a refrigerator section 13 for placing a refrigerator to refrigerate the goods is provided at the front of the aseptic goods storage cabinet 14 at the left side of the aseptic manipulation section 20.

According to a specific example of the multipurpose vehicle for the production and transplantation of bovine embryos with a clean environment of the present application, a carbon dioxide incubator section 12 is provided at a front left end of the aseptic manipulation section 20 for placing a carbon dioxide incubator to perform carbon dioxide cultivation of biological materials.

According to a specific example of the multipurpose vehicle for producing and transplanting bovine embryos with a clean environment, an ultraviolet sterilizing lamp 11 is arranged on the top wall of the center of the sterile operating area 20 and is used for sterilizing the environment of the sterile operating area 20.

According to a specific example of the utility model with clean environment for the production and transplantation of bovine embryo, wherein, power 7 is respectively arranged on the left and right side walls of the sterile operation area 20 for providing power for experimental operation.

In the multifunctional vehicle with the clean environment for the production and transplantation of the bovine embryos, the solar power generation board additionally arranged on the roof can be used for equipment in the vehicle, particularly for low-power equipment such as lighting, a refrigerator, a carbon dioxide incubator and an ultraviolet sterilizing lamp, and the high-function equipment such as the low-power equipment and a sterilizing pot can be supplied with power by a vehicle-mounted storage battery or a vehicle-mounted generator.

The utility model provides a multi-functional car of ox embryo production and transplantation usefulness with clean environment can use through the following general mode:

the wider mother door of the mother and son door 4 is locked when not necessary, and enters the vehicle from the son door under the condition that only personnel and small articles come in and go out;

placing the articles in the non-sterile article storage cabinet 17 and transferring the articles into the sterile operating area 20 through the transfer window 171;

after the worker replaces the clothes and caps in the clothes changing area 19, the worker enters the sterile operation area 20 by opening the second sliding door 18 and closes the second sliding door 18;

the worker receives various articles from the transfer window 171 in the aseptic operation area 20 by opening the first sliding door 16, the articles to be sterilized are placed in the sterilizer for sterilization, and the aseptic articles and the sterilized articles are placed in the aseptic article storage cabinet 14;

performing various operations of bovine embryo transfer in the sterile operating area 20, such as performing experimental operations on the laboratory bench 8;

performing micromanipulation on the microscopy device 9;

performing the operation of storing and taking the biological material in the liquid nitrogen tank area 10, and culturing the biological material by using a carbon dioxide incubator;

refrigerating various articles needing to be refrigerated by using a refrigerator;

sterilizing the environment of the sterile operating area 20 by using an ultraviolet sterilizing lamp 11;

the air inlet 21 is started to provide sterile and clean air for the interior of the carriage in a one-way mode, and the air pressure of the sterile operation area 20 is larger than that of the changing area 19, so that when workers enter the sterile operation area 20 from the changing area 19, the air pressure of the sterile operation area 20 is larger than that of the changing area 19, and the cleaner environment of the former can be guaranteed; similarly, when the worker opens the first sliding door 16 to receive various articles from the transfer window 171, the air pressure of the sterile operating area 20 is greater than that of the dressing area 19, so that the cleaner environment of the sterile operating area can be ensured, and therefore, the design of the air inlet 21 can provide a cleaner working environment for the multifunctional vehicle for bovine embryo transplantation; and so on.

The multifunctional vehicle for producing and transplanting the cattle embryos and having the clean environment can be used for picking up the embryos and freezing the embryos during in-vivo embryo production; picking up eggs, in-vitro fertilization, embryo culture and embryo cryopreservation during in-vitro embryo production; and thawing and recovering the embryo during embryo transplantation.

Although the invention has been described in detail hereinabove with respect to a general description and specific embodiments thereof, it will be apparent to those skilled in the art that modifications or improvements may be made thereto based on the invention. Accordingly, such modifications and improvements are intended to be within the scope of the invention as claimed.

Claims (10)

1. A multifunctional vehicle with a clean environment for producing and transplanting bovine embryos is characterized by comprising:

a headstock;

the closed carriage is pulled by the headstock and is internally provided with an operating room;

the solar cell panel is arranged at the top of the carriage and used for supplying power to the closed carriage;

a mother door and a child door which are arranged at the tail part of the closed carriage, a wider mother door is arranged at the right side of the closed carriage and is used as a large goods access passage to be locked when not necessary, a narrower child door is arranged at the left side of the closed carriage and is used as a passage for the conventional people to access,

wherein the content of the first and second substances,

the interior of the closed carriage is separated into a rear dressing area and a front sterile operation area by a first sliding door and a second sliding door,

the sterile operation area is used for the operation of the aseptic operation of the bovine embryo transplantation;

a clothes and hat cabinet is arranged on the right side of the changing area, and a non-sterile article storage cabinet is arranged on the left side of the changing area, back to the first sliding door;

when the second sliding door is in a closed state, an operator in the sterile operation area receives the articles in the non-sterile article storage cabinet from the transmission window by opening the first sliding door;

the upper part of the closed carriage front wall is provided with an air inlet which provides sterile and clean air for the inside of the carriage in a one-way manner, and the air pressure of the sterile operation area is greater than that of the dressing area.

2. The clean environment multipurpose vehicle for production and transplantation of bovine embryos of claim 1, wherein a preparation area is provided at the right end of the sterile operation area.

3. The clean environment multipurpose vehicle for production and transplantation of bovine embryos of claim 1, wherein a laboratory bench is provided in front of the preparation area on the right side of the sterile operating area for performing test operations in the sterile operating area.

4. The multipurpose vehicle for the production and transplantation of bovine embryos with a clean environment according to claim 1, wherein a microscopic device is provided in front of a right laboratory bench of the aseptic manipulation area for microscopic observation in embryo transplantation manipulation.

5. The clean environment multipurpose vehicle for bovine embryo production and transplantation as claimed in claim 1, wherein a liquid nitrogen tank area is provided at the front right side of the aseptic manipulation area for placing a liquid nitrogen tank for cryopreservation of biological materials.

6. The clean environment multipurpose vehicle for production and transplantation of bovine embryos of claim 1, wherein a sterilizer section is provided at the left end of the sterile operation section for placing a sterilizer to sterilize the articles to be sterilized.

7. The clean environment multipurpose vehicle for bovine embryo production and transplantation according to claim 1, wherein a sterile article storage cabinet is provided in front of the sterilization pot on the left side of the sterile operation area for storing sterile articles.

8. The clean environment multipurpose vehicle for bovine embryo production and transplantation according to claim 1, wherein a refrigerator section for placing a refrigerator to refrigerate the goods is provided in front of the aseptic goods storage cabinet at the left side of the aseptic manipulation section.

9. The multipurpose vehicle for producing and transplanting bovine embryos having a clean environment according to claim 1, wherein a carbon dioxide incubator section is provided at a front end of a left side of the sterile operation section for placing a carbon dioxide incubator for carbon dioxide cultivation of biological materials.

10. The multipurpose vehicle for producing and transplanting bovine embryos with a clean environment according to claim 1, wherein an ultraviolet sterilizing lamp is arranged at the top of the front wall of the sterile operating area for sterilizing the environment of the sterile operating area; and/or power supplies are respectively arranged on the left side wall and the right side wall of the sterile operation area and used for providing power supplies for test operation.

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